From afdbb95e7fbcd2837243242064a2f9797e4698bd Mon Sep 17 00:00:00 2001 From: Solmaz Azimi Date: Thu, 6 Feb 2025 16:21:54 -0700 Subject: [PATCH 1/8] Modified ATM system preparation for receptor swapping, can include two receptors now in the system --- make_atm_system_from_rcpt_lig.py | 56 +++++++++++++++++++++++++++----- 1 file changed, 47 insertions(+), 9 deletions(-) diff --git a/make_atm_system_from_rcpt_lig.py b/make_atm_system_from_rcpt_lig.py index c536221..56815c5 100644 --- a/make_atm_system_from_rcpt_lig.py +++ b/make_atm_system_from_rcpt_lig.py @@ -1,5 +1,6 @@ # Usage: python make_atm_rbfe_system_frompdb.py # Emilio Gallicchio, 5/2023 adapted from code by Bill Swope, 11/2021 +# modified by Solmaz Azimi 6/2024 ############################################ # # @@ -76,22 +77,23 @@ def boundingBoxSizes(positions): # # ############################################ -print('Generate ATM RBFE OpenMM System') +print('Generate ATM OpenMM System') today = datetime.today() print('\nDate and time at start: ', today.strftime('%c')) whatItDoes = """ -Produces an .xml file with the OpenMM's system for ATM relative binding -free energy calcuations. +Produces an .xml file with the OpenMM's system for ATM binding +free energy calcuations: absolute, relative, or swapping. The user supplies a pdb file that contains protein, cofactors, ligands, water, ions, probably prepared by a different software package (Maestro, OpenEye). Cofactors and ligands have to be described in an -sdf file. Then force fields are assigned to all components +sdf file. Then force fields are assigned to all components. Emilio Gallicchio 5/2023 adapted from simProteinLigandWater.py script by Bill Swope 11/2021 +modified by Solmaz Azimi 6/2024 """ ##################################################### @@ -117,6 +119,8 @@ def boundingBoxSizes(positions): help='Name of the PDB file where to output to system') # Optional input +parser.add_argument('--receptor2inFile', required=False, type=str, default=None, + help='PDB file of second receptor') parser.add_argument('--LIG2SDFinFile', required=False, type=str, default=None, help='SDF file of second ligand') parser.add_argument('--cofactorsSDFFile', required=False, type=str, default=None, @@ -147,11 +151,15 @@ def boundingBoxSizes(positions): args = vars(parser.parse_args()) -#catch abfe or rbfe +#catch abfe or rbfe or lsfe rbfe = False if args['LIG2SDFinFile'] is not None: rbfe = True - + +lsfe = False +if args['receptor2inFile'] is not None: + lsfe = True + # Pull data from command line into local variables receptorfile = args['receptorinFile'] lig1sdffile = args['LIG1SDFinFile'] @@ -163,6 +171,9 @@ def boundingBoxSizes(positions): if rbfe: lig2sdffile = args['LIG2SDFinFile'] + +if lsfe: + receptor2file = args['receptor2inFile'] #cofactors cofsdffile = args['cofactorsSDFFile'] @@ -190,6 +201,8 @@ def boundingBoxSizes(positions): print('\nUser-supplied input parameters') print('Receptor file name: ', receptorfile) +if lsfe: + print('Receptor2 file name: ', receptor2file) print('Protein force field: ', proteinforcefield) print('Solvent/ion force field ', solventforcefield ) print('Ligand force field: ', ligandforcefield) @@ -222,7 +235,7 @@ def boundingBoxSizes(positions): ############################################ # # -# READ AND CHARACTERIZE RECEPTOR # +# READ AND CHARACTERIZE RECEPTORS # # # ############################################ @@ -251,9 +264,32 @@ def boundingBoxSizes(positions): nrcpt = rcpt_ommtopology.getNumAtoms() print('Number of atoms in receptor:', nrcpt) -print('Call Modeller: include receptor') +print('Call Modeller: include receptor first') modeller = Modeller(rcpt_ommtopology, rcpt_positions) +if lsfe: + rcpt2pext = os.path.splitext(receptor2file)[1] + rcpt2_ommtopology = None + rcpt2_positions = None + if rcpt2pext == '.pdb': + print('Read second receptor:') + pdbrcpt2 = PDBFile(receptor2file) + rcpt2_positions = pdbrcpt2.positions + rcpt2_ommtopology = pdbrcpt2.topology + else: + print("Error: Unrecognized receptor file name: %s" % receptor2file) + + nrcpt2 = rcpt2_ommtopology.getNumAtoms() + print('Number of atoms in receptor2:', nrcpt2) + + # displace receptor + for i in range(nrcpt2): + rcpt2_positions[i] += displacement + + print('Call Modeller: include second receptor') + modeller.add(rcpt2_ommtopology, rcpt2_positions) + + print("Calculating receptor bounding box:") bbox = boundingBoxSizes(rcpt_positions) bboxsizes = [ bbox[i][1]-bbox[i][0] for i in range(3) ] @@ -337,6 +373,8 @@ def boundingBoxSizes(positions): print('Call Modeller: include ligand 2') modeller.add(lig2_ommtopology, lig2_positions) lig2atom_indexes = [ i for i in range(nrcpt+nlig1,nrcpt+nlig1+nlig2)] + print("Indexes of ligand 2 (starting from 0):", lig2atom_indexes) + print("Calculating system bounding box:") if not rbfe: @@ -344,7 +382,7 @@ def boundingBoxSizes(positions): else: bbox = boundingBoxSizes(rcpt_positions + lig1_positions + lig2_positions) bboxsizes = [ bbox[i][1]-bbox[i][0] for i in range(3) ] -padding = 2. * 1.0*nanometer +padding = 5. * 1.0*nanometer xBoxvec = Vec3((bboxsizes[0]+padding)/nanometer, 0., 0.)*nanometer yBoxvec = Vec3(0.0, (bboxsizes[1]+padding)/nanometer, 0.)*nanometer zBoxvec = Vec3(0.0, 0.0, (bboxsizes[2]+padding)/nanometer)*nanometer From b6d7d562436ef7e9d9dba3576bb4523182c2b728 Mon Sep 17 00:00:00 2001 From: Solmaz Azimi Date: Thu, 6 Feb 2025 16:52:31 -0700 Subject: [PATCH 2/8] Fixed print of atom indices of ligand 1 and ligand 2 --- make_atm_system_from_rcpt_lig.py | 2 +- 1 file changed, 1 insertion(+), 1 deletion(-) diff --git a/make_atm_system_from_rcpt_lig.py b/make_atm_system_from_rcpt_lig.py index 56815c5..dafe944 100644 --- a/make_atm_system_from_rcpt_lig.py +++ b/make_atm_system_from_rcpt_lig.py @@ -372,7 +372,7 @@ def boundingBoxSizes(positions): lig2_positions[i] += displacement print('Call Modeller: include ligand 2') modeller.add(lig2_ommtopology, lig2_positions) - lig2atom_indexes = [ i for i in range(nrcpt+nlig1,nrcpt+nlig1+nlig2)] + lig2atom_indexes = [ i for i in range(nrcpt+nrcpt2+nlig1,nrcpt+nrcpt2+nlig1+nlig2)] print("Indexes of ligand 2 (starting from 0):", lig2atom_indexes) From 74f69c82e6619eb047e56aeaab12bcac16289a86 Mon Sep 17 00:00:00 2001 From: solmazimi Date: Fri, 4 Apr 2025 17:29:30 -0400 Subject: [PATCH 3/8] created swapping calculation of TYK2-JAK2 in examples/ --- __pycache__/async_re.cpython-310.pyc | Bin 0 -> 13869 bytes __pycache__/async_re.cpython-311.pyc | Bin 0 -> 28894 bytes __pycache__/gibbs_sampling.cpython-310.pyc | Bin 0 -> 4134 bytes __pycache__/gibbs_sampling.cpython-311.pyc | Bin 0 -> 5966 bytes .../local_openmm_transport.cpython-310.pyc | Bin 0 -> 7418 bytes .../local_openmm_transport.cpython-311.pyc | Bin 0 -> 14366 bytes __pycache__/ommreplica.cpython-310.pyc | Bin 0 -> 9175 bytes __pycache__/ommreplica.cpython-311.pyc | Bin 0 -> 21110 bytes __pycache__/ommsystem.cpython-310.pyc | Bin 0 -> 27246 bytes __pycache__/ommsystem.cpython-311.pyc | Bin 0 -> 64929 bytes __pycache__/ommworker.cpython-310.pyc | Bin 0 -> 11285 bytes __pycache__/ommworker.cpython-311.pyc | Bin 0 -> 28464 bytes __pycache__/openmm_async_re.cpython-310.pyc | Bin 0 -> 12720 bytes __pycache__/openmm_async_re.cpython-311.pyc | Bin 0 -> 26230 bytes __pycache__/transport.cpython-310.pyc | Bin 0 -> 743 bytes __pycache__/transport.cpython-311.pyc | Bin 0 -> 1070 bytes examples/RSFE/TYK2-JAK2/ligands/c23.sdf | 95 + examples/RSFE/TYK2-JAK2/ligands/c46.sdf | 95 + examples/RSFE/TYK2-JAK2/ligands/ffdb.json | 12 + examples/RSFE/TYK2-JAK2/receptor/JAK2.pdb | 4858 +++++++++++++++++ examples/RSFE/TYK2-JAK2/receptor/TYK2.pdb | 4664 ++++++++++++++++ examples/RSFE/TYK2-JAK2/scripts/analyze.sh | 40 + .../TYK2-JAK2/scripts/asyncre_template.cntl | 50 + .../create_cntlfile_from_template_rbfe.py | 115 + .../scripts/free_energies_template.sh | 5 + examples/RSFE/TYK2-JAK2/scripts/nodefile | 1 + .../RSFE/TYK2-JAK2/scripts/prep_template.sh | 18 + .../RSFE/TYK2-JAK2/scripts/run_template.sh | 23 + examples/RSFE/TYK2-JAK2/scripts/setup-atm.sh | 89 + .../RSFE/TYK2-JAK2/scripts/setup-settings.sh | 25 + .../RSFE/TYK2-JAK2/scripts/uwham_analysis.R | 289 + make_atm_system_from_rcpt_lig.py | 30 +- utils/__pycache__/AtomUtils.cpython-310.pyc | Bin 0 -> 29383 bytes utils/__pycache__/AtomUtils.cpython-311.pyc | Bin 0 -> 51937 bytes utils/__pycache__/__init__.cpython-310.pyc | Bin 0 -> 185 bytes utils/__pycache__/__init__.cpython-311.pyc | Bin 0 -> 201 bytes 36 files changed, 10406 insertions(+), 3 deletions(-) create mode 100644 __pycache__/async_re.cpython-310.pyc create mode 100644 __pycache__/async_re.cpython-311.pyc create mode 100644 __pycache__/gibbs_sampling.cpython-310.pyc create mode 100644 __pycache__/gibbs_sampling.cpython-311.pyc create mode 100644 __pycache__/local_openmm_transport.cpython-310.pyc create mode 100644 __pycache__/local_openmm_transport.cpython-311.pyc create mode 100644 __pycache__/ommreplica.cpython-310.pyc create mode 100644 __pycache__/ommreplica.cpython-311.pyc create mode 100644 __pycache__/ommsystem.cpython-310.pyc create mode 100644 __pycache__/ommsystem.cpython-311.pyc create mode 100644 __pycache__/ommworker.cpython-310.pyc create mode 100644 __pycache__/ommworker.cpython-311.pyc create mode 100644 __pycache__/openmm_async_re.cpython-310.pyc create mode 100644 __pycache__/openmm_async_re.cpython-311.pyc create mode 100644 __pycache__/transport.cpython-310.pyc create mode 100644 __pycache__/transport.cpython-311.pyc create mode 100644 examples/RSFE/TYK2-JAK2/ligands/c23.sdf create mode 100644 examples/RSFE/TYK2-JAK2/ligands/c46.sdf create mode 100644 examples/RSFE/TYK2-JAK2/ligands/ffdb.json create mode 100644 examples/RSFE/TYK2-JAK2/receptor/JAK2.pdb create mode 100644 examples/RSFE/TYK2-JAK2/receptor/TYK2.pdb create mode 100755 examples/RSFE/TYK2-JAK2/scripts/analyze.sh create mode 100644 examples/RSFE/TYK2-JAK2/scripts/asyncre_template.cntl create mode 100644 examples/RSFE/TYK2-JAK2/scripts/create_cntlfile_from_template_rbfe.py create mode 100644 examples/RSFE/TYK2-JAK2/scripts/free_energies_template.sh create mode 100644 examples/RSFE/TYK2-JAK2/scripts/nodefile create mode 100644 examples/RSFE/TYK2-JAK2/scripts/prep_template.sh create mode 100644 examples/RSFE/TYK2-JAK2/scripts/run_template.sh create mode 100644 examples/RSFE/TYK2-JAK2/scripts/setup-atm.sh create mode 100644 examples/RSFE/TYK2-JAK2/scripts/setup-settings.sh create mode 100644 examples/RSFE/TYK2-JAK2/scripts/uwham_analysis.R create mode 100644 utils/__pycache__/AtomUtils.cpython-310.pyc create mode 100644 utils/__pycache__/AtomUtils.cpython-311.pyc create mode 100644 utils/__pycache__/__init__.cpython-310.pyc create mode 100644 utils/__pycache__/__init__.cpython-311.pyc diff --git a/__pycache__/async_re.cpython-310.pyc b/__pycache__/async_re.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..341a06dac3334ffa24051d0597980076afb4db91 GIT binary patch literal 13869 zcma)D+jAV*S?}BQ^jtI=OR_B6Yj3Z2z4ipJoGiJmy6ff|=-_Q?0LGj?HP_-2vQk9tB_nn^B z%vcVQs?Ys?zVm&*?>lGOV`F&@f8|R*+Bj9!wEv>W;Gc!aC4AxE!4aCL30)Wsy=i!c zPGJ*a(=$12H7w6Un$^g78TM_@W^mL{hXI$Kkwz)FL(v^i-|wxjUk?Cl$zt- zIJa##$}7~L-8hu^6Nx{`zSWrW4vVZeeN7XN$bG1ZTyW%(>CFghS*zr`kMk>=fxFh0 zf!l10P9t#J>+an0!`9l;!fQ9TgVv237u=e=E^E!;ep}vgqqZwMEw>h;$fj(!+MUpq z!FHp*R&#>~Yn!#!2HLAN);f(^RByLJ_kKOvbX8ON{9Gs6Y|HRMexX@!)Z6a0S_4(r zHW9oSaMJ8XnsjNSS*tf@*V@fD^Z6%OXsx2hrEOVnMgDrHwMOkD#S!&;^$_7IBDwi? zYrVd4b9D<5{S)2H=VxD^{nQ#&9{kH9atUAfzi30iNj(V{$X)M%)p-(N5wJtN5paQ0{j_qLY#zuRJphPr!ds{F*oi-xaTkS@7*Wte`eqDST{wv}$*!|DO z4sW9`gYIJ9#ov6R7KXINVGy~UZMW7E&+hhmy%D^&S_=c=E-eggHMh~7=tT8Kc)roz z*r>NQuzRibH504c|D&U0 ze)jJ9)_Qn8taaKc=@;1hDg3vh#|jKoh$rQ402(kH5;LRKck^Ez0gX!sHUU-Ta;wzS7d~9^+I? z)!Qwoe31c#*xlD}5u4%@wBG21n{Lf*24PqOcck+biFQZjMw>wkoUN>V)TopqeMQ3p~ z89(p8a$Z2X9D{QSUpNDYwxy`&@fmO(xW>=(R!Q%c_BV+dU870#|0ql!?+_7ogj4od zCw5-&{d<8V=I;BCbsoq_|8agJh~8CYZldnTwBMHAolHC2&mZcQ%B6hhEF#@8oO11o z_JO^l_jJW??pp6byf0&T^#4AGDs743&i*fge5sw*=<|f9x@RGKVs%-SaDfY}Q*W zgk5#c!I)eDGFpqkyFp4WcS8i%*`CFO%rKI?ofS)Mxrut9783rk*$g*E=W+z2c%SA% zn^x4Z%`@q$kMNeErKinKr&2~F!tm*+5pz!_AZc$ZW}Hm~Nu0wzDh4V~AxqAZL%c{i zOp6YpAK(jVbIXH7u+M&1$eZQ7?16P1*kTS5Lwh-(o+E`x4Crjz}Ci)|C?MR zLp36MH~SGrxMzR`m8x+$0cN3pUon=UP2h8a8BgN-m{xQHobiLP9UTKeBS%5&_-HX8 zk-ul$rA9&YKz}Wej2|lLqQCc8C&oge=CKhQv!9IhI|F+|+Y;w5HXzuDi@muVZg@&+Dj4-R zw^SGYT1SG>M)D$R$T!K^r!6L{Ic^FACz`ZzYA2q?FN`j(AGIO36#{?I2zx_!naTQLSO-OHm7!wM5?i$HAP!U{|<{RrvzkFs7sHe-^Q_^n5i8GSa zkT}=s?~(jG6}v{o%tp|XU#5`VUflvOjLZHA-Ss7&#Yl@;3=;&?0`cyz;R|1d2B9Z1OV5Cv)yCE+Tl4jk-db24-Eoa_luNNOaQBj<-VK%)(c(xbVx|KTFEMQ z{xaq(&yz!-Q<7AWhv39HU|@-_8CFaM04`Coes7fd6C?W_d|?UBlu-s!EP~i4bn9vN z@cs@AVB?|HC#FOQmskI9!5x#eO2iUkhA=u96n4W@ST8AowT9q={;*|niBnu6L%5LB z>^r7B&uLkTt9^u?qxq!6Sb~JcPY|M=aY)%jFITvHE@>ml+0k=gX*))@7ugU*`9}up zOxZnc#}b8|OwW@4(zAe6i+lQx-7|J`b=IVy_t>IvRNF1=L5TH?UIy%C?4ri$rIGaU zB)vS6eke(w7)hT@(x*n!4=3rk<5#u5`Cq5qI%7Pf8&UaxKESzT2rw0Kfgi?ABoR3Acl_`g%POv+k{$456NE z25?FBZzCwvwv-lFYmjk(w3Ki*&GMYfbIS|Wxf=`B?#X`8Z3Tf~Yr^V4FW%VOH!u4u zOLNubTQ`?hx-Sn!pHruJ{pS4Kb^qqAh3btP-I-47POE*t^>LWH#Z!J(sJ+3UBB+HEZ$h?o=b!7Sai zzPq?|vkHn@iL>u6EM302ybzlYgK*`lH@OVt(s>e9kHw->7O?^j$UOH2SvIZhKNt<{^102D%!cYZS<)xaV|}a zEz@aZ;`G{7Ma+tZ6jUC*U<*jfLFKU%vz%jD!4^SIS`M}8w8{V&`V&Jqx+IB zwzi8Am}LA4q2pnSqg8|wkrn_`PsViV&UC6WpB{}H}0f>Uxxp)Hx@<{^S@fTJ?PWDl@1$|hjx z7Uk+Q1OH`%0F$Fz9~VnD6iEVAwtmu>Fxi@5O(6|RvN>(qC{@ypufr4sV^9g=y*qUf zSw3?nNWQad|8oSOIYX(#2T8GIJ_5h@$wY5_s6`}`ZKduZl_WM)v=3(4CgAK*y=+h4 z$`L?^B-6~Q?P1`E$!bD7^269ZYL8f)BquRQukicC?17(ARUn1KRtH5^knJExB zy-e5@vrj$=K= zc0KK$P8Syx*V%@V>7WBIxpC^NdvYnc4md5`dD2r{1eQr@s|y4xG9#m=@s*VI33p+yFN ziSF8m`PrnO5yIvp#uNTe^v9fZ3N#2ReVR9>^eO#yP$IznzWK4gKtuaRW}ei-Fagm4 zA|T-o0gk;(!$Je-n~7lBMjBw`aR9YPDA95vBGIGJ_EcpY(asML5KT56w zqC6e59jE6AGR<2(eMXzoj%Yi%p0krzxxL&Sf^Lh*$MFN;I&{b4c=o$`xR|s+W`8#K z_m3LP#ecCljBKFOOh~QwqKOjMlSwBm_ulRuc+V z?jBYpcIZ-q(kE5=;JRV_pMUPkP2rAdWaX%Q(%Q({J%4rNKk#_fiV?W|O47n%8c%CF zUEK`wHj_L8w}~Q?q#Q{`U)Y^a)?##>0fKp*)x5Rc8HzKjo2h!`r3I4dbNtaK-m6%spE<$}mp`=r}fUB?3!O zy913yJkFjK}=@WU@#EjpwY_A1DCmqNq1^Mb_%AesyIcLo9aK9*Nulu-ba;CR2z=|0sOpzs-z;N0C)Bqn|+$}@{pOp zzudY5RI5T$xCw@MCG~Nz*~C)HWz>%I-qW_@zH@+Te}a_o`*4b88KSamIA+0CE-ts|B#=7_ivrC4>lr;6jN+F8`M}OaPGn0W;|y5M^QIK`*KW8}&;6 zPIZl^ENXbliDZKJ3U*n$Q}JVf#k)B6_`gy{tf-tbkhe7-vru%<<<>)xk zb)b-!sO|`m`y-@X$MIvtV!<>?OGG%?0%`^l|5>-3G8!_@g5HMaPMm?5;ygaSq)O+E zv8%f;oo}%QtmONL|2wGl9`#O`hk72sM}6{sraS7Ay8DAU}z~Ko3JF`?)ju6?(umJt>w6k62B+ z8ZcE3}o1g=Al!{nylg<2zQ z?5$SKq+Q3HB2QN zl58a~FksOj6-aEXK6C}N?2QX)_4~C5uQb+R4tr)eX_@YeeFa8oEiQW)Qlib|yN6GI zR=~J+`ZI7(e+C&8%8zJT-LWNgQ|7`BF7n;6{^h=k7EXuhO2qp8Y9%+K;K&=;SNS$M z<8bgOgpCmy7A&%Xq)LXR1a34i`AbxW?n?PhNv2KS=&>P57SORFer?&rFiT*L(9M70 zJT2jtJ`XLNboBuiIjAr_b94Hf^8`%9F9s}9tVRX_(YV^d^8&n7xr!k^Ov!%#3=b6; zqI*8>7(25jI+vhHXcyF^XpwSF>MvmmbH|7*ylB&p;HG2>17Za| z6WP3x*`7J0Ju+r+=Ytg7`7kSn3Mp4m7q64BZHdy#F_c#-EXQbT3j=YoP-O<<`JTE( zr01c9syDfO`!dYz%l_rtSFbKC`OAymLZX@d$6HC@f8JshO%gZ2vzvQ(vq>gwpX}%% z?)XG^8cGoHaTl6N2bTf$F1?Zy-4n@`?fI~?+JqheodqEjRMn=EyW>8IB#k8m!%{`T za%v2inXU^N`!m#+O^SX*4slUDV5vP&_M?!}m~b*8SnX^ut4+A6H<^q8TxfkAW_=ng zUPcYi$~#PIU5iHQCu656d)by6&Ld&tmd7+aY7@kMY@gVb z60v`#h6tT3lUaN`3__p^G%||N@s43$fn^NN6vnp=BJiFLTNN(s_!85=CAawv@GpSr zGe8zF!S3P(O^-rO4~RwJqYG=an;S_ra9s$9jZ4_zSF33`mj5AvMuja0ys z008j}N&vtHqBX_%)w5R!g?6*?&{Z2s7-lnQrfo2><9(Wm7nt1>*I79nVrIfkc$r}4 zSe3*W8Sq!~@-Gp_qZ!;g0K@asgdb6g35AYt5C(KpVt{eUSEE=`f(BxVqEC9;}XL;FpT zg!Y>xQ+NUG(aRN?gA2K%9!(-_@*5WmyA5MFvoY-c9Zen;=CZ2sGS?u+#!LziD*4(s z@iQN3yLiG&>}<#89xkXJdazqU=5y&@2COif)Ie!aP<4k!lIxL?9td|Q&u^$~k%hes z`4~w7SKql_9&HzT_M^;Bu~&qJ%#?pTT#sYLq?NJW*nTeLXnsHUBF%#b~9BAb_lF&O1tQFi(PUmS+trTR+!<7l=8VzcZoLl7l z1vzKn#1npEd|JL=+rCl5UEKo)72e71T3z0+hXLLji-7L)g4P;@7Mbm^Je6^E#-{qx zX7GKKH=z*XP}<@2wb4-WWPhCrl=KZPhnhT+!K6Zn0s1PPtcEmFWs8~Yk7=NItd_d& zWkNh)tHZ>DH*5;_gz~Rw;+(PNjir@IB~r|v)m`2h!jk_)+<+vcZ58Q`jg2dK#00DZ z(+i9?WQMU}YT-xM;1+qL(34e|SSau34m1b#Pq!k**UQepjoiQp`@8D*CqQ?z&jEbZ%4vE^PPh8LkH`1E`gIG!Mc=>MsWpp;>*Rcw9FmgqJLI_Jkn$kOV#WqX`KJ`xA?JtWki?KABqT9#N&Ci2G9bVB<;;vNN_e8Zc_w;U@hcgcsN=C69Ue zS0VKcc^H++o<*yU*LeJ^2CuY1>@7WsaUQ>xNKRp#Ls-45j;Hx?C~L)dguQ=hKMvb* zR8JmH;3Ufmjqo*c-XVup=b&Yaor{V{-UOMc=Y23OX34~;{>fNLA5dH0C}~*6l<|LT CZbuOS literal 0 HcmV?d00001 diff --git a/__pycache__/async_re.cpython-311.pyc b/__pycache__/async_re.cpython-311.pyc new file mode 100644 index 0000000000000000000000000000000000000000..ad0f7d6e1fc3533f14f03a7857ce4a7b682d5d0b GIT binary patch literal 28894 zcmd6QTW}j!mRRFSJQ@Tjf&||L--Jw350Vl^QKTq7WJ-KUByEprk70-nQjkD^Zh)2q zlU~iPQvXZ^CS$%kaLYHS! zs`<(}w}D1C0NV7UQriR%Zr^v`KIhzX&pG$v&ulge1()OO2g{Aq6!pLHCUY6mfiM0Y z1m2|>YJp-jj5erQ(Jp8;7}h~px1b|oeNexkhd6!EuwWqH#swq!E?Oue-=+l<`8F?@ z$+u;}LcXmFR`N}!zikUPxHklgSL_RRQnxYan8)^v!IJd%q4akt`PK)W3uR2vLb;YY zPcf!9D8}q}{ai;;AHlzLEmSc2Im%;+eQ24#>US@OS-*QF%&Z0d?(mX(cn(BA^+)J!)#eXBrUUx^sZgwr?_C+AeRW=+7uSMLfe>E6b^tt^v7q9w4%TS*$ zxVRSdMFZhb#C;ROhg&MvR` z0>Q4u@XDaY@)`ErqY;Z&*+3}jU0Mq*V*L2n` zzOLh4#}=i>mS9o(=8HiMzDYl|pnRcrSk4p!bTM{-6^sL5B~t>hia7+ZnkfZX!#DxfGGzekm~w#i zj0>QfsQ}o(R03>dssJ`I)c~8B8o;1h(L_+e%lcyz7B^fYL0=?-XcF;9-D|6EUx>-a zn596_-+9Fs@iXq(F%`OyI%0>`qJd!KNHDy-90)A~285OtW#olH!k2{iU;HZ=w09{p zk^>c_HgxN{1VrawjCNfUgBO}Rw4tIVN<%$Qg>*M{&r>%v>r_I1Ey`Mc4mTgk5gKY8 za(d+#7FD3iHGL*qLPn)b41TXu*W_~Q-b8Albwy3tQjAVns?c-n(}N7EXRCtHK6z!d zR%Tw;sQakCV>Fd=W*85d9HM1%^p`v@l(1&kkKj|23{8p`bCQuZYO~%{H#a=Ut9s|@?v&T8;*$jRbTX~ zX!PFoS&GU7wujt!VA2g2|~w;AYp!NcFLm{ z^$~w?iN!Z77KK;Ie83`0j3AL9xA^_DM?y=HBN1OLuoCEGj+|$G%$hIicaQi(Q9tV* zWy7mi!Z(l1g@Y@;n0pwr9l-%hPfn_Eh7)zI-V#k-Zy*$idcCm{IXV;7iaj_Cbbg!K z)9TG7DY~A^d{T79F5Qx(TM~f>9enE`PY((75Jx^w_Ou$z?TC*)dGh3uiGIuerkyuc z3Z_cVRQaf;J+6n~Lwm{QjkjKZ^Yv{;s5`>jj|%pqdz8jJkh0p}>VLDJD{sH=6g>TW zc|UJGEm%);*3*w&m3MFKy4sSiwm;W?T(sNXmu&Cbso~qlh4yjYbzX3t|2vJ~x)9fI z(hn;d63s$mH(${sRP;cM4SKR`sz{nDcvF>Ns^UylDU7L1nksoywP32|Ox1fvs@uO80^}xgSrm||f|Y&Me4gL0EPF28 z9+SfoH8A}|Wu^kGL~fnYso5p;tW@qcbxoEH)P0C(LYhs_J~is|YLuBSv@EmJ{FWI5 zupDFT_$8E{$fUd!T#HjqIR$gq$G*?|GA2K_*+U0q%CpW(dunG?XYhZb#wk*tQHu?yiVK#hw*zb~}5DjIQ4 z2PUBpgqFghE^;dZ423i+8c2^seKY_p$`A?q{i~vOWmUBMfcw4b2i_z#E$Xpf9xYn~ zjfq9+{znig-EJ0{I*Z&qR-7e#EN~X$B7Y9xHbn@gDru_XO*Mk4hBMUw!MtUA({{(c zX^-3CX45KB)V7N^H3+5#&eZVGWZksn(^)1bS2@I+&I+cpoayYIR%b4MNINz!Y`t=4 zYI7<+^{})|C~e_O+l10KUho#6R>4WIm+L)y<>aZe%HPQe|x%2(vv-XhVc{DFLA@VM(StUHl0c^%^4R) z6IHyrTuz089Ehy@h@9(r+=GY>+UeMlc|W@n2$A)bTbg`9T5vN!ii=SYsev5bqmt$-%ng)DkEM-Y_X2?GBZFI5is|rPNcv9M+{v*HudD(!XJX z@^bqHOBhtG8^2ZSMXJ_Kq;-5{BLakWmE=*eo?uud0V@QYiwYGpmGTTF?%DDFs^y-Lk&)wD4Bn#6SZAOMa^}I z&Eq?AyKfUJ{=H=&2ulH+rUzr4Sz`7AmH47jHgIJv>i2rP27+PG*hB^)kjcJ?{T~4E z1h^%oah}yE;dVpHRekrh#Id`tbFC)?*U6pkq-&6K4esfvvhoxO!X2R*u^9X5|B9hH zp&Y8RgAEl7PdUzbqMfu5V7!ZKEQlsi_B_;yN(Qu`o&R#XWf8jdUgyV*l_?LzukfvL>|xvO!)3bH3-#3P|6^qs&x+TQ5gWJ zRZ(-#ni#%U%(a~qD*ARtk`+T-#gH7G_yeKhU*S^ z&k0ZcZHBYj&T1anO1QF?q^*Usk$Ol*1xVF42(`ySCUy2;;T|lD$+jL+vO8((=4{=2 z#tb24NlM*1q<@ao_S-bc*#<#1P<)6hJC?K^<7~(FjD??pv=0m(Qw#Qf>-nUujmv{NYU6K3QAR*2dY|zU2t*+s5P4%H7h#$+$^$ME)0TalfS3$IofR0+#s7nGJSwa8XTDSLq0wU7trC~~Pq4Nx+Fb?;Cy zO!zof@D0l6=@XznSzs!xj8;E4to0gRgz?$XY~Zs<4+3zX(KLYKT&uQ4X{gOc#t8FI zQLHVkoj{9Hn2n+>3iJ@}0O}*%t3F(;fKo8h6{}L4s5;!~l07;Qg01)*Ol1c4$84#XK8qk7#$1EuBgm$Yh7_nVNXT#hkbCw*nn zhEurLMap&xu?w(KQC^w&l)0gHGA>(M_U!{at4ZC{FL@@jI_H5{PEPF`8Z#_#HngAw zRajdI~Bh>A#Yu63g@{DZ&^5xWDoK64M_1g>7@AwYuFDX#} zq3^K%(gO86zr*^=3e;cz9oFx{`g7j7D_cKPk=8)$&$%kq_yhE2V2WcvH-PcF!a4{w z{%z=yG9LU0ax1hKGJ57W!XDz4^4S?hSTI@=OV;~+w1ofv?3$@W$l zBg!kAM1W&CGUXDoZ8Z~v-%K@AlQ^V|$%L8OH(?4xY z<)l zx9RJejCJb%0CpEKP?xHeOriarsYP7}l&;AXfnH^T`;~6ZD_xr@a)8n~hC^su_CPp5 z>9)MKWv>QC3*vKoY?V0Apjmwc&G;ZY`=TI9zp@r!!77lIpWQxi_lm6g7XwQHKhx#D z!B++zkcy4TZcxr4qR+kC7Lw-L)JbFjEq4156TV1pToD-&J zM#sh{CdXoRnb1BpYFOfQ@q0}NXbr-Q-%H#e8sH_0)<`fM^@i3~uK3x{P}~xWqgPqK zkBMX=krqY0k6pa_847-)c`f2+Ne!Q&*d|({E34k6aF7A}CKc<*-oXmSjjf@lM&XXd zYM%-Du0Sf7Rngr8Y_i!B=|v4Jf}k{1L)I)YZHK$CDhH7&t#r1a8BVEQ2A!!Da7DwS z3hqPDEwdM}=bDhpd`c9h?b&5a)+?ltuJ~`Eh6vKZZHgQ4razZ1?_Az_?UR?}7_xK_ z&Cd-_PI~7jrp96&a?srl;{ygQc)p0I@c4*_#-_pBWXwA@{p`f-%rs!!yjb+?*zCEP zxiL|9%O9B^7wr>MmnJ7hCg$g6CZEL&j!UyMqtA@YPs~hv=jO*Q&56aAW~b-9TaDJ~p^lAXSE>}>?jW#RM5DecypBu3EUV(Ws)o>J4{!#yGgsgJKA`CD4Ry`)NycJCud`;5{G1qIB zL_K+6Bc=uzu;xRjCPqaa^otlpk@?^ySrKt6ia876Q5;eteLzKEUT}bC%01g|g(q3z zxqq0i=oKn@(NhI9Ynx{{s~gs)Z(Vrv0_Qr((|rQn$I*SDvTAOB|IBVvPqL}!ftPO@ z6Pm`*`^F801Zxv#eM&Ahz|&_0`V2>(c|_6@uP3d&oV8cZaO}aT&@;)qCV6^Fpr<%` z>Jf33DOTj?A-}zJb7R-;PTJjxD&F29*gH6TPs-tZ*Yb{qt3J&;1_Z|d=NLfS$i}X# zJ?Uz{U&Xt61XoY|X>c^MIrc16MOA!aPg`zledw&%u1IwA&Nji>wxvmxmA||2&cfR- z-hFXPpQ@|^Yjkdj8Y};nW4b_oC2yacg3GNpQ9#uJg|04^Q^*ocOfilT*JM`sEOR zdQvz&$)B7OPEKVqt? zgYlhXe>w42Gk-C|_lyZWWBk!^;plj#swLjpd9Y5MIJMLIX~`#^Umf}75x)PT(0`FX zF)5sw%+wU*o!yUI?nJo&qgf-kPV6)$T?3qJ0PF!jvHaM=HC^T_W`&Abu3|RjtlIXy zeG$f}x(0{ry@7iJTcdl`l&hMIY< z#s$YX=NNy~(6Xh!Tf7B-;O_Of)}5$)@1=V$#YZ=%Q}ylfQGu>|lvSH>wMQQ`|CQ%2 zJZX;i46;6cz$*Ye{<3iVWuEp4w2z~G;DJ?Hx6RyJ*{wU0tUL0+%GV7Dbpw3G8KL4# zLBt>9>2ZM`=jic069s6vvRhoAEUxF=J$!MmP}~bXrNu6yL(UhxTI2~6=JK^w@SiIrbv=f9B4+>)1HEe!4fHZh z9X$rN>5k4%bt%tbP~TRd!j}L!iu92)Qg3 zLKvdgRvBm-+Xok9nrPG0J`fq(T~VeTq~o;QL4+VOa0)lD%vk;}$QKy~4gj7$m7VvQ zk5_i)g)^79*=L2>CBAZ5s9Yx8QJ)>nhrRtfJ)aEny%&Vu3ox26hF}2$2sSu?klp&o zRV}!l+M{&lWvv9`=Tm({yL}T$(CYVH6#6a#XS}#wbk8c#%?U40_on)Xcl)Q3{ZoAZ zjL<)$Nak8j@bpQAN}j7d^Qr4M)qltQ$LrjJPgw8^(@Wg)tHSgR?$*X{;k9YTpjB#I zJEeuYaqVUNifLvsa!$)gcYeGZ)+}j1r>HstZOfPf5E5hv280~fVd5>RawZ0UV)*16 z1CT%n*Ifb*`9u1Lwr^q(0D}7Jg?P?V`gTiHR-A+KK<1G|0hHz4+8Fdp&85|M8=6p? zvZk-!lid2ykt+r(ivvAXj*;TFjxlU#p-1ZZ1_oKW_EBi%)RNO9P|ba%n!~6r1N|u4 z(0%QGp;!9s{8N$>9d=;SSQq8(8y3=EKtnLy9(qxkSwVh3uj)n5Rq52b=`tE zyRMh8h`j)H$m@fBXr@F>Yvi5E#sFoj`K@hO4p9H0{QCb9@}ts!Z2Tz0MOe2A4-R0y z%kU6ZhaBV=4d0+VS?RLX2Y9>A+_xK=I|#>urz4UV+jxLBz%ZKS%7ys*0qQ8v?I)DU za%S1Q^`-d!9j_IEuN=TM_BH5{O2~$@FMAHMMsY zLZW5l`H{&nWy;`L(KIz7WhU!X(LVC@*vQ38Gq9tRWMpqcNfw=!#zpJY@b|oP!=PLr zn^P@_afT%eVl){1i8j3?b`xy|#N=OU&cjg1PVp_^&y~^ z$VF)630YG&UBET93{&k#U`^fHx!ZCg2@ABAKB1*=r-X0m- zA}MxyI2gJ`v80LFA)3%fNwY0r__VpHjRTV!&FB%4EEt;yPp0eY?bv4 z2%dqR%e-gsQ#;>2!_9k>?OtVmDJ%_k8|qBl z73-XphdvTmNgr6@Mth6AwUNPBfVQcKCssNgW>>%t3Z8(O-B(?nN@74_e*ohl>R`7c z_#}tdzy|ckI7&Yvv0%ete~Py)2wD*wMu3VD(FQMl8f|*R*gN(EOh76TEkPd~ad8!K zRkUA{OoDK8dCkA(XOZ2ARwg`_-bD}*ZQdK`pP1PpVp}>IZleL#vo-Ap4!%dkccy1}yPE3LX6Qu}RLRn}ZOiH3vDkR+$ z`{9(3<*OMQ6)m9X0m~Yx-30bBDddE6BS0sFhHGWD=`9^35Bo21bp8@R1m!L;Gs)N4 zv&7;A+vOEBuJFWEM*knIU;}2YCrIZ;s>Xfq%x-l@vbuxo9OA3b3e~WOvw~QkB;`0) zdxWyIYu zk3Oj3>j#DULB4WGs2qx40Na$TyI2j)b{hP(}L@C{Aoo=uC_~3^>fyfsk-*~Onl~XT~lK8{i)sN-ehwxcj7$X{It;g zG+#F%)J;IDt7^L^J6dP>>OrA;karCUuAw;nu)K1+IZwgQm!B2N&&I8(s@BA7eARK- zUt3uhFIJ52_V;<~Q-bv=9Nwy0g=NIX*9{7F8AHLvhqbsn5pbhx>OmpEULZwT^^6~VE>IaVIS&YtJre&Oy5 zaZ9SSHlf8);d(~-=26}~#+Q!8O{sbh>>Pd!#t`${*1Oj2t4T*I??7|X-QrzGN7B*3 zJGul%*MpLz<2dg)o^m#RuA@r2A6M7kJN4e_d#B@*U_aWWYm;;>PuC0N2m;Xh<;T1= z^X3ds*9vqkN7ok2ky8fkQq#Ni;UsI2t)e zBWb%XN!RhTTcF(>jmFuWwjl=FZc5TkJl!JDEgaqQ$X?CW9p~-GA9$1YQO-W98u}jI z(JMH5IY%#Pu`%grg|qnUFwr`o`>)U3#!aPbb0;P7w`4-k{XDcfXgdHWH;euT3R zJgkEg65j9JZR}1qc0ZWn8_x-i=lHr2p>AZ$`mmuH9!{QU^24cny(Ws81okWCM|7aC&~M7u>Xo(!T%l@G@P)dK{+z=5=hr@pMR-kNwC;x zH#AYyKBq5O7s$3f^_l@JZq;PBf}DF@wKFbjZDRCkcQ!a3YD2SGqukn>-6z51yM}9i z@ghp+L_#-CkIzd6patlfWEL_?Grig@B8df0L8kO31JR6f3?8w-NVX#EFwA+9cg3&a zCgzZ(TioykGx;RSRX>Cz*k|CZjGI%3s`n_PxvBu6R@B5N9+n|TALPpp3uT94&ycN^ z0B}fvEd!^wU%5NTH69mAyB|c7rTtuKf6CpmHSt7sw!xl_Dy<=H6ax8H0(>j@AYXI= zKnpCBicNN1AZc8Qbd7-T@q_*H8zja%1 z_zyZarKL%Q9HorD0&TJabSnSBWb^wfWcH9vgOt2|98xI;)!-mhN*9*c&?(jB>pI4) zR(GN=cVVCJ+=C)Ob+FG)h&&>(fc@DT`$Trpd=6Iy#2fQm+EtUh)UN1FIOheHGVle< z4m>I(v)c;IuyCkfdhZn+&vp$A&~kkf(YA;i4&OsZMR0Wl?=!MR3w#!rS#(+iPd>mL zSR~;p>dGxQ1MY0g{c`aezUbmr_agYE=5-Bw)yrV`-1sW~E*8ZrB6HSYo!!F*eezwIw2tgs8bO?J?&Vso59cRkF_^K&>&H zr$xN}3}l_f-hn8OL0UBF;P?q?KNucFL5|}xgz+na_y8TvaBO^A3Sv^)v;9C2k^cng zuq2@=`?0w0VF~P`y!$#|(kheyQ`VbL5)dCw(RR++0S;r3oZf?fQgHR9Kwy0#QF8Ys zuDM4j>y>X4GeTLf$_M#*W#tkWx?Jet@)~ylVR3VruaLpve+_7!i;^a@_4DvJ#kB4+m zm_HCm9((;TeWs5djrvN*2w2`;S%cGm;AFCK7*_?yRmI4RDPQn!NIJb33a{=lt#6{xFb-{LN4Z1?oT1VS`KsNziHCLV9p zPIO8T@(}kb*s_bRL=uJ@1CdeCg94kl>WhrXGII;I2g)uM4^I(Y64DZ`@Arn6GKinq z(M#0Jmgv<$L~>11Z|(his4G?{OL_%6|3^p(k0B$7nuHs>gfh?lBSKj}C=ozmb9(EB zU-AvqH%kvIu&6CN15{ad=22dogdA}-n0Ssibqc0VF7wG3`;ey-f;pU<*Qd)eR<WSZY5veO2$F}&wtU+~Z+G48iWebc9N41_=3z}*yM+o-uC5#Q zbvs)Q3*A3ZJ5(;PjmN;$I={bZe|Ck1+vqbF5KJr9__4D$4dK#y?rh$`vC zP7zO^73i}ZeKut;j~C}l8aTHT#?}r2HDgoF?g~i*rM2|jcOKE;e*jR4v?bCkqnLR6Eb!YNWjY+!$} zpDqn}fGoUxoWr}+oOoTM@?6Z>Fs$Yuz?nhEwyygp3Xul%bRoh~ab6);;pH-Ld==ka zS1kS+MOf|CPweqBch0nc-v_Ks#eZP~w}COFx9d8H`at&AQT3+?#k0*7Jdc%}$!dyC z$tz!!?Sb1Ug?m^}BXg2udg(BAkoUtY!CP*L1K{HRs((eUgK$SU15^j6I>%}!i4jpH zNipuUAjJ^LY??@AL_g`Vu)l@Q!O3#4^9@vvBXGn1UyRX#;g9TLQ`j(3`Vx!1QZHtu zH3Y0UYDhF;Sipp&R8f!5z}~|8(7sM2w+OyfvN%rbGygT*D-LIrie3QD_c7xBe}hz5 z8=GMF%5LRT$;zkr%1)uO6AejVP)k~CIcqJP0<_&MR2_LR4||`u(n-E_QYf8_k3M#k zZcTsCorwPQ)cdD+N2lQEgylzB<#xmN@OIPP=Rt32J52!SJ*CYplG^<2rwyOZ|K!fK`%jo9ReW_OUMJCovU-28nt2}{4 zb;L0;EOPxE;792&5x5lYi&;0*oLq)GRN?*c`75doBlK3T{~+VIp5w?2Ckz~*PwNIE zFcuvoFSx8~fZ2VzVTQiRENR`WSbHgSl^YgvA}E~iiKTKz!m4!IS~ss-U<9o21R%D3 zB#Ukv^g0cWTLc%_HxAaODi^&^&ur^9RX)`dkd?1Rm9DA>(;*dzUAp$c>LPe5a6B&L zK6aqe^tz>R>CImsJL;<5J{VfY2k+01SqSGcJZ^1Ax($lbAHPl(r5^$;vX(;!vf z0$xDipK&_zs!-j<9Rc5r;cPMq5ylyFr6(X9h>-tAdb(_3rae|xmck|9n^|azeFg#Q ztXT90A%-{ckT>l$G|2W6HRHR zPs;4liweMwbT}e40KPeJN~)v;iLj`Tl@hLrHn}h=?<2_LUY6$P43zAS{{|8iySf#x z_pk9)8bL0?S4o^(K(N=C2h-vx zt|F}N#IdBcnX@*hN}XHB&~=5>ctyQbnBXpEx7R*~6;0s1>-Vn1G6qgpuWh(D@!rLI z7vUEgU`O?Cd1tb`lj}N{>N*Rm57#*~=mU&f<+=|mdb|CCteJdRUUfI{_Vv5hx#nKJ zyfj5mIRkzM)kENBP(1`4 zsUC`7d|ZZmt9w&DPp5i@;PZKru6!7Ji7<})e;wu9FCnBp8$Dv_u_`jg+0E&S&9toN*3 z>nXnC)Hl-p=Pi-ge?Ux=erpPpbzS@D?|uhZm(}`Dds^_vKk!@+uNQtW#Vh@;6@+Q8 z_mwqYFr8B5^)lf_ua`Xwjfh74i6J-<-GXKt=_jOE+z-K`qZzx2S&Endi)FEP%mqd9 z02Xp$gmh+LGu~DqKv{}?89_M$^ulNFBlynr1!TZNQKKYBGe?GL+$3HbHJT=OVFYt9Q2z4*;`WFTLi=6(&J$;1%2u}t* zw86PY$)HYS04D<(7!8IJSkPxcvDQ$5ji-T0W9Y%mX<)21oYZBzKTZ zcjP^z>nXftMDeAy=o*U%i4q;FM?jFb4MT?kh{n~x;&sp)8DYmRtR6-EauD19>N4mr;I^r#{gFXKkjZJ<$wd>E{^4a&n?L zF_^+{H)Ib^v4fXwG>|^v2BuE71AEwwz>9z&G47C-9upD!_oe}ff(O|acwG2Ukq&^s zI5nC*y-}lwg&TlkO4G_wEy_=ds^`?76lK0m{!*0XHu+0Y*4yMSMcHnXzZ6x<75XSL z)NxdSkDTF=x>4xEBdUhWd>&C1T;`LaTwLapqMEtPN0q<0?6!4J|7?*4@U$?Dzxp{z L`RzXGWHkRDkh1l< literal 0 HcmV?d00001 diff --git a/__pycache__/gibbs_sampling.cpython-310.pyc b/__pycache__/gibbs_sampling.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..5b07b3cc2abe456d0cc37828449162e6bf9dfcb1 GIT binary patch literal 4134 zcmb_fOLH5?5#9$L3-GB}*2^k+OvMs60zoUTRHYP(wk#!%4q{xA?35wVs0DTi474xJ zEcnWzDk(ZuIpjykhaB>k_L`G!Ij53hzMfrxppx7Ia%X2}dV0Ehy1(v;mzJ6aeygAV zW$!4(SAt4d?Nq~Brxw;b_0Z`! zVWZQ~bJd_3E_4=kzZNWnOPwX%uLsNFN@qp)onW=I>Nou6_eSS}zu+(8{Ud+LU&i}A zf5l(L`=akWGu#Wum%kLfo?^-ilR!iRCgX7`BCg&-Ov5$vz08S#Rtg4D?{FV&qN5w|>B!Z$p#H@lU@ZNg4KId%;)@ zna4t|lsDikjhRY)Xr^b=A&(e86lwdoNiV3~Znxjk-aDj|))?v>sk~M!%d47WULkU5 zP%jz()sXLD)jwWtMtf>gdB-9Y8~)~(((}h&%GpC6rChQ{GERE&;pVeA2)$$WfXFr< zJddAj{3hYilPBl;13HiH^gP+VjMuAv1-7jo zZ$IVfSVl0ZFH~Q0=mu-{(6E3>}A&aW*WySwI&Hm_^vR{N9O?C0iz9w?fNSeiGs20ViI$!$6aMHaAr zf5|vrEB5Dpw{W}mRuK2SKy9~Y3uJNNc3$rmPAY4}u@VTCx|O_MEL6EEZO}={P8^7?VcU@Xc2h z`6#vF8kMZE0EfW$7a0tm)r!Zpynn(tO@`m>;3Wq@^gXsVTBCU4hy9@!A+`=gI%Ei` z(h+84VvY4Y#eEh>nh}va;VD8PhJ{&Q3WNp_;9gTtf3+^QHnvADyU#)q{qAlHJ0$BH z{f9Y}bSVxhE!a$%$(V12+{D#v}G5G(k2@>RUgU`P>xyO$Pp908S%y#NAw zNg`vfUlOY&y734n)RbVXiO!pF;*>P*l{R?W??^G0+ws>w&W zIVx6+a?2mT8&%f{H4cR0-EihGGerCV`>HiG&T0kWRfgHWF4da|wWe7)b*xphVpgn* zCGUXjT-dG9Iy^e;Zo$W=VV9Z|Xp>s`uBTRN(+I-OKCyw6AHK9F&ZIG!23$i2T=Rbf z9F2nl!B@|mE#vh?gj$_KZL;8-lSSW}Ecs?yr5$|pit&LlSuXa&PPZlwc10*tuxcRq zCUYiBuODX%G^)eb%a#EE;2b&V>G6vQUmD34>3!7zo-e+Bd|cDtOIyZojcBD}q_v|z znm}0O(YkMEOP3&%X?$x$<^cdGb<)O6^V$gj=>#xB+10y&^VXj6e***&`3NmENZK=h z-IH-Rb=o4&%wa|f_fyE%@cht26dbnL^AbLuccntuc|kJts0$2vakn*v5UJc<#w7db zJ}V*^vg^Ay^QRHi7cX~YlaXWM5=+-IM#aTK74nQiQgy**SEh;@%C>=Ez+O3DCZ>cC61 zj5A9>%gyy@V%#5=P^&2bRDqE!Z?v3uu6<5VTki)Fu!=qo0S37E>+Y4@pO= zLqN@Kj)crICpJmiW`@{C;&sr{c#_;BZ*VEhwy@e8&bU-0JitEAXA-Zsfb64 zhdr1C90oCoq21}c49H#oAsKL7!>=G6#=2hgrVy!3>bBVzWir!Sd%bucsgJXvx6ex# zEL16y)5yI;iAlH{FDO@u;&bHg{E*T|51d9Psd&Qfd|D{U;*F64R+KHA0tsjU#a#l-!)Efjbp1@&6m`8|cWfp98~ zaaLq-l0ifXYHTgin)bvpOxM`gFTC9sVz=DqG0unf@q(6KSJsX*19*MhDik{y3Z%a2 z@fJ}>NmTfVMQlnbTW_Yuy^;kN8<)PpNKef_A~`>9ov2 z{j#n}y5hF0_bOF}1NF4ks2(VmY9Y#$`S;J>p5k}>v?$~y?~c~pdx&GCW;l)X$U(W3 zvAj2xlYQ*7D29lI6}7nV@dHoaO{P@pGq))}MDmhU<>vOWNF<|A%EWX-iM=#$J|;Z+ zC9&7{16_Ga%9-wp{D`P2b;_I6{Fs`Lskw!wVuqpQ_s}>us2ILxT{4S2-8^j~Ls!hzGK1I5Mcivvt!2}~$RaYh zWj0T((`yy^DVDqMqfGDmalhNmn_XN-aUJ2^uB2pDgkHVrC9(>M;4Tp(t)5{Gm4qdG#1F{eGAFUI9p-tj|09<7Yco& UsTicfb*+dlP%NkJG#79F8?D@Rga7~l literal 0 HcmV?d00001 diff --git a/__pycache__/gibbs_sampling.cpython-311.pyc b/__pycache__/gibbs_sampling.cpython-311.pyc new file mode 100644 index 0000000000000000000000000000000000000000..1fedc14438f1b5e1e860e4b29bc3a8cc1e43e07d GIT binary patch literal 5966 zcmb^#Yi}FJagXn(-m)#*ve&X~i#ADFj-AG?WmmH7*iEg(@dJ$JT0DC0gbrcEbcfP75lN3`ilT9n?3?^DmS5%pP!z7Ie zMq8FBs-Bq6sVQC2RA})@$~}d$vfFUyWuj5TDKBIVC(UIHXIh&vydo6|5f=g3Lqt{5 zGOU!E)s&PBrBGHTnVc>%esnS=SUO>UPV0O2M<{%RbX#8mJ%rlhW{ZIIhBg6ru327Z zJihllgqFw6R-kS2L7?>)ab9;d$!rD5v7JV8f<9gO6K^nmVVE_ZPUq+>7I8+VRGg8q zu3@T6pkLmr&&n#67Zg3753oN_emoxkhRHR_G|Tl4N?oLe$0Re{oTK4l=%7ch#h5Z0 z{N3Bb>NFjuVqVE8F=_Z!B1$t>ClY0BE&< z)-}{^>nsWPk?sZp>)CEA6R4H8b?x#%SriIr0^R9(8|__;%gA^}xd#g@Vk+xcn{G4@&&$fptd6sy zLTJ2Y=4?JM!S@UUcnt|K`vSV-=Mo7;N5OFmeIy8IB_M$W5n=N8DB?66@#BV&GK6`` z$T7yG7yiHVpPi9a*p%d4e!v`2mJ;R$jGs+wDKSmY#hWh4n_@uki87O9{^=r31l>dG}^aG zMh-%EC&QZo0LJBOU-qx~9~?9X|Lo)=?{7yx9few@cccoiYoyvWQt^!}jn&$B)REKO z%fYg*o#c~A*=z@~GE?TW zBPhn%omWs60+TWzkjR`eDe1#ce=YCgcz*;4myjq$~a zf~z2G;TAl$va8^;)zDTs4~)0b*?VD2L$96I#x)PUMSsCB33u57A~LA6wYHwtou&I5 z?ZD9=+~%__dPe~)xZp9rh(r7rC_2FGqPd%h4ACeh;(@sV<~HSp)U2q23!PW=Sqz@j z+FeaFWdJ8dDoa>XIU|O0Ro21fX<(2zMHFy>5N^%{c=sDa%GubtxdBnl&B zhhkDLq0B{!KQ@tg4KQ*EacCg{$j6|VgrX9`F{{-ovevms)TEoAm5GcM?&RliDn|%7 z;PfKaQmI^a5kdesWr{`KpTtC_Ss6m>JvqG?2L)thh>H-1^;v~-S+9;wzJ+xKd_5k5 zz&R^sDV}`iB@kiqol{Xf2@)P;4#v_2jewHUX`F)Cs*_v_f(X1Kwx%*bRvl!*sGBmmh2*hNAy+*Fa^&)1kU zi;zsKhH%sHt6Qxcea;Z(Oo}}9wU(DFdhxo1MJKfg4;8SGjj{iT^nC} z>BEK9g(t!N8^Qgx?!MC1ryR8Rmcrk6c}ykT<^2WR*ne|*b{ALJ=GKay7xsGXF468p zw(|jZ=zItgJ!Vqz2ZHm&+fXa|ivD6?n=A8gIXdVG*lKns2Yj~C*?UbFXs5MtWiGJb zE%?p?kClrpPR_gC$rXc=Pz*_qVptM%X35sGeU6gAxaI+)*!Ch_z|7ATeV`GWduHyq z8FZWlUopJWT?pDSn$Fr&XoKLvC0E;^+=9hYpGI#X#7bMbt|g;du(T5!IF=7oYoXJOuYbe4WJ%C6Y0n7FwKh6tI%A8I0scAhTm|HL{Zq zmnsjfug{sZ|EZi@qlrpD{Kxqe&iGz;g_p46363KqQr+5liEEi7LMs$qycV;);1l$H*bq~ZYy`JajwAnuyMq6l+#&ITGd!ybJwv1O_5+P!k{c2e6aARol+aK*5*AoZ58M;cg1 zI6~ZH^=2c5hTM3Fqa>6g5k8hRWiX&5*BZ+;O;Rp|m5$ZVfAep6@^6}#0YpyB4Mont zK8CapjE0EJKxINSa;70CJ|tmP0})Lva&f`N=S6WZDxm`v-@ww?X1J?- zx)ScMhWqQt@9yKkp0z@%dh1DW&qi=ht)sIvRvLTS-dR4dk}J~>-YdOV+tpWglt(^v zm)%cy^{ox8UHjzF$6m9k7HTh_D2uD7mVZ{dP`XfexZJT?M|VTc=bJ$|vpd|eEwJee z*OAbEw086uOsPHkEfV~(e=q>eEx-wM&!0c9`%tLo!Rwz*eBS-}%`Z+@Vx!gA=$FY# zWULw)s|=1;2gfTt7pm|ECpKIYvLef%+gb_%< zeJ9-O$cY4jloJtl>^0mFFS3i=X1S&E3lHLB{p`?dgm{14x($KU4w+{cewgvI1E{WP zX-Zi71owK%g3Yek34<`ZBD)#j7cBfD$9FcPNx8Iqj$D8acF{-w2B7W~1fhodH&A~K z9olGpYiR#Q>sv#^8~@u|Lq|7S-x})MXnkvFV59Y|p}-RV)m?6(qmG)O&Bv-u&~re5 TdzvP=B%Bd03U&0ukZa*T!FN2{<&q+IMN00-vZS%Br5q%dEw2UA6eLKI){;p_$;9%YIo-S4 zyFJ~*s-7ix&{}Vapnq%F991QxBLx3PK3^2dW$y-{^r|;@t;&V{j*WIflp~9kr9d17>T|RR5npI`=&6O zRI^g6Z*gw-ZO)y(!@1jcIdAkEoO^wb^Jc%vx!?CWZ}r=pclsU9yZsg9cDj0p=-X+x z&M$E8q-&$K{u=MZPA}Gdm+JgE&fWC#=t}y*h4MBk;@jL37IBe`Vj4fpvm$;_jKVD3 zjU`%|cVw8UaW0D?(LDXLP`QCm6-Z*EFCwFFMgn{@BkM~8e6u45xf8ij1G!u66nyie z7V2KqjylMj&6VhdXf?XPsKx!!Z5HILGN8v!uvnu%F*mL7oL+pyDFP zcY>7Y1n+6XUHf#G<`bv}c{jIT6QpY0tVR1}Ln6fjoAJ!fMnw zqxC}MVaD1n&AS*GU{Z5?`i)Q>Wy67tH~E-@9Q+!M2F2oP1r9a;nJCcJ-p2Ret4N5} z=k_tK_t)k<^S1F&Y(F#}n%dlaQ;P%H!VpgW7+ueH)O8h3lTq?Ubp3r9Mia3d?kMHIWuHVknQ8*25(y;3{@8lo9QQhBC`Rt8uj*qmzl_shf=A-dDZ_pNLzpKXd zyJtzl=3tQE!Uu!REhebmL18|7c;2aHla54CQXQ_nDDhcWs7j3aE)^~y(T*C2_p@gc z>h{wtF$&ScOvAE7B%a@kvAfuf!-}pEdlqZ)1@`+(yG@W9B{U$ zuMX2VlwhOECvq6S)_XgcWCvM(KMQKs21yirE5dE#Hj{`2cKZ5Rv*?NlTXB8zD5!>G zX3v%{f*JA(65Y5T$_zp#iTCJvl^g4ow1vBqu+p_gEN)A$43-!C5yq%Dk=Uk*Tk>#M z_G8!dgely|o@EQqG|g+GEo{g9qwUh?{;7*m)0fY_&t>vwY8nBc3Xptd?1)H2=9gY! z{3EWe0_tN?m?g?!tF`@S1V}b65`pg^Vf0)(7MRSEK~kaC7Bztz1*r;Id*(K?{Gni$ zJv3zp6tqq3MH}(2672;9eMZZ8NIc`3FdyU0-#hcn*<`d0BI;(E9L8sXVb7A+h&*YC z+(6PZtNU_7no=$Mm()pX>&_CvzeSUxQ?KJLrZ0W{4whI(ye1RNs`MKa3RV*0^yeQQ z!;tQSLA5IUWKk0bhNPNBeTqspm5@6JLf)$Cj)8gRTd-$a)Z@-zGAqSH&7<+N=E+=H zh5RwA7FOFb?m6{%P$eabsE)bR!)Dd3uIdqC`t>|v{19)IZ0eNNWhe1*V_meaQi6Xcg&nd>y=AE8@>efih zybLNzzd}-)#}NAxUhWpzDl3BBA-|T;jFk%3tiB7fY}QG28fEC&tgsWAC_G3b_0xkjUI;ql&s+HY*XF zIi+1XrCT;mY>LiqSI%S4W$%ieq8MC&|1-|jVVvqF@`M61rG3=%Au4cvnlyx5s2J)v z$)Mb%pW3a|wPKDlJc9XxfmTI4hPRaM#UVirO2a%)xwMz;?hyn*l!#aofz_dWnvtE4 zI4t^U!vMJTMvY6w6(MT2Lc-BrtcmW^YkU zhLzCcpa;t@q{2U`N2UqJwMB7L1A#Y_acHYG2N6q6F_D4N-wHBv7 zr!Az-(l1*l4d9R!wcmp0cHU`ZfS%R~{6FljUFl2FDQz}#-f5X;(fs8=X%uNUsfck_^tm^ogI2xG0U|F(aLJ6ZI~f zcu65nufw9~miU!V5W>Vt0XsPU_!V}d-a}#|2=L5Rd~3qDP`1dx0Zyn~gNtq2!bYe7H}kP) zW8{B$f8kqgjP$J4fA`+B&2!w%rxrca5I@Z7Dsq-zDeXGP zVG&Zj#`7G44S0yHW48cslp??A2wOGcVJegL=*#*a-gw?}b+gNX%KQwh2&jD6SybK#z}}PU*9?FrnyH zX_KO(b*02p4@y49Ivd7ifD@dYe?iYG0RV*H!fXu>OVkgL+Ob#+T&TadEkC8Z{V64+ zysXCBL7biymEpBf*zaA`EjX8h+PTy|#o@Ib;&Kd~+&$9nVVF)}gzQmR>}e-aS%|2A zz^z(5(BepoX=TtV6U5f4DspT;iYk-TA}dx`Bnft9`s!so6&}Wed{W3)sLKt0Hp;4`~ej@ zJB3_0E4)dZuNC1nafg0GMaRpAxuOc>}!KTy8EzF}=RtFeJN@MTS!?OENgok9) z9n6Q_CQO{UHBM5{h_%RLWjYNY>aEB=b}|oCy%Qt<5IKc@PU%Pmnto-SL8FaV69In& zUI4%*saJ;s$YJ2uu2?!yPCtAdnCA!e@77*CJWxTh6NHG~_zf$d2h22vC8M@Uw&^cM ze{gzOq5`@_iUIlA0uS1IF(ymIYvVkND9WT5a&s|#JI9l2u@_=jg?V?K=!)?@h5bc?lFp&pEXm9pirz z_Wdv^9zDj7ouBFE`E%y0@_vF?%3LZqAN)o&fJ{CKkhKfY3_VF=-o7KSZ+% z&DaO*t+#U?>O~SP9X$)}Y;b0)?F|~3lC_H3$uJRIZP?cOk zN$&;n=adjD7+m;Rr%>m~c_{>=09etbcm~d8d4ad#IbO$WnZEznYkFIr=e^QyN*dd{ zO1s>d6cdSENVgMHcibb1WRghi4*gx&L zcgW$4NTtelw`1zey>nmZ-h0kH-#z#G#}0>;fXDsPC-V?|t&FVpjPTkzYM@FYF69?Xd$;jO0ms_$L+ZA$o)t+TB- zk2w)Yw#~MYgpN2#Fw_SGV~MqWswarg;ZJ^MgN*(X5wd=Tq9IapF0%1dCVXuv70txc zDfmJ$@f&dt!ZQ#dNAQ+#oyx>+Ws;FpWIo2i7t3WflHwNAY$jT51HW|D z$Tx38;64!}W=V#a)iETDpzZ?##!nB_$QXc{7$Z`Ndf3+&P7x>@h11&+$ZrY4S1k>Rl$zh~)N8j=3y9<&TuX~miy21JQ;W^R41|^WU?6;QB`b*sip#AoEpXT)bZ zNjJVnBCm5u6>0kS%tY!MH^D`+@nn3AnK;Qtm?cnb`gja9nx&`N^x|Cl*2JZBA{oij z$56J3W0%wC#$>h9gq!m?zPS8*>ybp9%S6-3#iQBhnrY>DI2;G%3x~&#;99t&5U3Ry z16H{JkUIq5epLRIBE`!}}5*`-GMs+Y)G;k~$!asn?=TJRWCcDn? z__x+lGRPsItPgTXMs6{3Gxc3~4UsIGt3NKcQz~u)Q#}5a$YPHi0*bl)Zfu_T8C}#01v_6J>ELzwkswPE}Igy^9kEiA(%X}3M zW}3YoV>wBmh@~V`YLQJxImuN`WMhkocr?OEM$onSm}E<(nOK<1L^4a9ddn|7dsrIM-wqm~+925NGqJO-a zMo*x$j!iq!@giv97yBRke%>yOz95di08yd+sMvlKt5Cd=$FQh+SuJGrywgg_k_@4F?1LNLuVVa2w51P1Cp5hqr37GxPw8h&zQ-88M}a=JS@v{I*f`v?-{Q&ymo zy4G4@0FgQJQ%Lz-NhOIliIo19{!QX0$v}NKK-W=?IUS=@wWP;fC@3MPucy7=4(&Eg zVf5EADqsO*YV#Zcj#7O)Yo?Lf#3G>2WL@8;>#6?*7vJ?RMjmH@J; zCC{Ec1AVjmiu-t57yK&T*23h*u0Szx?`r3rF(*R20&D6w+PLEtYzJ@Ujgk|95!)R6bCN(r=Z zZ7bkgA=MBV6a$o}4v;~pbTbXjV{~%?n*VFEif?*X$h*4c`uTp#b}0-gYsOFL90}N{ z4>yJd@-q?()Mt7Yfj!B9gb&LWhk8!acT^DJKvUUCEhT555O*vQzY%K&W?qMixD!C0 z-622@THYYlwAfz>bcliBHJ=z5=K}|x^oxgH{c=(~glGED75>l_5HXLxf`bsli&#j{ z_Ck#;jYv0;kWSVJV+65*;m!ADTOm0#9A=wmAdYogIhMKqWMIwk$R_ko zioKKam#=Z(K-{5+dE;+fp2GgS+0`shwKYNuW!-&(*Il(hsaI94h)fe#f4xFNy0V(8 zSLgSCv0VzxKJ*0!>Y-*;RITjXeMmv#jvsZc@ExzIDB(I@?b)}qd2i`%sa9@Amj$F5 z)kk$`&4rw3w}_vTvfHYCL2pLiXd$4KvTIZGQnIK^*23Do53*73%j>^tln^hgKimN~ zhDL4}Bb2M#8xq&`&v?ILn!!5s6&jc9=(YGQq&*z61d&W8mR!uhdX3g~uo0OEo2jqt z+0*LGs1z*s^g@KAWq8CusWc7Fg=HE!9Js@DJVW1%ClXLahMtSnYK$@CmqS*SDj?&) zf^UalLx_wbg3JfI7ZHT1Bs=CMEMq~?BV5%lmXI1U1szcS-+y-malD`LaaK8m| zhj{95FHS!=Blw3!|L`VZwLFJO{=~Km`lZX|smnb4u13VG@9@{(6|b@og(dsm3njnk z9bTJ$biV98%zF=4e1UuCN`t&F1V7OiTDvIt#^spc3!&6A>%O6~51`!@{`ISZ?`_fd zHt&1866^v%w{}eo?q3hSTn@f01gFK|bm4fVHCVV^*>|vLKueHc2<&;bp{|AFm);Y6 zInkHneYwi+J%wr1KD700b62fvjoPgkj-SDh{4oqi4)(Oyu{?9$Z!;o{PR=D`s*FnG z)Y`3GRRG5U6074Yunqcc4AD4rM=?Y#+Z&=UT-eNbE)nv!6Yag&=YcdaDhHb`$KlA0 zNIZdX5wb1KtO_!L+#VokjV8!lQ*}~gv?c}Yhd)>e902PAKRjJnZ$n0v<{%>?nPBU~ zq?3}FTUfewEfK3(6^p`-#%H%C-*P*71qHboximht9`6WqKb^@5319Ddk*s7M2C7N2Gdqs%OI$ zD7LKTc&c3%Q)M9o4p12VeRB`UeSqLAuo&m`3|`^@oa-4qUc|wTrUo4Nn+o+bhyGjf z&6e$gnh$7QezZ$D2%=$z-3Li{wj`^(aA6N@6&VjhqNHD3%1Fj{xp+2K#l^S~-iv~d zuR zRSX|Qk?F+q^REy<^HYL%& z#^s}=Km>L6oFQk-nR4b&p`Oo`x{!yyx-NuF*ja&n3^ABqa3?ILxf`*BWPx`aIpR6V z3h{IlBH&4|pe)EE5d&Mblmg3#cR?oEmdUejj4s1w1~y$>CbkI9htxtWg6uGaqUm%3 zhZf@V3&=i$o}IifJaT99MrXbIij=!tzR+0YNJR?bIH>3Qy@884$hrq(+4qwrUs-%4Ue{l6>v<~ zT^TuZ-59P=Ai)$<1G9=jRp)_pd7V_lR#UwWNH?H0b4Q~_F-E+;Qd*AiH^ij^fpaGG zjREd%5NsQ?p=uGdAI^{J9IRL&PO0LylnJE50)JM335i&25o0#V6z8VF zfy^F54LM{xU{1mrE;J*V!Ox5X&J_5?xUg)?!2xYaRlCGV_L~c_6f!1kCdRObP{SB% zAgr*ZbCLm-;y`qXnsLBy*+RH3fEyh)P5>pa4}2RJ+m>8^0hMw4VJ>AW(Vllc^|hj1 z$f)4kE&6unEx&1PzqkDHd-vYU+n+i;tMR+nSFab(t{oIQ_LiM{1?S!kZ|k~uuqxnEL}=YDw(kC#=yr@f&OFKdEceqKV8{0E2V?8O(Q)6gQ7pQHYED@7W9y#XP}@joch>N8Qv`pA9?b+IQ&XM&-?lX_dsQ6R2(|=WKtY@ z3G$p5-2G4chaaB)(V2&5AbwVG_dxkQ`;bqruXIvy@2-UQ$PPN6;2zxYc9y)nw;z6$ z?%vX&2e%8S8Uuw>8{ITYz@!(VZr{4Qx9sjM?JM0D`wl+w@-LhdpP%6`T;eZ(PrUF} zrEjow>){KJho7AKX6_m%B^f_*@=5AgPZ-Z^sDg1uV=N2k3TzO;1}<3eB<_K<+#9sQUT z3>CNUzU>FL;&iD67=U5n@ehW{(elx`56|5_zj{7@{&!bN0>EM8{BC|9?ppwo>@HK? zDm;%6fo${D_zqcCZ1evO0)Q1&h`l)u)UF=fB~1xsje*LPM_U3pqMFQ1$#)ehj@DkeAW4Bkd~5Jun%uq2yksQ)`ctFLga~7PlpM(!4tg*0}2xj4(Yn# z1@D(;FJFSpjgNLBtLHD;ayyt1ywT9Zodj)3HLpt3+7?%gIsN-^m*IU~&M2QJ<&4cm zNm~v~Z2yWWquL@hhle>+-Rr2`tgw1{`>{HZ(?e}@E9M>4X5Q|e2zPWxr4@d)yl~w+ zDy;xMZE2+^(VPMIgxW!E)c>g`RNX79$bOwiN(zbT zlMSk_q<}g_Bq5-!7vxw4c5xe4XaiaOh9_s$_5r}HZX4jI2cQT#p$2}Cw<+w)85?S~ z0$0YmerHVx@>hL)KBxyB+B7`ceqqOpatEh`ZhSO6aMKF4q}noE+j5r)^u`1Z8ES_8 zK9pu7h#-)M;htoKy9B9>?4~h5;GK|HvVl80TyU7+|;gWyy3Sl30SB zy&)ONEJ(&Umx{p6gfRXpk+&prSt7Htmq6avV;6uN#P<)9jJ(gcA=f}P!Xj^t>`$mR zLvfKCv2c1R!|p~&rpO{(D`G-6+4+qipJYuZlQq1n2TmnDazsD~d`ne!7A5iq#<&15 zpZ^?|5>t=Sde+d|^5k-W8HbLMZ0w(fP? zXxTO@*v3TL7{CiS>O@DT6~K%x(Ko#A+gJAO6MXwc-~PLnyf=So!`V`p5S_j2&atv{ zOmISY0(@6c+u>qgadgeQ)-KnuD{z1I2eTi)b?>cBLTBl~B>&1&m-nOWhuPx5gWZB_ z2+m*;r0Kv1zUaso!W%6r_XX>L^|js6LVEXnMioqzXR@ZS$WjI{U<%)>!IYu^eKkmpyu zy9cul3m0B)NY!$)16V*3t5f)DAMhbR_^1p#xd<8HHRCH30+fbzQC7`cnJ9SUu{Y0# zE(TRKkwx1ib`=rqhDCnH`qqn$K{Pwm)P38yef%%T%!Ps6Au8?NVmqjj(K3ih{!FE< zzjX0ISN_$Czo*o5F9k5p+f{t`-ci_9x%@@n-9In2fa{ib^;VEH^_AUyuq6`R1H60S zS+h$v2%^;<0BSO1`v>T_c5c+in=l99d#{c*T!*;?x2=&6zP|jg7*Z6v#PTNGkyfsw z7LdE}SCn8y?2+$h6g1F~~oKW(YsPxys{&{Z~W@%va;n zWWRt8xs{CaegTaKaHIH>lw=5K4IZaw3@gUeFyvOC*Y>&7UdX3_tnKpwXf?9goZ%hC zQ`Q`QXn8@#w>kKLOGcng_4^;-_cYxZ-N7t@XMZc8_|uMj4zALMtdUV**IKi6#}{JJ z>l_`wMn{y}PUy00A_m?R^ld3MZdG!hR%eTIG}3T%qK$7I!JYJl7#&TsaQeKMPBG}r z9G!@dE5&Eha6LD(5P<^7w@*V2@%dDmg_h=)(cN`gxgI=DpU$9kxaz)?gmhdAT8hi} z*b)1vwFFpau3FtV4Xg}t^!3OFF*%Ty0hv4jBE}n>Imf`q4v!Jj9*yebx zyTc(mmf&LGPl8*^N{$)0e-F}hA`5LJPZhcqP+irwob|(h9x&XD#4}(0H$2z@mmS}} zOs!SS4;^FKG|PbltRLE9Gl(e1{gMe>XmM@eW;lMfZ zz&Xg_^1?+4$K-~)Q*`fMckeB`_X_Sw(LKq#C*l6WdT_iP9AD#v;65?94?K6?VBtm0 zjfXe**@)nq6Mb{MZ?1A+sxU43`b(GA0uSLL#6IjvLnuhqhYfWfV0`muIJ9Ekr)Z+2 z8_>_d?GS9VF+m>QkQ?1NM)z~WVaXZ}C)3PQ0)_42@ViTqL^Z`625E|h!)y@B$c`Cg z0I;)G_5q(mQRL`lQ;4ARa4cllq_ap|}rF$fb=BUYOcuBRv@XfXl+R*2th9M~ij;v6rKqMXPQ*)8QR z4?5D2OtOO?u5~A2BZU9U#W?JdBwIDS1piZkMaCNgGRXpaC1??jP;pQ`ewD1%yWolV z9E(-}$)YUF__De@h3I%h?irfa-&03q89K`T6r!*I5L^-{Y%xf(LJaWQUxn!AwLh48 z(g3)bJjfFV{&c?z(ZSb#8-()?{@rnZWR(?ENf!DCS*7wDX4$FACaYOHn@puD`M%SQM}yRiDwPVFeeUC& z`#jHkn?bee=I~p&@{jkoc5=CYXJP(lp>PFn_|E_;r;Ki{XEY2WS7OQRnhjIZd?PQZ z)vzQjGzya14O`M;qbRAb?QO{7(IR-Hq-q_)&H(q(mCT|l~` zUQ@3lJ)_=GHKeQRP4yPiHT5kl?qckIaqHHeKj^kwUdzTbC%+;xWaBlw;lBVJ8^^h3 z?$`u0j`M)#alXSekJLhH9TOIg3xHrBAeaZ}D7FOS0A0oQWyx0*TUU>BoqT6WS$GOR zHJ{qY_IUX@X;+XtBe_+fUyIf|8{3NAX8zS9|RGA zr{hBFNvrF}#V~^8pvPiQq0JzSi@`8DYy(vdy+dE7C`AXexkF-I;^a$%$vidnFm@kK zXBt=1xwMY3z}O7J*cy1zQCw(;s*Rz0512T?!0$IPTD;s1Jk@L+akK#PouVE`t$H!G zLce?1aCIUdSiG)q2de}t1ZOyWLDumir@xKTFTT9oKMXI2-l*Mczo#yLsy#Kt%xl+t z?2)cr*TLW*czpRz(CvAn+EtQWzPcaWdhZKN>DH}G9^09Yy)$?cJI!Xh-;SEib&M0j z?&NHPkAo-4&BGPbHC)uMnk$B5I%dTft<7Y8XVO<)>{ZhX!}k5Yui~xY zfaar_a;Y&+Ch5B;84K+1>=a%^^ymA0?z8pcpy;u2I2?vC{Rql}^c8l>Et$ zdD*j3a7e+D_@^^j$kji8NzX?Rh-WGxN!MqAwFHjOVgDzwhh&PksmJZ#bZBj5g-hI-_V2JNYp`NE7{4+C|)jP7tnToGLlck46bo9F>7vO z+nn8b&Mp;@X~l{C;sjtSU>&Z2KBPIX7^h4!p*gW*+%@45jZ9+xXHzmXr=IRmqafyH zaRMTtg1HV_;g@?-HiaM~ARL&J71{h487kaFIyZAqp^V4yqR;3{;6pmtsbNmPhMYAn zz^fSa4vEzl%Wv(DTo~}nm%<&Gypid>JK7rdy@Re_i-H^XO>S%oi6_? z6u9`Yp&+kMv22w1<_}G5g&A3$!q}!|(jTY!T&D=<_y)EpH#GG3Kup2r_mBKq*zOIx9zAXC$O~%+J~#l= z>1#b4M82v$I%0!I8qOE}L})SVtH#d4of`XDtgZFh_m3jSLNvpeNt09R|9UbVHZPi3NwJ z&aHOvqz2WKxxZxBu-c?40tX#*WlcMybEe3TX;h{Yg(O(u?e_@v|>7j^`E2dIlH|Ogk;o#)}Vk_tic{K z5xmq`Q~+XrL2Lse&rU%U0+u3i%cv<*@M-1~TR_1dm!UwkCZawQOg+D=e-}NEzS{E- zhan`;ix9*OBHD-0gY+y&8ibiF9QL^#wO*k7shp*brcN2K(y8LOk;k!sM~bD?5=~7xLe#jrzxVy-&Al5xxO-#w+K&*X zzk3jyj}Gc)?1()5rJ3YLskwqlm7_#zyhW{cAU=V4_e? z6bu4{^-uIN8a3Qo*ClFikNh~#c)1|aLZh6v7N77LyZ=5wY*9)U*rC4#jE6U*@~()M zScu>((>C79#;f8f&~t_Z8Ar)@6}txI=pa^oo*P@w;VMysT?fRzE90kTdKfZ!d|e&* z5K`4{eG)vrCk8RBJ2T(7aEDd7GstgfpWi%fiD5n+Ca%~@D; z?1)TZDLoKNP_k-mW*0l5cxgzYe*i0yt0V6-`Be&z@= z`^zYmFC|JS@WYz(XTKHLVO;PP8~-!P&`vxeKj3vo>d$vCD^U6 z^GrxRYc^xI*@T7-yUbUb%^wfFZi3NN4E-L#`ve~ne2?JQ33zsqSWR4(zR4ohQvZP9 z4#7UbJ%S$+d`U2Kcar0YOw%Azk;97sPR_BM*Bsl)%VPoBPQ`KX7L&S4URtz3ocU3! zui*WL-TdlnBgAJ;T%Aet{@#rY7xL)E#!Dd%8vryC5*ogZToNSKrOwz&3oJsoJGO{JF4~ zaRW=*y84%H=ltZPLM| z@eBI4NEemXIijPikC@_e6X%(mLhWX#3qoBMYF8D6+UQi2ji-p)GaPEi2YA4*3e_gCU2U(UvQSsZp;fj7H7 z@WRg@??YV)`ZE{5v2eL^)^hag7?@i#*JpzV#<>vvyzDnz5#)0n&d& za6mu?Co%1e^O6&T`X|7CjaM$WU{DRGSXt7neW}sZe++EaAYR?SmEk;tX>N-c#Q#8s zyAM7XS|gVjMCK6BrUnt;EK-AruMEi15E|qpB3I_Xsi%lhk+YFwv}LFwa#VdoImn69 zs}gdIaSi1nN7csd6UOZ@2LsEf7uV=f;e77c#YMV(T#RfeyA#={DG4+Lnga8Lhvn(H z-W(S*XZezO86cm>EK#t>6lYP+k!g;$J7rS2XKzScbG9ShT zuRA#MVsm(eko*0(;zhmWT#aM>=*@|lPmKLZ=#DmKS1`27yn-1Fqq@7`74)BBmPy1w zX^l5%TUuUMPVZCe5*H4;!|-VC5L8a??mV<lQ^9jybi;(Vy>9;4hVwy3J&OFxT6JU^8f9CChiHx<>zou zl%0vQNe*+#+7cv|?TQOnI3;3JhvzI{S2Ebr0v4Zx(%HBfjHSwS zj51z1gK@{J^F4whkGZ36fokm(D%34dtxv{J`$1VKHpGhmn>g$Z;3oTLsfsx4WVIWr zlIhP<)eN?}fL+R9mlAAe6CVQcDKK^RXT{l{gR{p6FSz|}arS3U_YypC={`YL*0n}m zybJ}FLvznpZGLN_dC(6Cs4{7kaDEmgXc}P&4t}|Vi5>JTw`Xzj^NAHnGO!|7X+<>M zPi)?WDf!|1ap}6;&%utw*4>`>IJWN|;6l#_F_XkVyeyp1_c^PXHxWldH}g+;L!JQU z;|S(omxsA;<9Q3NjS&W)lko*r_|@YJ8>5Mr`2;!*x%j_~FAV*!nI2D%FD4_F#xCUp z@drc5Y*bUCmJ1Hv>jVyZE;#tJsJeaiL_jhFu65f{dW zKTKmLYWL!t<kX!h$x0azg&T} z++{o_-4g=2X`sgHKPNaQkb8l@VD2XbUlA~{Ov2IW_v&p{RS}`iKCa6l;H9DG&(I)z z2VfR@UclL|CJ%Gp!E+I}%1O-1f(dex`P?y}uJz$d1$af3O`VRMc-ZDSa)G0s-j3T6<)kH$d{6NwCsA|1Yw@N`8Dant`FK?Lq*mG7bw`iz{y8IAN-QuBQ>XrvuxPSTfwK3qlMJk%Lf? zQHq9m7D9}QSqO8|C5bU2;^(oX2`q%zmKvd1E{pAanGtJtMW^U|==vD?_ZjQsb@!}$ zzTBM4@P7=R&x`=#dfhezd*ivBhBpQ<`X$stwjUB z#V$xV4_fKy#AISPEDv7^M#5s?Q@bWy3MB^Pau|1>td&COTqqJBg>XooaY(IVTZ85p z4vQK;5|l%+U^Jw;ug0Z`kfarj#$$=lbV4hRN2BsJIT4C#?nwO7B}n5ZLf0UhC~J<% zcmhCB(p;n0Mk67uNKU}Mh8l~aB9xhwwW9b`Vk`_vrE+jAL{X$c91^!6X@{q$xv(qOKeQuA_r%} z(eP$*OP>@JrvQClcL)Yb^7TmZ$&vW8?5gbptX4Tyr;1SYw zt4UoO_{xlwOunibh~(25XT?egm85GLXqlQ?-O)pEaO{uz#$-0ed-DXm^8OoNW>sP1hHz(^itMyw*{T7HSPd5UBgs=Oz z@`~G6KfM0I^?PUM0}n2!t2V3U?WDYYfwL8_dnT0KK6>Zuy}WWrX@DstW2>x$) z;lt7oN`G2@yL_%30x7;R$v3Ke6XBZ_zA0@^o`WpUVR*PvMpPkye*Ay_X8=Cp5^R%m zK(wvf9>@_(O)!!R5XYtJje2(^d=mz4rS0AwZqDY$X%0|8iz4p^KLQV-2J8pnko zhC-9*laPpM6|k4-Ivftla`;j#Bx-e2lgK!SGdp5vD>AaSDe(F7h~oF+mHewK3#4$lXntGnU^;oOfo;yuFUj^+;xXO&pz#^=hfer#N9N;mQ>BB+LqYpwQGRhY) z2z9IOubRK6)@>to+mPTrt8co$`I8d0zJt_vAh|;_ls~&{*&_kZl^3)4+oaWyo|!LT zqsZedGe&nVjn3P-G`0s(#T5)It#J*dy9!?iZ~lUJLN2=C{sKIphXDP`3Pskvh$7N; zo0%rg+C;lm=mYAj^GD8<6DOU4*` zGUZU-F^{yg7K&I{upv?OL4te%01Rs zJR_Na5qrcO)^;7H3#Nh53iAYw+3ED!6HIpimdB>4FdNHdgwn5;RGPbtvJ`!+3{|$z z+HRc&>=-WdOouT_pbHCzVr?yra`ojBBj07F;mkAb#z;dqw+~b*XPS>WXCbC-!SMx} zQ7(1~+}xQ*bXik>47x4I@a_Sv=H$8F)2EO1^bVgnbfmZYXm9uN!IQ@Z0>3ZUcfc@; z&F$0C$V}Y{5N%;C`?At4O4G0fg7vU00^=c{9F9&!f++I)#)GnNBm_GJ>weSYI@JX*>b-`9|ZJy4roGL(%vZ*pZMwBhdOl z77vXk;u7c>zFki zaWtd`j6uynbB1GpCz4vNBsL^-Jy0yFg{sUt_->4$Xr-vI!%YW6?aoNDe!Hg_nU z{c7_7X&zAc)#<9WpEw`#pI1LxrK~%kRvnn*pLt4e@A`262m9}>S3NDn)3U%76?Z

78!6wmz`091m7V>{&Wk8vc~V|q((6;!bUmI{*Yv60qr`hu@gAjV z#OqIaw|i;@t}gDQ|ny+pc=I67N>Ucv0zq%GM;kYZf@JU31gm7M{prxylnkUIm;kkZGJyjRk+utVz_R7(YP35 z1c4HznO#1x{>3FMZ_t};6)4&HdzNOTPY{)A{PEf03Zey+zPJZUProS{U<#S zkA5C_^p3KzTdnDyI|`gXC2U9v8&qKv5jH8pCMpXMp*baNN(!4kxu6O=iLg^K-fuu; zcq8R$N_v_UPZO;6F?-CO=SG%^JFHPq5Vs(g%o}`ZLdVg%N{p?hd%_m~}`F(Q(}wvy0B_ zPHK&15<~*Yb>@M!&*IHHCMzpIERz;4Gid-Ux(={%!v6k@?Qsxz8Q;(FZYHFHbxA7? zoPKlo$m!lwXL|>_FM@?_c*=pnFsHeLlOUdoZRIAW(+;>&ZX_K=pAP}@ zAiDOoBB&bolU8&g(0v41k{8l6J`tacgGKI|g!WObq`!w6+`=;<&4H#a7u5hYPo^|V zyAsN<5-w`ZiQ84io&jIUD2I|Cg82e4R1ky&`8I&U0&vyJJBhp3Q#I?8uoYITHG4?S z9<^#OsoD#SrK0L?%|}f?Z<_b06`M%Kra5=oQ?bA~ifhwVwR1glJ>P&~swZ93jH2_i zs``7K_q#r+e%L_T_B~E~af2MVpo~r^i5aEpJ+12xo8L}7`s2bUow`hN!= ztI(V!`dN{99`oisRzh8PXXwgpCxt@8aJdy0NM%=T?X?qOYdS@2@>2;KTL8&LM_-(eu}_GDZ?7EkVKx6 zJ(y?9aFbi$IWP%qB$ew)<7vT6u<4o|!8G z+t6)3#Wy7RhI>8t2OeKl_y(2lBYdA?ygD^9^WVkk%U}{hGrB?D(QoOB2X*+2?RjRU zNk}rqqc9-jM#t6Mgv)LY{_^P~E-kv8aKBlXQ^xKhjYCSFb;yHeph7s9;;%x%=STnn z2e1##!U(;>kf6E77!vebhD0|Ypm{#ufIwrhKxQ~r)WdL;%)#HXh9d@5%Q*`NY>ShTDNL?9D?6AMNVYyvRQR*g1!q?p6Q zTFLM*(8{R@`i0@)A5H}$dWy6W3v?jZg900bK_m;n&1$6yBJWM;+a^wAL;g%M+q!6TmgAnN7E%AkxoX zP`jGuqTGexxGG#SRWoiZ7S{|Oe6002D%S$H=X#pZh+ z997otPJ{imR%z}ebvx$XOoQ!p{ro;szisZgPB+WfQ9FOi+nn?^&v$*^`Kaqj!_&*k z_KRxEMb$e*yhDodE)?tLHmDWe1vlqi4`&1Ul#WgE2AFEALEAjV->p7ot)S)wU=@U| zA@hln*(|>7c1_F6+LAQ{?P9O#^IF<hgv*^yY%#z04 z`64_LC^l!F8Iay!gjs8%vkOunhN&nSd{}td^Wl0SKDfOyPX-^>n&`^llN|%W$ZK{* zx9EOYWR)#}+}P%sT4T=rF$6wi5ir_Jxq%W(yv#w>A$~wY=|ktk*iT9cr1!uVkURj} zDkQ4wpbV?uP6$fCWzjf^vjMjNSU9I5dLZha2t}@hW0V?cRTJSz{Bj%^vpft$3z#%$ zMkp843k6i@rB?~)fzYR!^RPBZHw#BnKSa!|v(WqY%o%IG5$`sZJ_K_B=71Ho_p0wV zrs}pQ>$U^Y*-tu-KkXwO0k!TdsXME#I7e2TLs<$>Q$eFiHFPE$I>AQpF4@ulG)#6} zP#Z3ihKp*=5UCkL8FbMZGxV_`T~jyLbNeXT_%@}Q-$*vU@wn%U0n!yv&W@0-QMFkl z&EnUg3AK3w>gVsQQo-`4(^gh?-NpyAsdWdF>kdAt{<4W2x~L3A$f2mZE=JbH{u68r zwr)F^71np#u?nT4MdjCK= zaxm6t-4pcK02L zP4Nj7J~Ph@Y~li#umhW$2bYbBi7rANtVYokpQtwQfIV9P6DHiaUrdMEJXC?!1keWu z8L>g)BmEdb0kR|g0VYrh=za9%Tn3=V$QO{1{A(J24mHSbNjPb+~7B=ENKPMicL zfm}$oUL+T1b*J&nnG{|!H*CiZPrb_SJ8*6nXVUI zLmvX15BV4XlU`(Zx!$6h27_gSYwH5XKx2^$Q7R1eRz77CT>)VVEE-}5!n@3&sdn=w2Mek>#kA?J z!~N4NMxqdRrPz{EVoE826h`WA-86?@pcQ!_4z{4yk9>7<#6zZRW$0nHAZKAE+Nf$nm zWNRx>LL3c7=vg$A5jEFXWJ(@4ofLWWyHYo>j0gK@bmxz;K2&BkR|LAWO?S3ScQF2E z2!4)<#jG6u3-S4hmvdM{7}ruRO8H2H6Jet?ZYlK=Cyz z!DfGT?cJmIE|ThXbG_+2|9Mi~3h@;y?$+L0d$(!su-RMNc%PqdBDGuRjulX=m6pDz zonLh+7pXXTaYBh+QKqj0RX=F&MdIFPKVb*z-)|p5>fZ+rM2hw?jJ#x@#Yi}c#K;@= zgARy1-JP4j~yyb+*cbwxG8Ft>l z$albj$m2G8R=l>*iLuExpnBI5?^?xpGsn#>NpFj?_6^nBMZ8^#@qS~zxwA_Zb`xQ@ zV!SW07yJ{*E&p#XfF(_zCF$uVHf1GV*3kcOdjVtJi|9Mk?h7B@TS(HayE{ zBfIxd^~-x+*1wm{`wRBiBHDPRKA5gMWV`a3`>=>MUa1cz-F|U>Ft33ZjQb+$%;3Dj zXftEyWnrj!DKtI1c7+$M-2&@}wI&M77{hFvrORrw^p)ByTUMK8d2O1k-^N^k)L1T- zKlEBHPSl=_W}3Xmy5d1n!1G}GfIT~lrV$BlUJ1N4P9JK|t|)9r`V+_@eTd)=f}bHk zML_yf09rX{H}tkoG$e-c`!+OxOK3WlP@l*c!W*)NaOoDNA&q#s2}`AQ zSh@#PtV5_`N$*1~n*A*3S?9NE#Xa;YE+|==^K3LYt+~&Rz}?*tWJX8Vo*J=T)Pr*@ z=F(3f?xm)3RAXLfDu0Zn{{aM!|GlR2rsn&RRMW0x)2_$PFUrX7ld0Y3le^EWyDyU6 z7uBXA(u8(<{!X3BH>8)8xzTt3M5=K|vT?`f;-eVZ*`L~ZCb{#By7MgAc~)&aM;gz4 zeg3lAc$wB;qw;ll2x>WOcr(?}pX}&YJ5G|0lWN@{sT=(Il&IE;v`F<&%a&21W!;0W zR7+Q~rR#Cvi+9PsKx*H+$$jst`+h+7{XlIAl9nK?y-DSLY5#@?k(B>H(tqHI^UE@F z@PcyjGC4S*`Xj_2!E8!Jv&y%mJ9a(lN_Ct_cAR(``08EKFQ)p#$^Nj~KSBB@)Q$-0 zh=4{HvmHV$vGWi;XSh>+w~17&PgQJAR%}))wvdV~D!(|1< zsguzp7%NZ4$;r67W0LGJ*&uiJTC3WUgi0#5k&109zdhZ#`_YM1XMeJ@|Ec&@j0}WQ z0~5)C33VV!2BK>xsW0{i|_|9(KcOCUitIg9CZFEOY19|G!NEX+#k|8E`B+;QAGyzKEZ9mqf(%vNZ&;V$B! z#+a(b91^i3n0Y2Fv*O^%Wt}FROxEL9oX;!{Xjsd8UV?+kPW{?&FjO%dF;t`6TT}#`h`0uT4lfr9h+Z4Z~wwdzJ zrU5)qGgFAIrmq~DP*4$u(oFTuElm~M@?|Kt(k}q79A&nxPX8R?k1*-GHCX9B=KCcA z`~qG2O9ZI0O7jSQh2XCc{566H2!4$Khe*G%!G0uW6-Jf9C64Sb+R%$$-+4R3q_yVX z&PYP7@_)cOgIlQo-M2H~;gTX;dToXJlKwu`e~kE#!KvkLB``vckE()51W^&hyjJ!r z2L_4%lyc@gIrEnCc9finsY09xaYcydWrp!Oob(@7{XN9r^F;h|oN1yH$&(XsbB4fs z#B_76PrpD{+C#6x^xzpN_zTtBll1qf{v*VH34qe(1Fno z5dT@_{9EMwu=0Z`a{dY^yVJJgsO(o zv%oR1z83EqG0?dJzm&)a`ZXi0vuy=_VKO#_ckYLWCFF6E4}fL|L!ASDc}sKR&*W)t zd3-7nj?iB_(cBVzSs#aAcSJ;NmbE_2V`wds4 z81I7fhc+90iBcHeS@}Df@~t_2+_B1r*UAdRJ8%AurhIEo-```i!Rjasu>_`k`+{`3 Gg8mCGhH?0XkjES3QH5Vd-mONk%=KVn;|ED!`J+5$)eprowrY?qh?xa2;- znFS@Hi`W+BS3kRP+J64h=8rDZ*a>a7Us5-AzNU3k_mMcwqjj3Zow#XTJGGV8ugXbn zS+e^3ojWr-iwDIx`XktH&)(PEd*|MB&OP^>b1zz%OfrPO?86^j`}{A3LSJDd_-7#U zFuwMP77CdmQ>%v>T1nFw))CfAx)w?>7Osa&Vfi&mhWtiK5&4alqVgLn#pE|$ipy`J zl#t(KDcP5vDy1c!DGkW)U};c(v!x;Y8ui>V+cWA}_jg!+BlUbEU&>3*qV;`^krKL$ zaa|rPvi5JZ9QmB}FmLpcwoPl+#)@+woH<~N$TC0haxLLbWvk_iEL^~=e zm3FmVYg7?V%(R-TwY4+nFBWwtG2L!8&b4cG+ezBh^@@dZldoA})xkds7SAVO4L0tSs7j{_*3@Rr|PI*{n5c$IRoW ztctmTw=K+6(Nn8%(rT@rZ#{KBK{6O;UEuV;H#)<7+Pi?3_o_zOyV~N zbdBdjtC}FI1~L*P1sMr)mQrR8GdJuc&dkp*$>6L+(TevMLx6Fa_=`fmNhpp` zLPE(0L-HJ`9ZzQjg5nV#Y-dp-+8r`e*R^X}J9m(&!+vU7rRJHMH#30yb)f#Ltg|L!kWasB^>|zGT>+bVIuJ%Lt8{LzfKeQ)ZrJNJiebxNo79Se#vI1Km%X zPRwSYW|m@$volv$>QyJQ!XK8IKe^PduG>zmVFJC^?NVlOHh|mKAZDvvZC%zB#1msc@xg zkw+Eou`OUj=ve`zn`h$y%f*5dRW#n*!RE(dl6V!cvb0e?Xl4A5mZ zPW*huYVi%7_@(OACtH?jGtI7&gq$dDP8JQTfqqPlvlFq`>$SFH)S9a;CyWtuVpm>2wO-$_i!o~eLvFo_;9i0v!BK)E z04S*H*v56pvTDs*yIekqQuYEsRNM6vPHNsKYD9IG8PP{Hge08RMzjHZbS;M*9qETr zKK{~X&gUiLUQ;_(6Y?}+Dt99QG6;3CmI#sQ7sFlSItZt&cO#~xnL2n>cysD3*UUnt zX%<#702d0CLZfQim9=W2-745^v$dge+ZU?MLiMRyd)&GW)h`sIYD6Mc%W7Fp7^nj@ zmGTaz99206ix+hnQqYmAcKgUh$}BaHDs3{ww4TK4Zw>}tm-#EC3GYvFcK2OBg48zO z7K{qy4mNoaZ;KFFpnj3;5nsH2GIo()qS?yVwSfhnSUns!IJkh8xp_WP=L~1!Hvub-W$FQmu(<L=s?yia zJCRy*eWSg7-cuZrvU=GiJZ2vNNE;-Mw5EsC@@r`NOKBsg-TBhyz8*#do?Ia=cz+Cs z@twifCd~pbbj&c9PA-jFSMP*L4}uTG3PlMT<*d!$@kbaEi7j*GPQ?kAk3LYC*|03I z`1;jCWgR@Es*26Gz;tISR=rj5iYEQa7OR&xYF5>LV}bJ6{eF5tF7wmYQO<^-R(NBf zx;9>zJPHo(XRcbPsoGq*irk69v4UB%DFsSLJxhhFG7nFb5n9O=zkuvi~CbEWeI;S-3o zLv76jIYaWmF2@W%!wJ*7;p?H3kQ1(HW1%grZD3+G)3~Htw?S}@m=R%gkdUr%I-?8E z7EsfUc8DG}zheOJM!oNdZGlO4L)Sx(fp{-N^1{;^w+k82jEu-BE_M*8_3;UCHqzVn zAxJ#9h86#*b?c!ktebeKziTA4d93&L7`|#*9xlt`IsRb1wNk0u4~_fJ3Sn=)eWucE zw%VY1u;dEZK($(s=L+h%!ZLV7qw-X(vC$|rHyY<5u^)N$RI$)n6;ue6wF@=7P^ptL zuNF4!sySYafl*@}j#%8AsF_cA?`b>XI!JvMy?4TB!Qem3m%e#m?=kq=3pc*=h57Sm-?YN%_x>orvj(B!A0nW3S3m)*X9@+(@cz&i1lz7I zJU!frbcM$Y3Pie5)1biFrobEO#;*fuPKMrba4Xh{b`$MnJ0ag*2rHz5c%SE|myf+w@h5tDD|*4t2-qpfbA+T?@vn%!P$HP#>c zNtBR%+=0;M{k`cVLHESX07Cl@3PwL49Y1>N#Q0GW8=hZU+-Npy&9%alwKj!~dsYjp z;G)=&AEWrEl9f=Y&>l$ainLX;a1Yi{6txT3()J$u+IKE|<^8|%y{|r0921nb{w6wX znFQkiP6j=dw-qFIbPEzDUyQ3|nFZ1yfrX8Rl(C&ig90T8rENJz`|5htiF+hsooA&F z@RLemr($a*6aQmfTQ+ZArD*RtGk0;02ZHw%oQ8_+nQ+6rE2xrNp_CB>v#FUfGN zR};L3rH9PwYGtF|4v57GU*2{SYv&>MLO5?aTFuF-0V{(V)e_;vR)t&aAXx6u1C!Q4 zOLhTZ3}P1vHm4oX@*0-iAC4Gf_&ucM^sJWEHpljw_det#Vv_p{?UEM?U4fZ{9^I{N z2frJd^#+%*gEFsaTY8()8t9vp3$|~x!O(|82SfP~WG^o-DtQs4k=mo(7&pZixe+$5 zlXir83j>cWl=5fKES0g?1nh$OMSpRr=yEW_$vBoP5uy-RF>G$GndG5^O%&f1_u@0lw z(jZ<5S<7c0on4$>n3*jm)E;G$nHe-8RSOnd6G(INmuj-gw5(dS43dE|1-raBct5(( zYB&k(=gJ$@d6lwQ|IfDUMZa?*I2I##5Wz78E)(3z}IxF5`Xk|eaqO2fKMA8gIpc!NEj*#=z>0^Z^a;X#PF10 z;#S;^$vV;|UMAX6$&V9Lw~}rwA+eO?B+*_PD^psnOIsO9g_>n+KtfQhYz;~%gHTpN zRG$n?T4-w+-+VjK$;irfacf^^xQlhIn>Mr8L2Hn3)9p-W-!%>E(Ah^N ziu7?5@j*8}fIg2Qo(;tJqt`hVry6DJ0OCU`zI71c2;S^aXP7D7LBvN)rLZ|P8j_e& z*LbmEQQmm5ycfF;MNTJ=K4(=;ow3gT&S>XA=ioJrEd;TR_7G+$*U4jbjCT^9WGB@z zuEn=*>)dv6xSN-Cf8XVUrmUGl^HA+%=4Y3uPo6jpRp`mni>2XS^z_Lm&dkj%%`R^y z@3D{HV~?*uieKg~ihHlJ>|smUUirD{ndLK!rJ-KRsYhl{pL%3DSn1s2>|4*xF3kLR zX|z{vY5K9*UPi8$f%=x93R(&_bL#QaCzl^71xn4IUYK4u_2_J0+Vm4DZLn9{!l}j6 zCxeB~&MuxlbMo|z6Tv33U6G|%mR#W-&xS!8#nB$WaKf9lb&I@OScUZrLtNOb3V>rk zV`QtvF^a8D6)WBAn4X*2u)zVAp=*NfNwFH688H(|p=uQxC@>N?+ex3ORcudP?WC#G zF|R`VR9mrSp?0E5B(_RySe8pJoW;Yv6|s~!k2=a`&9X~r3AR>O!BFgy(LkaTRnbzM z6Uw=iS1hHZ=xT*pF*kCdT3fpSuBCFkm9mtRxLvtY?X8|rv&s9}j?px0jncqcWy7{> zm1gJ^(~rPa6Su{x%i*@lafgPsOA0e0(4qi|5lRi}@?~_Wf~Fh8gTpcKF|&<^LJ$hjVdip;=n5@Luf z5m77&sjYBFhp+*Wql1kHO2IgDc|YRuZlZ$)1gtF7O;R_1kz0#2YavUz5m|Wlek?_b z3=x2wJz31iP&v^{)jEtrGGtB|`)5U9gNndTKtrmi>pnh~15qjC&sk3^D+FYnL#`U; zS2IM(v2Oz(wO1+T1COE0-8S}4W(8ZrcGXqF{1%>-#Tav-=kz2rm3iRGNN@{>;T`XL z2`$PcIP=NbK9Y7qD+;In$d||j}U_}*Se{@))w9LtS!1&TYwYg zuvkJ|3yy?gi3MIjJWa!LP=$_7nGS}*0AQgzU!g|dvmT5s&Q8}?E>yuTEA`Vf%{8iK z4HM=JLT=-($V(_CPk(Hhq+PK zp(5wx(bK1<7hZ0wV7&`nQZM{&hMxALg7h*7+zou4>DK@@r}{9B22TjkYf!nX!QX8g zuz9;^U*A{=c8Tg7u3Jzi!h90UndoDBWRD!cCHCN51k$sc_V$}B#@<5Yzn5WdDy)A_ zAng5Dm=#vLfwYe-*h)fGWUmG2o$v2tx4+|`B2`KHSaNcjfki2+AJUAMHV@x?aCUt$ z!Hh>xWe+oCmJj;cLKk1Uph`8@RdIR^)Hz!h~VR?nx|kVzKuenzsu_PVwPZu*=2r$5A+QbH(=zOGC#zq-uzI@ zDsz+zQtp=C#HQWfjB(Wscfd8FAh;LCcWQpaq98D&oT2hs$5ma}rg2X7PQ=>iR}#S5 z9Bmu<5Yz}Usu8ep^OOi`YZmXs)rQUOA+~5+$qqJ&Xn74jDQr0jMItt4Y+uUK92A4P zLC4lG#x04N{tzwkJ+(t-p)}}{<;?ucXdG^pFkiqhD*SofPD;6gO?CBUGzv~;apvrD z`4#IB#2wWkCxSZPGAH{BCyFo>6HWr}uXb8}n6U>-`qy|lkAObH7wyMSA)t)cp7n27 zI#SA#{j4;~FiN*;u-4n9A!}v5-JfJ!T3uJ3@R9{kJKLr}a35egoSB z^_zux*>JZ3afo?wZ46)C{iI(ozPEYj%i~+$98-ar!B?oifEfp6Q%3UEZYWuVzV3qZ zLTf{E66Hk}6t8t%!LFl284;%1f>g(K{BjPpP~GRQ+fe(1>OrM*sKw~3#Xv1k)PQm$ zJ8F5Y;us&+taJx!{)UFofLklnH{zYb7Qh`~CQz-BCs5JPbgFIWHN!BKHRJ^hQ(dFX z37ScTP1;ST$_5@PQie*K0jQ8d8zJk1ooF-Cj&!2nDN*b{pe~a1pXtOTJ%;oc(qo;t zr2l*;F6nVM9jXvX|D_I$38*K*dfG8F>ncmhmDtX&carj4(tQr<6G{K=PD;{Y)|Pfs z9eDqs{1-cEsV}{)zH|qELCF7lCnL{6;Uv#xI`9-i`gc16l0M+3b4hZVryw=E@|LW+Lkp!bmtQ`%bb1+D&&BEa*;9*W&YfMdJ_uCm!>>Jf2*nzghdA2B zZB!u~Fwz}8z12=yzmJ~o*1x;F{*^MS^0&+_ zKLSlwDXpRsnJ5heVqmqUlvnudBd1GA6+v*qdko?JVoSYZOMzk-`7@6S7r&7Vh!V7n zSU*Kz6OcPP`vMAO+t(;tKg|MUm8HXbvC3&`Ozh&IVwb|gSLt7*tf6)(PnH=>foQod zns!HV_h6p0PdI2WiN&4RrBzXWIZ^qUfWH)VVdR~WORMV_YK{Rg;Y0zwM4O4WB!b27 z)LtJTTiqQ=;OrW*-;CEbpl6AT2IjEKVyTTeEc<8bV}hSCFxoM#5P(V7Qz-so{2QA` zZWTkVDjM!HoKo_N;!FPf+|vNCoRD3xRbp&RL*ABX>MlH~_dGFV_^2ZJeC z-nOL-Lcs1XlkFt7r3`hFfm(C0$M;$t?xeiZX5I|d3V zX9V>m+M_0|^KMPuvFq?NzNYF(b@#JPcnpl7)aah2r2g&!Y4f)3VRtMuXp=Z`d%FOg z8$Q>>V+tiNApH)gL-)HS?(7V;3rM@mgjGj=54gVvVdV+8?^YOsC$A!xczQ_TDaP{i zNVx}f6>q(+mu)Moh0xYN^5^Ydv=Nc9zSkWU&N|X0CfJGCtEAMC>!Alj3P1g{qNI_f zsWL|;E?CJla~O(02s6do7QW{32RHETH#x?+`RON|=(!U!XBKCj$h7>VVWWYNqqaxS z-wA&(_~9L)+ryEQ(CMf{3-=c`Ch(ms7VaxN52qa|^Jt}U-mFX=Q@@ji`wK^oY)dO1 zpRTW8s1%RFulLC0eegy)a!gW=9@(&0j-9(uEV4@XsiR0k>~S=;J*D`-^IvA}-=M=9 zJ2<`4va0ucG3oBcv2*8{T0}?A!GhsMkFMG)_o*zr19CTt4}4SK6H^ad<@0`%$NO4*V58U39V0n;e*x`b049$e*_c4R z=gx@ns91Dj?ofJxDNGW_&(Y6aaP-F~FoU$rMAge6ldtO}{CRR>Ze7a9B{P21cdQvd zibE47yrSXIEnb~gwb8nQsCaxTpTf;M`bt2fLSMeVBGx6K)#h=Oqr1$h6NOp>E{7|% zcEN7duRvxk$S#zPz*85;E7UHQ&bcDYS-*x*@jkVqmA$R6CUW9_@lUb%F9JBjl9eg0A+;XPra^R#OS;F`sJATK22kWavJL%9c=B4|_5nI$>PNG?9wi@(d zx2V6gM3}grq5ns~&9U`;fMQ<6Qpc!+%$!(VsBO{<05vKKH8w6du_q^1#9uuD>!TuB z$Jl7tD^7GnNCJfgRbm@zo9>KQ)zvDzMpvplDgY-z_;_No;fz*%<$ixg&Tg&3QOK(H z3R|29ypHGeqXgsFDs4NHud)6XU!-5)5g$+JmzBT%DN3q;8>MIiG$5<;V`zDiTL)n8 z$!hU%mYzRh=I0{xLC^Ug6^p|nl!Mfi#Zw1hFQm#~KpQi}U+6o@Y!2~5$VsCH7vLAweY}9ntWY!mp0!(iCM~6JVx0AaWU%hJ#`Pgjxb} z1!5h;Hvzr@alJd_`4nSyp_E5SBJY_1t)D}Oi~E#ylmfa{AmCof`d0*>BlrTrR|v#d zI)>S@KFa9F2%aE#9lA0u8A5P%9u zj|V^Dco;U}o(=F|zl_{x1cXU*m<>=m4w!{^dq1k8l)X}3l6`P8t{G{iTCaPiB$Z;25iw<6we| z1xt!t6^B2MQVvZjRk|0QdWAIWf5hRq#^LB0=wvv^ilC0Txq+_GXP|St7_`guF|nKI zuJ$w_e#!4&e_QVR2ixj1+KIYr7Vl-9im!oKCroFi~F_TX#U{T>+tG1@yGQ&EN*3r&g7{~;JH5Z@fz%l=$SNzOzW%zDy| zOa>#8GZoC4y48W*6L((Rb0o-PmhiRSMIdN*Q!M=9D^}A>uUJhXkdq)FBrAW@W{E-a zJ$$QA11J%|H3f2WCJ9q+0@*(f=+Tj9f@|5N8<`A7Bxfp^Gvzst{bxL18p4CBzOs9O zIIvFK&bJkG`5elA88Q3y2xRp;AxbKHVpPxTIf(xB_K3p6n;*~h@J@{%_!xYj8xAAr zXW*|TK_1YDF=;eJVR{B%`v{tL`KJ<16c7EY`5CBHh^vdTH-@a&yKT@~=-D7ox@$^= zYs6Mmd=%h$Kpx(Dt6G)tYcReAJ0JMAE->7QS$`MGSk;Ph4|hEhu;wJiV!OfxNP33qV3h=0Ky`12okoAPBSIi?I>Y?jq&qcwX#O)U8 z-I%%8r>R%YOCjU+$@;fIlF}$of{-cEziVb5$NgU+A#%iT=ii|nrFi-G4E-hmyaRml zE#-IdIhfovbxMqF0at|gvO;m4ypvRS7XVywX~`(jwV)^2l?MH=GG==DuBa#ZDy;IY z-(uDOk>Ixpeuv<934V{@KM`zOy1#%l9dB*VA>g|egkARn{F3kxrN%+G#=%b3&B=GNl9P3Fvc5~mag2a+T8Q>LEa03> zmQD-q2n}O|Jcp1x!k$A2ZBm{?$OyuoL&zw?-d2G29nT?TKf<2#$pM7D890crI|F!= z`tEapoU6Of0&?EF`#d1$@7;VRP~zuzp9|#t^6s;NoX@`OeEi;?^YNt}^C1f*YW;yb zA6&@1vp?cM;?0M*obk7KXrZ*pdnPa3Jv+)$YClyDoEXKc~t& z`q{_b(3)(Ow~4XuM)ICre8}sf^#>^SSFUc>tFDyuyiCLkMalI;Doy#NsHEXQ65L5t zV%B>Wt|%&HP^HjKrLQXGtFry6rEO2aYo-4wab1xlS$TKq>{Mw-XQxWLbatw=y|YuL zZJqV2>UB2wlwg=8SJSk?Y|$gyc|r4A}!tyn=z#+ zf*VL&N{M`-50t{)iD8e-gmqXOnnsh!_XYG5}hm=OA z!BZDVT9BA0agch>Rl@dVO!YE$-cqp3PMj>vQ~dGIIN z@3zhBp{ta zx9YF2DtQ|9%dzi*QkCpz`&I|S)xih>`n6y424Y9G#AUvcRb(e|brCy!jA811m0I~e zhWaafh86NyS}CpO_$_ngrP;HJfo9yKvT{I7dC{{=r;E{24(L+B#$h$!d(E`-+tT2N zCwuo&^pZH>m5fVpu~Tl?fi005UFt4Wx4F$J4FNr;J+xG|;R%*_hTuH})P8se(+7Mc zD)Rtn$&XLDanv*^y%SUu&+MsQTn&v35(nJLi50T1^(z=I`!F)o5geR^`812`x_C_& zw=)OCL~3ZsA8Zz04oz?FuxEXhulA<||BK*j1lw5gJCXKxID215V6*47=F`O1(=~J9Edx)sC=XOvAApqxI~Yi3a+{dA zZ&$Ft!JT4~28UlLkzsGWuGvelm+qE|!;O#cv3N(Clr>zB zsH`}IGdEZV-ct4C@<&7pO)V%@v>eyC#Q8~&AAO`^HCoNu3OquF$B*K?pIpGTtPU5C zA6=e%{-EpLA&9=smE-yBl3X77DqDGa*l&D3QYfGhB!`>(Wo)2*3vUwisQ47q&Jnys zK#vSdXOSjD;{e6D;%-tm@0%6Bf>P=N-om|Xq?E*=VDI9Q3>K3Wo<0%p7I8_~hOy3F zAm(xfW?kMsV^%Cvo%gnJlG!)*{{s>jT|eW!lggqJ%z?=AxBx7#>p#qg^%oBrxEcaN zz<`!Fa6`#+5FBzjc-i6***FwP;`~7$s(cWd z!5%SybQCdIH5a{zm_$N1$GtMhLo1|GizsDM9q1lqAY=-|!Lt5ZrO-X5%6})}0Y?uIa_~?-}1tA8-j^d?x|i ztl2*7r!1VrSC$9fM@zqP<@$+pI@1+lH0(HV2h#K6$`yTS zBHRm4g^eEs?&}d@WY^mIkdB)$pXL4xx+%j96SRwHyq1s5(xA82rDK=*WiB8 zdn;`Jr2i2U=;OaDwtkWt6+dmhy=?t(qJYZ=<1qeX*@#Q)5x4aLzjY8Q`X7f5+U@=2 zk4Z@!K$CvKT=+C`AdiBE?6{vsnr0eg)ZL@pr zB5qt%onLcz*GS-gqj2ONvnZawh)t=OSzE8$fE?us2jVCrM({mW|*9Yi?EV%e&!*(fTYGp5bQTPj7bED}-6H4Gn6A=cHrEfx7t-!7i~Y@->BAQyJrxJC z*uNPaaL*EfztWKk`#;=&2CrBRCz&Grg;fS8nB+HRhQViCk=F$G1eaw#?I1i-1`bR! zwKa({Jb22yBu+7@r<4AZ5N*M+z~!Wb+QAtV3}sq|uo+o0AXO^Hq3#9POQrthq#4@;dZCeV@EcKVcnWb$hxlSrj z>u@I?h~;q)oBw=qg2c-HDK;TS?*Lhval-2*f=~}R34N( ziucTeWl8eBE_qDNTHnU{HpG>)$(1h05Yh*&7Z4lv({a8D>GFoiMSJMih&uJcUi)dI z>g0-7*9maQKHEbdo+(xM!iV2K`cc#%;NnSPO>9}<`Z#|WAP z1p?U0u$v`+qO0b`A>V(WlHE|ifByvHI!^v6?_`|!6aRhE!3c$VNH5oi@>}?KIXhxVTx#ywh_(j4h=6Qc(Br?&|sN z%e?jb?dNXUZ(rVPif=7B={zE6_hBxp}9xSe(P6GeL0{=Xyb^fB&}*NKQ4Q#q$?&j7aXev##@zPZIF`17z>hz7u~?{X?9GP(WRBpT;=q+9Pnh c!G{PStbi7^tey>LjnF%@6WMI&o%z=P2g4^R82|tP literal 0 HcmV?d00001 diff --git a/__pycache__/ommsystem.cpython-311.pyc b/__pycache__/ommsystem.cpython-311.pyc new file mode 100644 index 0000000000000000000000000000000000000000..26985085d99d67d6d08a9795987ad68d31cf9398 GIT binary patch literal 64929 zcmeIb3sf6fmLMnz2?8WQ0s-PLj4_Bm82^p=n2)gyw)yyjKctKV#s-ND34bV&neM8Y zrfNOiWUXtG>~VIhdYxJ1X69LHPv*3HH|wlxx_Uc%PSrUP+F+%P9`AalJGZ;$OwW+* ztl8Y$>7Kp!g(4IY5(c}R^*LRExbfos|L?y0?!E7O>FH@2c+Bl@PyYF;M)Q~WAwGtv z;mNR8qj^K)(zvwKni=h=R*PmGn02E%ttJ(}lBSbJlgL{?swZ#5sDZqbN0Z4rWi*An zsZol&Q%6(DJ8d*gVQ(BYk?-`;4D!w#%_ML0s0H5o>8xQ)Pd{yrzO%{OFm0W&j#^31 zlBaWKaz}HCIb}L;#x`o3$sf(vYIK@jjf?t*#+B+Wcqd7tc@O@DXS9&GrGcB#U8Hg= zCT=EhOLrHm+)9XB2DoL$xs?((Gq_pe-0ZHTA&n#JrzSCEJaPG|L&v9f_`NeD{;6pnpXPJVI%)9N z)G{6|8hJqjlIMvPUT7vEGiMvBM_@hK4%^hQ|gWfZpexp5Tps z_spyt@;OJleHgjj{^gkl&xEhR=bWFKnW}R&^wLh(9Mp;Zup7!m+q-D*>}BuGh9U3t zjC0=Jf!-QAhQ0lDCuZHA{(gnoJ2T_E<%2}(XK(QtkjLRzdh?YVRaw2#V;%r3aYoG5}0*CA%qX@(HagHv@c8 z(pM6ErAl9V_#)FK+Du_yu(rtKf>^G`zH|q{)&-$uc6wq5@yqOziCv1qjv{uc3cED4 zBPp7M^dNRjKV9*aq4>%azx-vQNdsZ7N+l0kV)ikU%lHn|@Ox4%E5H2PV?O7hypRX% zg5-I|bWF;am0yZ#VwqRT=*oQlT+BnuDO1#H{H;>dnn1G4oG*PU zeah=d6~^+EFj7sXs#D5(N+_wuJt^fHt>&D@lXNrboaTm>v|Oo}MX0Sxua9$Qj^M2fK&-Fz@%d_!J)+rob@RefZY+w3|1K zlNb2u?;7&EXMKFij0@&@Fr*K5%O-gmM+t8n>^|xBcYECQ-ED@GUc2ea|<>Z zJ%fFRhx<+pz!KHn)5E6@_w{#=4Gnjn?DZOP%%lrVuHB)g4x?>+W$_lEDo4LUeuRsmo5h;?ELN}nbqL(Hj&G0eDOW#m)Fi5aTE>7SW^l^;^@ z&du`K9>kao|<>_DK2k6#=@ItoL9Z{7_7F@Is%(1kIH7&=^wu$_oJJc;i;3;PCw*ghBrgP zLPehz>X|qAW~Zn8ynf0v;pLN{#`u)$dz)vc=X{P7+6+}r7A)%T7$deKc%?`3i{X_KDJX$g zrud4w+3dti^p%SNjFE!vf=}{VPu3Kmbw*@+1HP7Su~b=PTMaSaV5w4tebpXfzra!z zk-Gh8X7U^?RlQDWY?vw2N;PPnqH-+p?t2M0s5NAKc7PN5%ZGT$L7958ZG9Tw* zc1@4%kbRCSj;P*`vaEM&!ddm9ta>)9k;`ffXYCGU?OyeOV^^=q=Oy zS(&c4B1wToBc4LA=-&qeV$oOOEj&SK;_gd3GWHYY-8b-s~Loq za3KgQnO$*d2s?xM=99QPu{%93`vi=gD|V-S#_jVtC*5|x*Y5MXymNx9|BBmVci)`y z*V9#y`hX)@7)%B?O?zoR31%Ib;fQ}8W($al*Q0lbj*Lc_f`w?Kh`cb~3}fhJK2tW> z(4rp_@ZswBn&z?4SMozt{&FQtZR4nI47KeMWxSIn^dOchfX>cP1!zYtS-xq!V_YPE z1nC`@S2?0bq-h?2?Hd}u%nh1J`cgIrEJI|Wg0R?_k~!8e;6rL8g%7F0z=zBn3mKFe z2xAu?Ws^c!%r|*pKdyz{dCCm6pv65ebRDpdAu|g)kGWjq$K68o*{-3J$TF?Jp%E5p zzl2_q@<@oSvedgY3rT)yvDavV5;`izjPF2FP(n=Q_R3r-V}|lb=&LIU|Kc`}uzxPs zG--VL8#*D+SOP8lk)5@Eekd(EYujN}a@nD4LT44$RQm+&oqDT!=g5z^Zi8 zO;34UQ{$c9o2P~Ko32MUBZ&vrqsb``eVW+x&CGgfe>WK~dN1rp$(qEcpPiW=f>@l> zux!%2(dG7uU%Z}nJ6&`Q1b66#RgFZYo4m{$raZHAejoNLtPNp68L>jfgtE@(#DI20^t_bATh05h&@_iS7~S%_d&yH^)3Xbly# z3abGw1nbFqoL}o1Tq=0I=x)(s=VIp3Wj)u|1-9~D%F3wDMIcCL2+(b50$==YC*c$_Wh;0iimPCkZVJ8`os!Ow{K zbD53Ybt5w*zmb#No^0=bSZMC3)%>tFtz%!(5BF*T{ws6y;mo8z$VU zkV74#nM^i+2nN+;ql1A96G@C>0)s-De&kb8P?~Na66pyfDTkC6CnjkMO1w_UV^xQC zX^~np{}X920Exp#hE;UbbViZT1NOsnG!6Li^eww{77#GE;H}>a80%ptJ?*uNUelz= z2Hh{uO#uaGza6PMwUWJzx+B@mf*~l2?s6 zjB89xe?B)h=;Zd3kgBf_0E{}TCckE7@9KHh*1_32$Vh`#EWZs)nO#81eU%<#io(WU!_V#y22Vv#zd zMmgDcslJu5&jXERLFt$9PM)!fM^bWSbOanoTfAl;`Iw^cyH z)YUfvB82OR9Od~k_249IEN{-zhvw^IT?P7$WJ`C&RjPvHy%-oFKGdFV?2&z>(n;mxV1Q}y8zdrkv&+eSY)#;Xf&gXX3J5m4# zgx#TmMk2E?q*BE?@$pI1u-pwpF8Cx!K|~7EFb|}{eDX@-&FcD?FW9)Q=CERJ0eDUG zD983z&NBUG{=NLyFWtTL_P9_JpA7%_e7OH|sQ)tC@8bGhV9Pq(9KaoJZik!AaWAGl zGG;8!f3xjQ+p;rcEM<(PuuA>z(Qh4vg}`=N3+qez87-_Y0Ko>}romUyE zgw*k0|Ce_^gA`7-jmvv2(iE|;J-GuA4qAXJ4>K`X2v1O&^+g+eEBl&yM7eY^`pg2* z922h*$~a(s!Ca6hVAyblko?4rFbPeBT}84O6QFL8|M#RaEF}9S)Q%vRqDM_oqMb=r zU{K~!8CRF);=)2oAUPBtJBn6EYQV38Jx`Z^! z9b#O76X&{g=nqnm=(*8vsb9JD6S~Qyg;YfBHXii0mD z0{1`U1+=g0?i37ZXxufy{GSF#d>)|OdB)v*#(+p<>%j%#T^;QKPrPw6M#LzBvXw#d{R%|ps{{bcg7uv6TWt_Viy44bFKyQ=UotjVV7;0xBl#6M*2sxnv!Z^#p5ySSTzUuna^= zm2Q{40(N5H)n|t@yI7#V{_M(ME`IdIUmbGT$f7{|AfNON1p5H+=}^8 zu?ld{MWY83EFuGQGsKUNH_RZR5SAK0&FlTQX5Bm`E;2MO1T^AUun2kQJT5|@ppT%1 zal$?0j}k5EcJ#L&0nTc40{}i3vT+y)v3}YKMH==(>ezCQG-20;xFC(F0^NqbEiU(j zb8gx%BX_1sbW}cd@-mP!f#~YtwNt!VsIW0u(gf_4PnjU=tL6taQ>7sasD7M%FH7y?sC^8z?~yh4?$PC&thI`>RxPGJvg9uL?|vbG8f%lCH6ivE3Lxawf2>fnP@Y*iaq z)y9^$bLH)9X$M!@!De=HnVstzU3zZBY`tp?o41F|+k>ZAb0uf444Zd_%)3@y-0lI^ ze1bEdV9X~X=A0$Nx&Z>fcCn~*`Q^9E-*&GYW%e9lYmcxy`nVl^?6#xawxev}F|P0! zL)jEGMh`;=ex}j9qV3at29*Y{bwK)b=kY~rFQ8=sfvFdDpKCM#!2#eSV-}X}m^Na| zX9}vByqXmkSKrBW4KsBk%-IXv*;(dgnmOZRa{Y_Fi@lHK-g+Ls%+&QUxknd!9~CsO z9(b7k$vkuZGFvdt6^!HV8MBxfrs_jf{R)tI_i)r6M*KYmxnG1P-wIh#jpi=^TL4U) z(uOjiz5V+H!Plx0j0K%vIy8k@Z&P$djRq*ETfc1S_hXNbJ}&({xZv`Ir^!HVdbTtT z%2bqJ@^nb-aJ(BsTY|Eb#N0qRap98kic4$Uq9fIvbQG05z*|qA7#f4)sNunmzJczp zv5w&r{X>eS1@S?$v>@duy0lo-ON+7qu#{v)my&n2WKN5&8T9KAhkVtbUj>W#J<3@^ zJXeBKEZ9&BbDA&F%JI)Jwh{oaaujz8zZJ_{7V2)z}4Yd-y8;kuAD7KJ_h_OGrlog6oKa^nxbII z>n6teB)@mshfP6dTVb-z$H^A_l0!H}WzCmwp+=V=Hs8Mj@R|k=aZ1bY&4f!DLM07M zV-H)>%a!ypRAEFsjxm-n#_EVr$@LvjwQO-GSKPTcAWW_c;k>F)UKQhLWAoa%ymr>o z!C5-iy3ehRUS?cwcGS&wyIIS`V&|i*yk-5p^svnlvN@RQ1FY>JXFJGdwQ^ale@d}g zM-~r9$|~-cgv;7PW$h13m{TL%sWHYm&bY6zWm8<))M6KBDq+ZPJym0>fs6?gj?}@S zOo-niZuUeE!{vD<9G51#lh@&J*}^oUqDw5`fP@SPPvV`DOQ#$+FpbD|Ux+&@(X=kj zQqsk&3sBAlJ?x$I|3V9#90>Jq>0$RGn;784-SB?0GW0@3k@`f;_0J^@u8p$BU(USG%wWCvx7 zspwmyk?)4DN_$k7MVXfJ3+Trt`HnM?qjZ!W#!keN>jSrjV` zS-fqEkmhFynXl;6SsRCRWnI%_stW~*5SEQYEEFnys?d>zqCmDhY*0oQiIq+fL#}IM zzMG?G2l@2!pR-g`0fz&`+zzE11ple7A{LXH z`UI%4bTGPQuCph4dWO1(ztlF& z8|ug5jAR&(6Y&soOgJMq$9(s693DO~$XjAIy+^wHdXEgtqwE>%J~h%kaQGab7xOpN zak@L^kQH-)_=bQ>X^594(|e|`YxoEpgGjmV?;GeC=sn)8u>lhp(badDH^6DC-${;33DtlgfIme{!I39J`jY0SW@%hc3BE_ag(lpa(|!QF9+;VY z!u~!P4wBrkS?@yotiy9YK;wpi4GP$z1blH39a3DtujF*WED!0C0ej@;n37f{c>ZO|)#S<0Asr!{OW3K@%*$5>+>XRKSbhK#!yC?iJbRV`wfasrr*ld7D6eSwT=3<47udXNF0cB7J#1d{l70i*-2COLVAH)CHg^Y?yJN)? z%B@~Xg5#UzoaLAA*t`z7} zgPeJgF%N>_Q>#5_ylz8Tw0eVeT_XWgmI0Y7WU$I) zs9o1cpvYh-UDrq;10+tyw9MEPdu|GY?Nx)SRKrz>PzG~r3`Ogjcp#Jj^E?j!(j(H~ zpC;mBk|w0#!R|Qn3ocJjkd}`d*`O4$-0%*3yeC<}A%TM0PY_WM1W0_?767g+zl6jH z6fK~NL8>u1Bsiu{m7n*TD ztN1t4$Ke>;?-seHVkgbek?Iw0{~A*9eFPvX>w_Gu693`j-2AtCUY}kx0?T5UA`FW) zLFWfa-*vBauv9%q)iYE*tUg&*&Qcyc%v!2AOVwgBu6_f^ZPZ4Sx4X zbe_?x=b693x>L;`kI)XmpTmEgs8PCM0LF7-C=6i?su;o|W$DQvxcoK@Ls3p`5e12~ z-=I)d4Md2ZQQ&A%b5lEN0v?YvK3$psIy!s06@o{IhLRcJe+9#Lv`W^Pcfc+-?h})A zqQ{W>fZ-h=FTDrOgqJ=cD}PQtct~4>Khmug z%L+CX=~M;LWo1)ZrJBA8yhgXP5+A|H4{AJlt|VL(f|y#|lW5Z3G$*Ph=XMQ>_CZIM zVoy8_)SOr9gCoebtOE-YI}SJ^F&*#g?HG9RMUeFvtl|xp-ng%m;^p| zp|>VF48e);iFg=tfGNhG{4gYHMY_U#DdFSYZ@kJ?q*>h(^CeGjsZSxa?{@*fq8r;3u9UEOd%3*5i>8P%k1>`< zgw~pdCS!{aaK#6JPk3N);BnSYI1Ldvxt4t2JaOm5;)%y_=A0fjmxat_!3Ngc%$b`R z^ZtlXaR2)Y;fD55L;J&0w&4`la0-gfmJD(wgAgGEUOWN9AeI9V;3+c#VE@l`Vsg7D z%5e$dg=d3tsG3O;PIOy}84Ee3>daEL6c(e9it?&(y zwDyMjColS&S!~Sqfcc`WNp@(f5;aWz*E$2fm=a~y*Y|Ber%S%u? zHs8tRJJ&8>W%I8>KR>z%e~E?;_W$^PFQHej0fO^9Cxys$dmA{yU=2#ZjNpOu!!4Z! zs<{!90!a|79%4;W_x%MuiB%s+a%twY-Xz$-!F$0#5G@H!3mEACU2!J3`3k8z2T;

pdoebF$7m7cDI+f3}0>8|2HdQ)K+EHAo zXn-NVmFsVf1b4rA@!mz@8z3n!or<|I@Mc7a#%IPr{MtVS;^{u#LXXe-l~(#|6XP>* zwBnr}pP@0!3I>{N(v2ie9)Tc&tD$hLLKYaZ)cgTqR0D%}PU*yq+F0+8E>Zh|rH0pg*%Etz1bfE_;tlwk@8B*y~n@8T&q_^xQ)e zGklh5Kg&=>lBBf}$fBlHxAsxCZP|LSIGkS{%CBD8!{+bg@^`Y?EnIdB(0433Yqna} zQv1Q#)tBEr&sz2ZOOG{wc{|G2)r1OaR*tX*ySRc~(W8*=h$Z(e8*3?B?3CxZhPCbH zY`ft|Ak)TVZjX?@_#pp(DgB>HKgnkI^>h3Bp(nCM16doc;x;o;mVVt z%9D(Xj=24iv!ju7=Od%zzy(xw3Qhy`Rc;V+K!|ke?F{*?Td+(*$>JA(6um(N|49TE zGZ1h9@t!R#EGh&RmUrFl9$24PV^Z*ODP#zVl zJW+chR>4L{f(rEjp^eS!O^sNfSi)xMsMwblwt~Q@&=EjjHcv;*s$|?k7&Xh0X$xUg zj6J~6w0YjtY)Bb_>&`!s0yWO z<+xDBfC)mGRQXo5^A_`M3Zz3^>8c#4+CMG_>46Lgm7xly>H%?~GN2bpY%m*~^JoE~ zhCU!M&p`eH8Sg+3dQa*_!iHW#s?7tuEs9j19_kwgCg8!2{_ftv6C)>w=zj?vcEP2=GkpYJFg>Y$O zsI-x3I>weB=So3SVNnF7Uuzc@tVnW{BsofwEDM{fLS|r)C!Kl!iM5kM%F!K8w=$Glxst)=?%{IxES{F3*-Z6*)^>oi9auaY z$;rQaF`Tm_l(Qqaz~=1Ya&|3_$a$BhqYOC1i6i|vgKu*L8^p)POA|{IA9X+2@%{b}`~S3(ZRvwTY_Dauw=7f3)DJ2iQh(g=al=n4 z+5M-W93|z;GfN{&BOm3g&V9e=!=kme;k6N9WEo>e#@Mzow&^7(SCM`B_)^zW*9Y#^ zu6M7!f9(gAY<N#XAT@=`Y%Oxw?4T3@MdH;9B)6|9esV4 zl9X`_b}a}&T1yQpHR%op`@nJd2^;g9Fwzu4+Q^qd_Ao9OCCbxb-~vIH=p)DKpF{W- z6+}w01@&UA@;8XZCMk$yup$QxiG^<=Hi-xa!naB259}mzTJ&4O23%Sqe47lyx1wLA zn+`-EB&JzNR}j8URgE;!YGM)5I;a)5=eWFddLDD9?#yA*#YBbId)lHnrUhw6BO%Z zUPYvUJT8?q)Ph;AeFXX|&W+>=$_Oo@om$RB+4G4s*B>od0_MaD_BPb~Ay3sDODkpy zJXPXLnG5CDl9rxU$=t+B_#A01WGU)MlHZBt6=sDjWgb)`I$;=pWh{o6tdAnC=g4h* zKAu&22y&1s=8Qh$ZxGFZ450?(XROPhEfzjzQZg+j(#)brDMtB@MWIpm5YRm1QRFsH z5yzJ5@`dDfYbh1TiXs^y$H+xb9(7AX`E(#p_Q$HxZBzPN$bONd`{Lig*v?Kow!fO% zRhEYS9;8wz*2o6B&hx*ToNUl5W9#%UbyUm7;TA^+(aiKyRqrU4>K2cM;~wQWRkjTr zXVpOOkmEb0aS?!pzawS~>R;hc$z-pL6%MazA@jIs>9e%DFAo{467ws6D@%n;tMORthA}$iF^T2`G2)S8;yhK0q2%ubF~s4e@)%v&m~X<_ zR6Ow4VoXuPdK<4F>F+qpCy#U6#1k$>2ND~!E-UfPCK{as|>hP-S0_J4l zBBEORTqFE9IqWs|FF}VR@pIfcbJ^u=t`pu(_F8*YmCDZ1&@nxG#p$Sq%Ll5OYCxA| zRUNUZuA1|W*Nt3pI55g+sA{l-uQQO8+QxC<%YTcmt*96lGuScirQNmS7s>8i-N@nj8n_!L12$(p+72tAY5y zT*|&KH6OTz;iV)S6e%8&`Sn3!;o}vQQXs#NzU)QakY}(YOem?924}YDt+~eKlNh1awd^VouT=l}8N3ye=Z=mx( zK|mv@LGVuz{5FC`1m8sPEd;nXqbC3W*O7PjR!p57eH1MXsUW9Ca z9mB@xinSQPDCn5$Kn+5?5zdl8yo@kw@p@3|y_2xI^C$@|+DqbRKEm0{r+SZFQ%3ddDM9kM7NB-7hU1bFZ$ zOLXgn`tbc_GGXD$%v#h(vU1^W2m;L6Yq`~|xq8tMNjI-$SF-7qi@Hb_VVugU1z*;@ z#Z-``1GR9&(xJ?CHm9D;sb@1AxXgyN<{mZ^WPO0!>TYq^vMprU7TgO=SDd95WbTX> z#z;<@cB7>68pv1Y>|5+v?0KAHTPti}a~c+V9zonL>1-&4&28jz8wJ+tMFYrmXXhdp z7s-rFzWowwtmTZgjB)Ry+`{Fqd;Q^}x=>Nwiia&~<%(L_+(TUMp|y??Hg{yP7h>7g zqXqr3>pD&OsE(mZ*LC`mLvWYD&(bvcWlY%~X8$R+>=ZLR!In+1wn@%536$G(lmG;6 z(N!U;Y9)WQm!%GJ)Io+ixE1@n)rz(K{cLkTOAT<;07DJPLs?howdQWNp_`?8II4%C zdX%m=*7h7_8;-KnF^+T*sK}&=$l`h#%Irux&4Ezb%?VLG1eiXzVWkCsIhgsCa09N&Q^3w8d5>GBmk*(mi_m>7B1ZxD&4u- z!ItjkN_U4#4~0q(v8C-?X*-+Q!DV)UB)g>arlZB<}A)!&6ukNjg_g8m7ke3 zS$Uv66SP@0hVmLgDFT<*%vyGGmYpc^3)1ocpoAv#oqj>^_ifio^9sG%%>4Ef<~R)PUu#)ENyQn-eYsbN+7QOg7U$7v6nK2Cq=|Is`g$^U49IX%jqeu;5j z=1z~ZJ6+sP*P7eI?)0#xS|busPj2eT-+QgZf1*HxMGmq#9NMpxv)G$l?S`H?YkvCnm8e(<26HZ>hs~Ir21x@ z=IXj(HZ=(=NM$IelFe~&Ie3>+q+u6MWet5XcSi_Za%#Ao8kVY!)bEVBRE2V?*qmxE zry3OWN47cEKo|SAR^omRE^mTa9e(kAv$(0kgRdvQ2OHk4YbDs|@J6|Hf(;zTO&-|t zB|K?XZbXQzzqHX4!{R%EKUlNlp9KC=;(aBIkJ_R?i6k%guTB>Z;$&M~ay*CH86=Wy z^vF&J^^%ZWkEh-VbT>#uG*Eyp9iOOAw}CrZa}^nR$OFWPa^NCP3MM9K%6ta&F_Os! zx*K9-5j@|Hd*E;j(5aXzcG8}SH{8gdEuHd%S*k51u|_zlr~fZV%8?_eAi;JLFmq(O zqTzyI4UKnA(3J@K5WI~JucGPSq3JIXOd;q(@K*?SBlr}-1cJK=q~rQ`1+|{!W!bEL2Pz}s2wa-#ZgrZRYh!2Ap}bma#SHG z1%=5euRzci0miKC@9ca%XOV)rOi~94H`}OTi2x;;0B=t zAUD-81WSYr<|d^hT?x^E zu{jhNj<9Is@Gm{$V16s zI>1a9Tw*y1{;1yG1L4OXPJSwedk}0rg7R-XY z?ib)g#xRsvF$LD3q?qCpoN{o!gAV*+6;miLmwcLH3S9Z|{|T}>Kc_hE=8_01T|vkS z1j;N>1}9F07qAhr!)rj9g&tSQ#KipstC;R~Hc?KYQ_Ji?ta>OVc?h3+^0UNC2&$k% zC90*NNe~njKbwD{a-%U-6{IgAjRbn-Q&m-jp=oI|0$jc4?FwZS(Za~3(qA~o`kRn! zJjeQTl;q#wh{3Zn&_E8f5Au_XkVdT%l{4B(@^UH^RQxv9&oD$yqt5)OJ}5ptHsVo3 z1%5^cJ$wpc`Pi?Jq9v?OxXj69@e{Vu|AwW&We-q|go1?$EjN%hB#I^;XSKv>t`Nl& zu})S%Jn;})a)>KABxbVjf4zUf>%r0+v8gZr4q4%P)D~AN+n_ip_;Z3N~QN3LfKsAZ)`=Y zlB#Skrr#-A!m_1&sA}tludk{4Tp!^AAmVs<=f8j;Q zc~M39DMl1UI*Lv+Nve`F5F+l7K zdCcJs9c%Os9pO$kJ*jx%L{sN#hFf8pqpCn(i*D_ncS!sv>`xVtCT#m8EOu2J)CHUF z8-kZtEce~tHA)V`xcQghecrZ_8Y$jLTpGtf>b5ER(Io#MF3ob6=ET)j3+X)br9(u8 z%8Q#a{$AEeOD7oeTg`df5Ojanbl)U=1AI#3|0#s>ZHLzyH z>Jx~J659yf3!OHmI8C6^2wV=rr2$B`X^vXp4i9ckM}?z}xN(NzLOz=0AH)TQOU$Ji zG_@gNp56h~#aket5Z@SFO>o0YyU13MUdFn76Mzr#WZV?CM~Rk5_)fGflrNwE76ZNw z#ry&$hQ|r{1fE|>+hbela>{bb+Z1c70yQu((c0A-L4!L;(?&AwOlECFSmX8`4evV{ z+INyUHO%fCK}p@B(`?acuITjInK8C#Y$^3|3Fx7}bK)^sMS@-TkA85I-M$Bw571J> zp`x0I;L`WO6?Xe>xxKh`7bdxnMjkYM|Llinr7h|YZo-9F!anse@Jy&xG6E62$d2cE zwn$-V;y1{GUJR#~gwjiv7ufVVF1?OT-xvA$ZOL5pVEe~);r+)#`;UFn&+Z@P_K$}5 zzZBXJ$EGfJznk0dhRKO7o#09*)+W7dsTZ~56h(gBf`ULd{MIuy8T%QmyL~DcKmFoP zkkARfgg*Q{Gy>fH{*pBNZN8^e@BKk}&uax+*y*Vx;)v3pbh58EsCVxR$wbc}==~#l z22jG{()VT49=swU>4lzQjE}!pbWt_ z1my^}Bd7r2Lz)I4N75sZ&XF%brp<4|n$tlo`6A#Mu%sBJ9B;z0wQ{!B#Z49S0RoX< zEb8-n-f${CfOb%VAu@0>^}TG-5w7USV!ud)N8Of4gjeebd~9!6^)vPZ>rf#bx`z$S zxrP#APY^5VTX&MyS-6sA@-rngBQwgLeIS^bRUDAFA~Z%5o@A*JTlr@hG}1Xd_hS zTXk?G4^KkvR#~wX9j3Xe zbhe_yG*1;~D>_Wo0{2^)G4fUEY-PqMP=)!;i~-j?E9)d~4EZRpk-CCG>c(D zL#tquDcGR)Rz*~T3RiWgAyp_)=Bf-uG`bQiLgPq~*=9a2v(0>h%r^7t%r^6?%t}$k zGAj=yWHuHmn%P(=DYMP=KIjV$i$E*EgP>+8WN@9?IU%RP1K6_i)*J;A)AOj#+uU zAn+NzU;BAuD60yVE=?{?e&l}8`+d)cp0(~#cK0Y0q_krBm8H{5r$5^DAou&NAGZE! z9=r1h6s5d|Dc`wtbLr*}avt3LxYWJW{gGkS{e9DirnN&u zYs2T6i~un{^3OQ1uAGQ1E_))AZYAFNNJ!oqnd?()AIkA zT3+4@&S*6z2V<;SAJ%F>_&c*Uo(_skiR6g&zlZr5MS;G#IsHU^dx~}oVG_t|xRS0x zny@M)qr{_NrojXkY3YGMGER=;o3f)ya&4~xSdFDaJWx`jq6Vs|bD$~~nV)rPdx%$J zhbHk-&ls;B$`1>h@FZ3mirSj}l4Pc4E48em3aNHZ$T|{zkY?eR$y&P7MB2?Wrl_I~ zZIa@%l}5GmdwSeZpRohd^ml;umHOhc8e7h6yBoE%fhz{fKG$|~f*8v-)0mK^NV6SOxu)8NJi=%L8jyVjxXtZ7A z$V`PYkjyv5^E9?da;6fRB^8P2l}WUJx(&li1nS&8fr%Er8# z6k~`a$ZzzfRyi}|bCvtIu-wQAhwP9AL&ERjDbR;9u+qeVIuzIY-Um*uzMU;d`-ABLw^mf z!Jz*HdW-xdTjtqKo4PJBXn~0mggi{>ZZSh$|cab9XdHZIw!gZ)s-#MsN7zuEcT2Lb13dhuR zvH9Ixe)nQV1WvA_cg4wU9~<+RheO6P##k1-wCWF49AGLAL`+$rq=?KT4{-iq^ZU4b z)KZZV5r-L!r=L_XCr|x()sL&d%oYrB1w)t!&Ogr>2u_Sahen2=YUqI{vak11{m%IN zWZC-DTs`m*USsR8txfxx>o?fx8*KfJM|I7sEg!aqcXow#c0C+pcaCs7N7%a4TpjUT zckNM4BdEVA4mWj%nmQl0vQ4MBrc-RqAXhWEHZ;lBOh)RO-XC2zYEm7afgYHBpCdqx zFft%a8#kfBe{-b+x&A>q{vg*q{KBquppW6)aU4NE0GZgdFn-kcEJ({}?4E_+!6|3} zV~7(1z(Nr$`Cr4*h}RE*qHee?5LEeUWeZ;%j;nH4og*(Ksod2U0q9lkaSVg5WW3UM zNk?ab+Iz*BH&B%&HnO0E-9jm(=N&M;7yE)@$Fz44wc!5_Zqm~QCA?Ph3I;{&5@x3G zp}Ng2D8tiZ{+^Zx-w!}@$uBSUR|5K9V(M)H!!Iv&`Y$&>lW^h17O@`o!ur4lN}HwK zK;m0o{4tDEb5%Oge)b$HcO}X%*mvM)(_BT)A@b08qh+iPB&|H6JHFwn0L91xCC<%? zP+O}x*uA~sz(EmoQ;2&3otD6sH(r5K%sTy`64b+|`MtDg zPA3~+z%z-eRw9k&!-hdj6CVNFEC*C~%nAB(e11>_;iO$-B$#i^?*%T-8S*jTq(ncr z5adn7NACjwMoY@Ffxbjhfuf|MFOq9tx_tL)utd;;xoC`9FlD==cc!I*)&t{jY^94}>ZYJm_F64{?=;!j(Ot z${x1z2v>Q8&FSNE`qm8)0&w132vZTtsR+96UkmTpAKJ11K@+>9mD|x8-q9V}(arAY z<#zP4IY+phBkL&`1~ez;qf*7~AuG`1J0A}J=zO^QT&VjTGkTuwzQA=~2zR?e-7dC! zg6p1OD<)X$Bxjvutdmjles#!N{Xxt7`&NfPJRjcG7uwbLNg2EAIJfIKThq_g^t09h z&N{$Y2Y_32sUJ@Y0)PkSoQ12QitZW1wuX=m)c>)zX3o~kkRRj;_7&h%8?x1|oMLSa zoUI{jYYo|2AGo+fr&-$>&US{eorzfUm%2YI#A2jqGK)w9u5XVj&$ERn8MTK zp=uvlazT~h*TQ)Xp}Yn*uZhcRVlB;_r5V)`9tGkzLP06vv9PHqWGY%d6MTBr7aw6w zeVnO}A;0ycSUgWb19_O7UK|<-DrxiqxFVVUBbQ-8adop|LVS*icS(2gTOc3u{AipC z<$QKD4sLU)*uwII3+rZ6|8wLe(bTWHLE#xwRW7syA&A8wN%+HjDn07!kcn1$2}#)i zp^>ZmlMs$)uOnq{m0y6+V84^86I3BIiIEOfD{K*=QH9!2C84BTP@Pw;W=ZSW{&Q>z z)H&D!;-JjKmeAr~U_XYI`%N#BMp?`N_41Tn551140j{~sZ;ng+A`vmvVzCTiOp6U{|T z6aZkN*+p-(eY*{Hf`-fYgv$3k(6Z(Gx$^zt^3G6sCtKddm3Oh(-CTC}XPO*>Cq6IE z_o$?5#rl3>*wGqtv_5dMj&{z`&X#m=B^^t>a+TV7thI@=HZj(wp9f7$dK#LD;#ONj z5?}9r7UWw)0kSS=8vn&2#V@F|fD&7v2NW#Ek&hZ`4`C(ELA9-k(E=HVE*e7jZFVn@W)QGImD-HFoN>R$aD#e(+GR2tv zmQz&b2kP;y=cpM8Nmk`EX0Oa=%zn%H45+RsgPi^y(+5xmTqavsb1Vv)^)xzp5>6)Tl>8f;N9bXnb(jHz-+-DhI2A zAxe&u9hvkr+L9yQTC~N39HNw$zJ?~`P@vyNfZG6i27w0wp79Fj-`~T}6#$@rj2!u< zcz{v}dSC>q8tw}vf?5utj^PDA3KCj*JW4`NgXNz70`U+hA)0-fmAgbQH!ss{);2C{ z+hU495ZT~vhbE+lG)Z?fRD?_w!5gfpkux*# zt@}))+1ssqwD;hHVXn3R6DQYtk{LYB4PIu(UEH9XnY_kL-e7Lt;wItexQFa{PE}~+K(@O()Ht`%$c)4?q|-A zap&F4#3XnA3cGiT+dH*()yMAjF>?Xd{0e7&g&{ww0$w2%@XA+K0WEtUSh;;bRpa&@ z|HQ=&Tw=yv;s%_|_#`*(WBha6_;t4B2G?=}%707SiRIq~5Xyg;l>aa(zXYG7{LCIw z1$%@lSm4YH4Ee1a4XI-3pF;7%eUEZ^hY1zBzVIa0O}NS8T}U*f#;7M-pl`uMUgXjO z6W^u`ckx2M%G@jfqv4j~Q60*vnFkk=q>>yR)raJzOGC%Hi85F*rA%+PZ z?%|Mzvw;Q^Ro>xHM`|%ZA7u0$b-tCQfaUVUf;Lro?7IOPBH}A13hR?X3W^ko#smH3=IOF0;R#8Bu7D&vx>Ut{c=0eId#-`Hps%()3 zYQvUPQ8<+0poi|*QcD^XJ(3EfBy6$D4RfJlF@DZmBr9@}5}*?2f}k%MFPz_$eiKGh zJPTrHJSsBooq?0kvFlD+P~9TON)j=gehx^A$Z%S8jv>Dl?OQ`Z%bTa~fl||`6WTlz!iYmrO7G%%d%w;!i_fFV_YMqR7 zDuV@b0@|x8Tn=)JCVVvuU#_VM;A;Nqe}!lM&}k<V_Mc zCK&DXK?HsT!wAT3rVmVxRDss|I+%$P%BHdCpcj}@Q5+HYRfTzgSP{LHgjuyIHZeq* zSEY%9H)EHENyG0Pze45?VuM&z#h;Xcj(e}d}u{Vjmk zG@p{Q;|;b-4%{j^6k8?MRK=O981j28Ol8CGUkukB3e_EA+M)v=a(&QcGT5~f~+Ee^uPj&)s9 z`bGI=dQ40ALnqgAggJVixp0v?dI_??&_3=ZV5Ysv%)^!`wqN*SU8fa7zmfLsG^X%8 zYreplFEHZoi!Z)NoC9s@JmdhORLyv6Ak*0Ku#9W$VtURnXU}mxqs)aF#^dEK%rZ14 z&zf#=rdtg8JtmXE%J%o`!qo>t)dv{3gtPi2SA7!Z12%t%%O{-1IA=WF&!>eYaFydi zxU?};+Q>BZu%*3RX)jxNgeyG4P_{=;cP7PK1_{Y(F0Y!k)Nqy>ESHy*&Z{ilYQ}?? zxyBCW@DMWsyWJ_~+6-&*a3&8!elIX8n;ytOX`etQLS-zVV^kux zLy07FVr~+b5pMQ?9`~Nq>j=lhW}!?0{d0s$4;cJNx{E&8`=2A0j6kv?7O0o!h$S=5JjaQdU*Cb&e^2ZJK;;;d*o_sv zRo2@j&qx!Id@FmsiqA(PzQ@9n`B3WD@u9bv+t@)u4&+^;>TF@|P^nzHo#M)q$Kb;F zq+YOv_*ANuqVdUNkjym19kj^nLNqH|1Ne)q;8P~vD*8)wm22$sQxd;)&1fu4d?*sX zRqjJHt8)@RvY<}zW=isaS!&Cm?7COcU7a$b*<#^h zrUWs>jU#!CE-R)&C=>Yu^kXm!rz@v$Cp?H?2*EId5d^0ZfFQbtK8pZ_(dbbG=Mh{$ za1p^J1Y-zZLf}Mj89)zB!9p-h8vr`;g=<~k!ekF1XhJ|XH!chS2y*mpS2up%z|Xx1 zzK);NrIDaS&mp*u;0A)52yP*mNANWS0RTQ6B++e=^b%CAyb8|q1xi8< zkqeBnWSaq7@ckPAz_OB?FWm4N$;?{RN3wDkQv_hnUdye9i^3NTk#zG~b|sr$xu}a| z<*eCiSK&n+9l`5tPCb`X&t^7onGI{rJ#1zVL<)y6#bL{~ zkY!sCRP@(!mfFSSh|vN%C{i1d|9bc97w=wNtJufp>|5*s$-x}kT44j5)3Dg{2x51M z3My7o1jcUG+{Bri77f4yot-OXC*idPk8%q^oVPz*R2KqyUJqN;$`!S;xreyiLu(x) zZ0^WnFT}E~N6Szp>pD&Os19zyUf1d2o&c)gXK9-JGNx<~v;P!Zc8VFEV9O?0+azb3 z1X0HH=#}18A*yO6f3=sT4sz5%hB~+v`@GePwf+5Ub3aQBa19=VL-i;S($~GKjsbd^OnU2|8hcqe#MA4?tOsG|&ZRPJh9-Hqw)Oq?#{ zilz2))Lw?#D-Tt;I>l1$9M#TH?Q(l4^&0G~T28RkNscmG2c;n^6C-9h#|Z2bw_dPv)K0u(2p)EMnl2b>mLXxRWuqp@L#i1zZLmfv=xj z(jfQP$QqkCV-sU+jg*#?ixI%1$;=rG@kq1fvB?}ZwS-J9tZ6rA+Rcz3_(->eO-&(F z6KmSZnRYU!ozYNs4CNr96wZPV47DR<+9A;fpkjWNE_446FjM{JGIy9hRgZF&BWFwr zPkPk;5?$sF*hpebFpkX#d`c`Q@(jhLqVpHT+{q3cuZNfLx|kba42iFYFOB($35BWm z(s-9*j5ij}OoZ#<6XI5KpU-qXd_tTn{;ozSUqYMv<`FA^rDW<^09M7SP4Z_C%i z|1GYuZ$n)Pc*I|z3D?wTzbKx*jVm>hHpmh!EYE)fpRz0AiHx!0N_aP}&xqt8ODWv8 zj`A%mRlrdNuq-`NUkMM>XqZx53BQ5OR<49E4N;{mRR$X084Bmp)buc=ye3{m7)Z{x zg{W=811#0RQ4I{$knj%q%`T4r)RN6v%7celOBH9S0@MH)G6#@U)Fi(%z>m+2WvXSnGP}JCtpWSv($Eu+RjkhNnQ#=RN?Zm6)WdB0L&j_EY;6Z{fzh{ zhXcT)jEFFeJ%~p1S-5-~@6)Bz5L6;SEp{~N7qPqJW2hg&`Uw6i`h5 z6Yr4!CuoV_&(L89fG=KyRu=xAa)-PLZ;Y2fQK?}T$cQr7sjW4j7JC`IpzYF<``;C> z3;Q!08A8Ugz}*%;qQXOYfhWar4Q(D|7y-X?g+z^2s#FD0*kW z5|sQnr+EV$wawn*b)H#1b7pSZKQ&8x$K5_3C*QY#v9>05%hJzED#zg~CynNL??x%6Sryn8s_XtSu!TlNOxMVWe-TX)BmN$1 zGF~Hpk2Tqh_={+4jQERatc>`JX!05H7ts_m%3pjrA8VSJM8EZ9owgr(YGTNgwtPmM zK9_r-rgd5vkBQ+@@@K^5bGiE^LxvW$?j?px`#{hX+&`DQ+pi^&ARE7y`aaVT*UyF5 bdh~T6C6G*lZv4Wa#PxIGwVvojdfERE;tA5a literal 0 HcmV?d00001 diff --git a/__pycache__/ommworker.cpython-310.pyc b/__pycache__/ommworker.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..f563ed73762bb2b7748b770992b278fe750b304a GIT binary patch literal 11285 zcmbVSTaX;rS)RU3PtSE{FIugxUR~|+MY5d`LLwZ=(n?lrtz_-46}KJ6qdC31Gdt5g zI^83!CbMxsCKN@K$_o@BRBE<}AxZ(o#RUWc6veFyiUOXfI=oQDL&{X~f*&Y&z#386I-P0i6X zitC8$j;-soaA-C5G-sVz#-$p2n{&>bmbjDXU16OJYl zjxL@ShA`jJu&PO6y_3MIri6_!DbgZ?&=OgZLzohIQ9x*m2~k9t7L#HMVMa`g8H8E! zjF=UB(Na##iG9e)i~ZsN!h$#`4k4Tnhs9$Ei{g|xDvqJ#q&O~4AZJRP6ptgE7Eg#0 z!Wr?TcnaYjp<#7StMt_?S8n)n!fX#;62 z*}ep0%`TP6bPd34R|m{>lYsfI1z6}NdK23TA{b1|UQ}t%7jD_BG~G`2i8sYlrB5+b zW<^%lRW@k&VcBapZ@Th*4KsXS2T+A@UAh$!#F$c1(kiHYt5FG8ec9ypRHmQ2EI>o< z?ON5Pm={-8x^z{l>Ni`phO4Z=#fqG7nN_s#OU? zS9&Vdtc2BdH+YbcM}hd?8>hY1;B-*w)S9(t#OX`2BHEz+`SUL5T+UyRe(R>cd3woj zG%KC?b5!i~xn=*#Ggn)#cjd~CI7S`~?NsZovdiU~R}0H!>Lxe|U}^n7Tg&iYK`Y{~ zFvz#GoYt8d5aOwR6II%o{*N|@L><#(2beI?(}cFol+#Vr^`5aEQDUNQ_L4*kBe|fF zy7f?Q3c0C=a&6?=59Owjn;yx{aBo@U>b)qQ8;L^z5>+yU5JbGlaFXFvjdG?L&T!5i zhO-R!hI43XUvEEg57Yhuqz}s94-fSYg@@{g@jbS!Z(-(jy*>|k1fPkIW=V6R8PIrX zbTq2`sx6HB#4|?)l{;EK)^Dq;Z9@T2UhjCkW>)V+96P!MOz&ir>OD@ONP@qtMU@O% zl{=m)T)V!wT)udH;nkIe#q+P1bY+27*W8d8Z7o=qIc!zKm0;axJ*vd#*~p z+IHIr%GIX0rA!dxEhPMQcuQr1TC)vKhQucxV}Y*hO4tO;R9%&B`9Y14fy#jPZ@bmd zmw_@`7>d#ILuL2*UZug9tKjZ(3w+xSqo|z4R3lzAXaSO5OL`$QBcwnyGi&McrOS)U zDuu9o`O>0FU6X#*4FZ+-!C1{^%;ZW()0U{XO^h|ktE0?2m0GB#%R35|Z~Ee{+CP@r ztZcaP1WUR+jBzO~V8)NYF&gP1fFH*fyabQ~3uYevbjt6u?`SxM+@k(*%?2A2Q(KyC z*qW(zW`}G%Dz&P_zWpD?NnOc@k0e}C%~wrYccxtrG@2%#f9saUVo61Pt(YF_&gDsgS<-M z#|WGS=uhMfWsFTEL(JrQu3Wpj3iJmg8fhbF8?g;D!`TcAR%!VCAI1CA38;sUG#zN+ z!PLwy!<_YgdWp29-zY4~4$0-yHi#dWTQNlyf zkvZ~?jm&XaaCbs`_J^D!TM{wJoqy@&Ys>NmT6hriQ?k0g(F(_Rg~^LCw^25*0isQL zn83Ky4gw=>H`tL2NPMIn0f9lTlhkKoL!6{PYk^gLNOsZAl+wHJ%z*58U*zX7fCpN% zQIDd%XkWHaDj*pjO_Rh0bot265cNexcg%HE1jtuWpP3u%5v}wRa^#x?#=1^Zd%SdC zChQ8pDCZ8a)g&y&M@RET=Q|d@KlzMP*&Qym)!(rT0lB zl?p$Y;8fCWw!*tC?pSz}^7jK*UP5J+##%IM9;CH0>we8sw!2vitFY|*qVcmRHolbB zDlE`o{g;3W$VfI>Ly=&_--j8!PpX~baBZV1J4lq+k;wEsJ{CRw^;`m9EMfqsflyX0 zC}U&fTS$x#Bm-P*w0w&iq1G}xxMNsg*RExYTD}E_bHdL<}VWhGd5#qXeGKx;j#b@mJwV5Eekz5PBu{_QR+)`9O2lIdI@SSdTT z{3FyN>Lq(-m*qwrH)C$G2D}z?SYOo`*H;!xncX>tlxIYC2GJZ-!!yW>rH`__NbK0& zx(hqkTf?ce>iZ3jt=HDpalCAeQ;h)fFR_zbHK#`Wf1D?;O|9 zqW&*DqJAbGe{L}9JlA516b01!=FVF2+$OlxG^etn$f+Ea6oqKDM$3ilML-VxZ1o9z zyi)hDp5-D^#rh;-`0A6rDZpuJ4Iz9R*pGjq{Q4eBe--q+MwnuG7I3fp4~hdjM=sC% z8Xc8-`*36;PAc~H10E35d;45;uzu)5;`8|}+SAG2Ve$pmk=KQHk-QkU{u}ANU(@6= zLdcW0hWKlU!)?v+&xskN9t-CQe^28O`?qS$Voc>D;nDiB-f`fLY@=rIe0a2XB1*xy zq46KVcVJcL(kH{mkvb`6?~#;y0`X#fwpR+DM2u2TVMg?~_dfiak#R&4uK$(h79ES6 zY3E;Yrlas$>}9;{33t=UUWh!4lu*fLZPOJ_`kHjB?6U40i=4Le?Eu1kK5Br2D_7?G zehSAtzjEPR=g5wtlr>&Z882PF)|uZ?4msn+9OL}86(_YEIZ4OL1NBh(^mTXDg*jYx zJ12KEKFA-h(%HY_VUGTqSL?W9Fq3)mmM%YlR~{Dr0-t(2R{7aeo6Sb2Q1!yiuzVsY zpAh)(q)!B=PXwo+Av${Hsgfao4zfc2EC4yJTvwEycBcDFRE9)@1m)A`1QoISyPzh~ zRX_3K-9-#Q{v?$!f>6pLwK++E#iYr8S5lxVb*Cc9O{FqR19y|WMs(E>C&i8teGcY zpr}=8AuiM;_j92VR<6f~72I>&d_ zIU^plD(Ra3uYkzF2KYDVo=#Rk>ogKu>2A6QtwOwhBjK5m?tUEyvDjqnn~p}DHsdfE zhl!rP&Dx&)*d#9?RdA;Qh)Xy?3oS)QG(8H_iEbS0T0MIk&ZBT(Cqy~HMT9u6ZDmk0 zI{sxu5*h&-sh6W(zNUF*HzO?MeGzvvC`-K#Vx%wgJ(BrmEYb5llKw2wyziqXX~nJ}?nq7TNKJ<`BPAhWd$SlVd9C-d=6H`{y*XZ&EOHX^dtGzT7q5o* zEsVm(DEk6q|=DrccnUX_0H7TpT4$d$iHrO4efG8#IKO1660Tqa9cC08LnL&;Y1 z&l8^I9dg^jx|;0wf>}jgSozCT=3N56PJmpwsz4I>{JLA+Xu*9Es$z7c8Rp2(P}vPC ziyJ~*SkScvoF<2nhf)5uN?~mWEKb5$8X|ES=1E^88Z? zy56%tj7sD<6^ZGnd_gCpzo6MBd0?nihCY-dkxq_l;1E)Z;*l$x@Z_^0NOg2Ahu(4@ z<`B<)sQ;yX7VgFo9~mj8!7WP3SX{>4{zcdTbl{J`UBpVWbWce(MY*gp<#H3J8r6fz8ww7d{Rg z^y$(+RuS+YA}3Y1qlW+yE=(U_6P-nhzR2bnJRR)NIEz-Jb0-@|U#27(NAep4=!P42 zbA3ZaSsQNScFlX_G5kqPpnQ4P~mh8-r^I?WAOYWoR}G}SB$Yq!ba3OQg<@OT93p|#aKL685_-Xgu#drdt}|2K?%ejSz^zi z1Y$dT5Omq2i}bJ_b66(gFkCxSnm0w|xqjq%m8>*c>lLN9*Oh+fS(U@}H_Un*FZfn` zXm-?Q3Tze+^qU|RFgbMLErVy-5jO97#yP*5qg(MnPeUbfO+VT z{rEe~fBUtg_@nrUSOD#QRI!jjs{^v8Hz-(qhy|IaO{g1nT>O%N*wQ?*DPbqe10wQz zl1PM5TsO9K&x-R>>pJ^6;+kDun6OgG0|NUG;V*c&6uHal^_5X97p&$_0Kk!u>h<{v#4j%Asf{ z8g=%N9Xv9C_;k+ZabK;;f26_wJ%N8B@XrK34dA5FcDYUO5MdActKoUD0JXLdy%Qk4 z0YysoBHM9JYBgE|u=sP1-hS4Zs5J2Mt68hUFYqF!>{#t4@ex91D<@f@r2JcIVvL_i zXMBbDiOmu4ldaEaIUNUReUABR7I}1-J_>tm4z^nXxDf?4%3DJPCI4(^S3~~&b0EGz z{SlY3Dk@6KD;**;ZM98~?s8e`RNo-*s|2P2;Fh@?$Zu233f5`8U`zXWkY-63yM9x? zNT>-s019h#%)px)IB8^wa_Mq*ja)WXWIp1xQd4E3_$l}|R5p&c@v=>lH3V$4313VD zs~Qo_1aHx)!J|=0GfG}x@^985Y}sOCCCk$rS@ywNDEmxgmcD@Xh&CVx hk)~^BVF1Gv#)8uy3~e%n;rA%&iMJDP7vGr4{6FQ>shkRZ??L5igK04a(TNRhJMwq6uPQV(0AWQmk4+A<8WK@k)IPz_KI zn(||6YQuH3V_M5ZwxfwLF2$C|%37(o5+~(Uyt}SiWolB}jcpZBol?T=#@WpNgpQ{w zQXvvvY&}2E*T=M}4eW z$2YY`gW-mOGjPT!L&P|0G@{!CZqumAXmFsSZRBkqwUak9 z%8<8X)Ir{5qh;h>KI$aziqQ)4c8$8>ZJA<+F@MXHEBp44w{@yAQaM^lD6vdcW#hc$ zZJVl&)Qr}UIQ!J9NbM+8z+^aJ;Fup9I7g`N1GB;KG5lAa(RvbB265$~`n!dk8$nP7)GKgc9LM2;7do zL@Y9r2v5bq;~I-a6QRqANH7{a7vjgVw2_x7>-pvnz;VM6GK?BI!>Ea?~AfHuw!(2li*wsrt?a8NsF=W>AMTs>C->71Mkd=;DPAPgRhdS0a(SY0_f#x0akNHsC9$vIC|vBsThAg#19RR*){ayu))Ut#s`Gsu$eOi zXf*M`a8e%PQ>&+7(rzJf78P^O^7_A+vv9^bH9(hZqMQaBCT*&lGkpLheN0QcYKI)m zx*TZSoIRGeLyjkcdI zHw$N9sTPnX*UCol5r%;D&zZqTTXxO_KBro*IV<=osLuvI7xfvEZq==Qe*m73X#h@7 z7)Z>J?1;v=P#_wNgl5avy})((cMvFBg8bNoTppi_B?8fz$k`D8E9|ddVS~x8!~`D- za`9}8pXHG@xng=Mm>7@o5t5%=rg{%?FdIV`!($ zV>ET6?#EUdT?wFW)cqYwqr6z99^d+&hEbB^(b_&QEp3jYKYCiq|H)cS`9JZ|6@d6y zm44!*t0wVPs&Qdl)2nnouj(V1)jD5|&bLbSB{r%qSiuaFblFSR=fZQYd>Nr&_9E*h z59Ec+n>_sABzCH9gJBXmJ9!d2R2PIIYbTE`6nQ;)J^)_uG35tWVdd4#S6>!M_X3O- zH2~a{AApN0KfN7>B z#k7db8i`pWFl#amzMBW%8+vz0Y*;TftVhH;f>@Vkno~@($h1gIi@>xzh8$O|Uc7wc zmFusFt2(4r9YhjhoYz1Is!uWXBGVu-4Fc1!R9(0D+>IBnzbIC(m8#bQT3N@i|D0n4jW7^r8a<+=jHp$s0INLH+ zs}{G<4=vja6`r)SE#+(zo$ZpdU2wJoe%jfUa(0Q%Zpqm#IJ+}d-i3`ka;Y&K%Ibq+ zCJ|bb;JAScq8ejJQlXUwfg_)#K?<5*aiKL|6YM0P}~^b6fN5X3#VwGbaXz zPYm}B5BjbAW}t^Zir`5Az-ML>{8Qk{PFsF2xU~~kcEo{+!fZ{1W~(&QR}Bmz{vZI@ z%;2|)SuGW z+D4>}EkGIHyRo%7Lw?Frq5uF@%2`V9kbc50;ztmm5X56MtNqjmZe2f>;bIqxhWK+=X1%$N%7u<&ijx4c zJp~NZmtuU{UU^vey`1B;uF7kZZ${sUimoQf)iiI;xGU$&l&+%<2j$SNvq7`}j&xno z?k=2JFoSd5T|7;mqAWKX9WWb@9X)Y!@bE{rl{=iwNi$hW`908>a@obuRBR071z5bX zWkHESR#uQQpyNT5fOu`k=R%`^9Y^rJJD$$lux@@Ub9s`ku&~I&?;(sc1;qS*4G5xl z%d*=3gU=ir=FdPKKg!BN*0G86(+S;lC2W-h=d)E3coF+-^gH)iFX{q^Dp8sF_L*6$JI%l z)X29BCv`6LDh`mD?>s;>+`O*wX8n6j?>32beyPq6lAsIJkT*Nu>v^|FtnZZSJ0ZxO zVZDp4q~(@da6ch1PdsGo{JyT!46M`2%svgR&Y#8hM=4Ha!w&45f(cCn{{Zp7`|7Ki z(9jcQH(b|UBI}b_-@G;B_Rc$%4xvLE3j6!L`kGggg`Kea9v?h*^!V`L@e_negHYT8 z?Il-?&G0;E2SC^jO~++>cAqWVvwLsZemOCQJMTC)Gc3Pq&sX45%ZH|8JRBOtXIJHf zFI~h>a0Gn!W%w15X_uIGfoac)&k>PnlbAMvY0HJ36PYH7X%f^Q85#SFZ(!h*7S~}T zzv+8!VvutcJRd-a_G}8upyJ`~#HQ^I1gL41kCzM6X$km-{ z4Yf^HBn8zrC#i0+BB}{xM?yEdY>c%iYTclVdH}?Kc;0>5HfU=#KPqPKvFpS?o+#wx%ju#mY9R zvTfO5bTpzu;psPr-WU>{4U)4#a5gNP4WK|M#9ShhvHK0T$kf3mN+7DIYh`JsHpSG^ zJuXgCd)~|{yRpcH-a-QKkN~>DT_w3&({6vt?HAo$lDkV_x*h}BJjy*l z_%?X)uOP^$+79$_pqQQYug#_1ttoe_=x&qT$U`3^xny5ol-x3) zEvt;qYvgR`9jxSQ2s!}hPEY9|n1Gl^9|TUrbS-c)%!NF~)k=E4bi$zYfJK?q3{W4O z3SSKITOo_$9a26Kj0eW}V0}3dl1?898{V1eE&S+0Iz9716zZ82y88VJu!w zfz(t&8cV*U1!?FaTJi$?h|8(E-8LT|8SMPYJg3n(53`}vhA~%r1`zhoZ|Mvi30A~*;9!0k{BQlK= z(D&0L5D72Xxy4SC=&n-ja!332Pj}rHx4R=yV;3h5$p)y zJTMUoWDS#S**BAjO~+tUa78WytESL7J_zS_%5J_FDw4k<@y8%=wlOze^3KliKJN>wHv@)fgAN6seUurp~F7DNvhijZnA+_ z!{^=e?!u)58;-~iw+U}_=uR;><9X7s{EwmGsc4_19R_LX0~oZMif{tjLB$Op4M zQq#^WlG?5k$(ia@r-2v+d|RCgPEvr*Z?6gEVfnP6P3sy1nF>_&PohL!@Nfm(^fWQ) zyKFvfxMcKOhsbg#mm^yW!MK~@L*&4F)^%jS2Mek%yUzN{`9Ffp`F{jJb^+@f)+Bfn zW6;(DEa_mY%j3qB-;3ZH0%AF5C1>4P$y~0P=40FpF~JRJiq;A1m3hM&nPkI?gC1i4 zBNP_@62NPQWmCDM7DUKvSKq#na{C0g5A{v%G~1J6du}K0Tou{f61!VqcW1-fQfymt z_|_Sb-7K-21$Og_;r{MBwRgKE|6YM@*JLVe7!=w461!hu_oJA9H0|`IoW7*@)@uFn z-*1*pCZG*ao=H0!Q_e=AsYi5fkenL?=LQf~7Pc&G`OR;B6UY75kM{NK+hq8&O%44X zvrbUMUMI6{7r1U1h*1s%DUWuJEtp>4q4mQ|B(skHQG$*?gQ2*frcI|Gfm%kXHS2{G zE6g8=QON_V^j+Z2OGoEceo2~iW=u!ST5@?=F${92bEWw9naeZDH5wL-(f_WkA!pCF z%=lw!na5p2M&ELzhBLYvI)2A%SXQKlXyin>FIS$e;q#BF4=In;Qvx*PMx?XE5m}+n z!)S>9Q(awL*}C-pP<4UazipPd3uqeFr7Eg6;@E;zPklShoJ*fd%Tsh^(iM(2F*vva zN)x#y8TkQKJ%QV$rUW-ybCCz!lmmiW4K{oL0^Y|OAuqtHQGi9=lb&2?K;zDZC#lJ# ziivN?gBnlj>rYm5uZsJ+*Mzt<=gDd{20|&;Pe2AZhj^5(0BR%11EJL1lHa1m$>o}? zRk5{i&U2?yPa7H+BsJ}u!~OuAIhE{HxPFkMrMNLCU{G^Su4)$2>&qhT(4dx(Gus?6 zoaw#_mmM_JH>p_KH(rRy8G+`~&uK1|wz@6*7~2|qwCn~e+NFwyI=o`^Maom zh$i}SWouLE>y(E@bJJsun`fa^m;srIoLi-DX-Kn9gGWd0BptO$zZ$Q7 zCq{BU$X}aBmm0%)@ZX(U{ruIpgrbJVZJGMtUk55_ynNArSgumu$Fi4G4n?`pWx0Gn zxsXCU)=2nrh?5=1_|O=+Gd8>C6uCs=n~B2?-=}0iUPq4jsIjG`e`KIpae+1X!;23gHF%7Z>p6Iz8nVNNtMH813fwl3#S`L1{HEx)-^uVTe))egW zoB4O3pZFU9(C#)A;{5C7Dz$+Eup5Bg2U?==$Tej~?E~2Z1*x8WSB9W?ejj3(;|ZQe zPRb)QRJIrva#;r%rEI?xTiy<2p9@lEP4+Mp%rn9+yw_J_k zAwC@A!ejelmrrKxX&v-vPBD#TfW{MO&n8zQwXp=8`Gtd1O8cOtZIC0;xf@1cybCtD z!AM*w8l53H%^RVFM+WvF)kP+CJ|Vw;hzW9aNg94)(FS=E-FX zIcKwdIpx_Tcs8v>x-R`8k$qZXpBBh(Non{sDRzy}wpV2PB(_f=zponF(hb{E4cqR% zEH?B@4gKVTm$KJwNWqC$l(O zsatUFgw>7!r|p7w4@dAEGw6}($S?|#Xz1m-2n{uvAPTp<%v`5->@Ls*NX;^fQNX`*~{FW38X}e?4^!C8bqe8>>&jvm}BJ3Jj zs$F+`;Lgy$+x%JL^H;^4N2Q%d?;krM3_m9g2gPG&rDJD>t}(H84C;I6K~?qQ_8Yse z?*?5%omkZ+RdoRo6>SgL%0&hYv|%i)k)Ws8HJQ$yJO117@9yxYXYRs3VKsKp;RlV_ zpzH5i#Kx^s<5mb7A}S2Yxi;-wpK`9h-@OM2dF5W>m$Sl4oWNgPHW*$t_M??`&w%M` z0)MT#D+bZ*8X&~xLpN4+*?arx0b7n6czqqNQ%@PLI_4Zn zh$?&vPokrCRFR!FM9qq_3q)9BVY(v5)TR>g%q8MkO2o64h-WCSIQ;-BmlMTNge$Jr z$;TtNwy?d)Lwt1mLwq(h4qA|ku4)**^K+atm4*jO;u10EY)QIxUAbg_U4m||K+vU| z^+F|RY5Cn<2Y4|43Lkxqua-eQN*h~coHe_xuYvwS9bdtt&l}V@mT2u<8E4C;FJ$Xd(+ziCYFbu)>IHK&3H8mY;}(p(Z_ZrW zc$zD51|{g$2DV!zwT+%eXj{55{{ix%ih>^?FFO7cnvK+VtfNNdkfa+lZ7=Fa>eX`S zce;swy-w>Zu4vGw2aZ+#ns?4pa$lFkixy1LD=?ZE&8#a$k>P}NXCR%bGR1?d+>EH# zwu0*B%$)g7nSR52wPLO!NjJ_aCcgD`*Ui?7BvpSrGzFbO@KpSj}^(zRl7^^HdLQl$JphVq@+zQlu#T%S;tj9M1H3tBlx z$;$PoI7P}o0p(X@%l}g--=~&F#yj;TH5^98$fpLzyS-Kxa+wm_#a0?#^e4~*t!n$0RHyEe+wu`}{-hgd$*Jf{Y2WUW+xHQ3{-k@s za_vukXnB{I$hedPQGN}dd-olD{!K4G44uKhfZz=T&mkBG0Jo~0L^q<| zPp$ypNqYZ?4(=*@9nf z0tM4l2u`5~F{D0w9U1KriS{Ef&c`Ab@P;+f{qX-1vC!aJLk%tv%F*>7p$m_*W$QTT zaS}W^>b{AgMDYTlGw})8qm}}-Qf|!g{|a&b0>M25sKAt6s0!+z2#uYe27A?n%qr#} zxe$H;aW5e*eBTBxf8!N!u#!b?0z~3hYv>j8a_!af3ON4O+$=BGUMvS|OuSdlOPKdx zVNMpjOwRuYbmDh);B!`-Z014v)`uv64j_&)pHKHFx2~UoaIHZ)>Y(VI?^Q-f`Cnnl z!2@`U!;^6~3+gZ9tj+F*BcgMQ_N}Gh zxX=Rj4_((>^DeM|DZH4NW;#+#hsgLP#xF4bCH>v!>N-#wl;O_5rl9nyH?>x|%ceb! z=8SXIn@8U`Dmoj%I9PBtW-4oLbYAa#YyIMS+==@hfWD;c?agnw7u^ePV)3hsUaG0T zF>!t3t;xkn`1X!-m0}hkI-4cZco}!i+np&eD0R1iN+!*2NUeDsrQ#I?wnjWd9XTkiISsM#> zQOFIY1z?dg`ysg})R%T}pnD-a4z-H~qHnrhuDwr-bN zw?hy%_YLMcYG9f~b{%Rq*>$@PrY;c=4r^J zEZa9-DYgp~LQjJVRARRa>~_?JY7@2Gd?DSqBh|P=Y}_R^?#d?3mR~QjZ4%oiux;SL zWCv58Ho-&guCLUTnfk`}{O|hT>AH#9Bu`VuyXwY)>j&OCw0LOY5RBo~O}gl%`lk0f z-|c*7{Y@P5o@VHs8wal+eCz4Orx%_^^k!W&Xb^LKf{j8uD8p7ODz$aF`(nijXug?` z0z};OzqjGt4Pt$lR8QzGLP!D1*Do7k5-;yHk?H;|>__?bR2Y@lG+Xtu6iHc(JzwN@<~C}6GDR`g~8Yq2&i8z^wutQ(gN z6jWL)@vi{2~%Z(i&GYGbVwG7cn14}5m(7SKnk zpwelrT{ckAu)~V#N)5bhe9nliR2(V>B?5J~VYP94#=f{UzYdc4&K|N0sl2NRcS>popv7GCHRMkXmWvdL^c4?If) z%S_f5II=1LN{*P>82qOX-|uRaOZp9$PzkwN$F^mD>rZEg{8YqqbV5Q2Tx;wI!s;QTu)7 zA;-Wtp)wrj$mRNNbBu@!WkZSunSCl4Im-n%!j}|?W0PzRPEAh)Wz)=rY`XM>?1WDu zf}IrDYmqM{jvO5y2gyyg&%}tsUsI~M$p1HJME)xTyAkXJAlnbC#VZadzK;}Nbv`^5 zn~cF8FCGAUHrVgM2dhmZK+~xwWXAv{$TAWMUY2bmXUAgjX=`gAzOpxCNHN-LFhr8j zNTaY?KSUaxL!sgYXyL~#jpD7^JyKQYydvbn9l|uTKEVI=HM5@pAX$X91wQ}MCK)lc}ZYi`kv_N?%q^)uh`uub@zR-<;y4U z4N3jai_95`IU_J<3Nk?gYTFZQ_f|e{uECuKww(U%o2sId%W^l(=U~WFit1 z5tv9py1>r^V)q`Yd(Rh^FPVF_f7$$tX7SLd1i!t{-#;@g?wuBy3leidU@jD-)wdY) zm#$y9#DmXC@asJ-GS5rQ^8)jHUaHfdSw3gJsFR+2=KhhF#3x@8nX?jeR#1P1dk`B; z3nDVU01LHVWXxU8;9InlKewAmS|D}7Q@BgHYK)FR4iqyda`E*X8hz(tkRI~rLg_|y z!hF>fb>*eW#hQp2J7rVfPU)QKjz!NFiNQSThzgzpMog`qIQ1$MO_Q@=DQ@vmygl_h ztrwtQu9~k}uEO5}$gy5cor>C^=-Q2nyvY&-Nqy;w23i>d3UOEAZxDQMDvDZ^=-c&M zsIdP4RFoi4>Z!P@Tl~JQ2l6kh6||%S>Oe(F?O%@I%-PGf8+E-%g}vgU6kMCI%sFPE zyJn%k=WKKKIpzbHnIF^H3AyFQDuZg3=o61rLN@<7bLl1M@`v%GJp3UDf0X%Ils8Nm ze~?-0AT3eJmF4%4uDu8rgiygSSybrKrqPd{tir22t1%%;W{?>^f)CEttA>Q&_OvtjspM)r_WQBo_4G5f_QH%-H7X3j32oMFm#E_Ni8 z2oA_@uu%^VkS|Rue|Don{qQvL@;NOHib`@dp7&}9$eP2GV_;PU$NwKB_J1SzzX<*x zg1rD_2jm@?!N0o$=bo|gL_df~nA@Q8;nESn0i|CH;{Q3~+sBnQ01pV2HmDsw~@PB1GJ>&1A){AbR<4Aaxu$T<)+_QPiOFMx#*D%3V~UbPdI=vx>L{ zro4Nka!}UT9izsF7#PnFF2TLzS0p#6t<4pCG7XJyCvLtXHKR!Liq!kOP=98@zF=Qc z!*>exyBF*Q86G=DjFwMJ-qVm{$NF?fZ>pnL?C6s^`ZTJmwsp6Lq_&;uwr5jq&k_^s zpmaPewoOWH_<7Cw%K769&0r6{*erS0r9E3yo~?JePovVdBk66&Q`?S<+lHlW!=h(I z@{HU+85TX^dD{x;!zn=Ac2e4QQuLgXJg4qIcV6_I2Xr`IbW3bUn%$COw}9#Ki_+G^ z>8;08TaSxdho!B7L@Do!XGf%G1JbiG;n+0k znG2Hl0+^Gxcct6+q}un0?R%y6y-3Ew8PT~$aIRTu_upUNE4KI2Kor9su4v@{2aHO7 z2|-S!_;=_<@G=g^t>DnA6kXOaP$_DluMV||g+R#>^YJ(0Y1Q})ehnZH;8C*UaT(x0 zM^FO*?%!OA^S?lsEk1$s6l@h@@ONr#JQx$iBK!f2a>K{!6Ja#tfKSZAZ5+NEL-F%> z=kRWhO)(yTFY8C-GR55k7g^-;ta}Fj;0=$W9K=QMvuc71UqG;1$$g#!x4y zzl@<#(EpayB#<^^SS6^xC4IG_6$(R^EvKwTI1MWf7i?dXm|tt-`7*``!>mpI4SN}hZ;uVJg literal 0 HcmV?d00001 diff --git a/__pycache__/openmm_async_re.cpython-310.pyc b/__pycache__/openmm_async_re.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..6d8439220d2f5c18b446578b8fc97d2e2b240034 GIT binary patch literal 12720 zcmb_iS(6*rb?yy7W1WS=;UZavMbj2!X++YNoX9k#5jmvkXomF6FtlMQ2nO9V#1I>A zH@F~xm6&quEZ*YmQ7SX3vSMc6DsTA#dCW^H>DN3Yen=`+N*=;gtbE_;MgtfQDcKdE z`t-fG@7DL8d(L;x>2^M!(eRso`MX>HxTIFA!5d!mtV=F55M z+iDb|XH(IAI=auSYZo*p>7?G&oRpitYnEq`x1BWdX?GU+1ITBbEb>{&&mo_4^2q1i zIXpjze8HJQeoFH5j=83lroWH3)k=C$=%{+juWWW(HNW0&p~QCTH|rkKE6C_iv!v?X zY1Jyqt+CPg&p_s7T%H5sYGvKg%7&vm#+w=z%XBQ~~x}TWS{N!WIr5pnk8;3E>m8~eJZdMz0r<7J4BCso!daLeND#27V8|8Ky^;*>nvYub{-A+|in_f_e zp5AJ!>#p*GgV*bgcCFfItGeq|I#e}Jz7gcT>ZU7$Zq^%a$qX#d zZEOa)TD#e-wwww}gH*f2-SX~fY8Lak|N3*SP479c+N(F~&pOXtP*takSrpH@E#Fne zbE@6hXy1Nrt=(u=d&Naodv0;Pz5MJYtmX3ZL^_)CaL*SycT@^v%;WNMAO$@s|AL;; zdk3Q0*o=kYn$&dE8vdB(&d9DzBf(v9^j+)>cLS?!tn?1YgY6j{ub*nPx3=o7tsuSS z`mZAGsvyZSSKZUq6nc~;2+09tgG|L6)_ekak4!qP_YRIvHLfu+S;_(%mrV9sNMN$K zwsl;_t})Piwr}oOeQi6j3kh*mYgxL+{};eQJIP(7@GNysdp$WY`o@mUk{gc?d+F=D zkR^Va?H&ED@y)`(?3+6o#|V3KGz1?h*V1u0E(Qz$+9CR#vxy_FawF_N{DKxq=} zkm{$fCH6{r`ts_fb63u;U%a$ZSzBMayjCt;UR_zQoL^n~+?A!3vtKCZ*H=F~$||0U z-b<5pip{R)7dPBuwN=E%x?pe=HT-&~;TGGQ#l2%J^v+Cl`a`!bCDbv@BS_Tl)F^~n z9^{r6Bw8KS@&l{otL;)UFfo_FzV69C758@CFQSLT)`mXkxF)#;Ua7P1sALv8L;aLK;@K#5FXpkcloBbqGDaa_R zpX{f0A(x^y%gCE(yWCGnTiZ|UB>Q$h@tC%&57K_hF@3vlY^U!+f?>^agG@iod_QwU zo72M7Y3;_#Sjh}jFIG|{m$edPeYXjnhdozrFeNKjcPh26QczQJCQ4ZmJ|gQwX`~kL zk}3@nq#?A!!oX@){cF&SHi*Km1{gMf1l zTetOsK_0eEN$Yd^JY-<+$p;x>FLO<>0@;FcgpB+Sd4kKVP9Pz3xEC^_yx87JeHxYO zxI{JL=sY_%^n0({gf!;Bu{3@LncfsO9xMrFfpT;7uBP%=!FX#>mxP`}g~pPS)w`N0 zM!!`Te9`iXzUsQg`X0BM~%5k$A{awW3{va#%pq=m)tLiq2MXr#w zu&1-*d&*U)s)^}w7H2Qtew|4Ur5*uU)+I#ro@C+j0HB8tj&X43!{`s1tVW#rkS!bss5aQMj{YVf!iev_ZQP*bG9GA8eicbi znIY{hwvX!T|AJEa$r&jbfw6ER(6{%Tm>_eSlc!)i^G#F_jTfzVdi*r=DOhXmR<*M% z+_i98tV-_;62sPGNk|qdNp%VY>CZB~NOFiojx1kXy$T|OQlKX_LqGg(@8l0Xa49t! zO?`^}QVOUGAVIR)fk=0PDZnMCTXUVEG%1L@D<`;xURi)4l(>E+&|9I@qjU-M>w$hV z&>J%QGEA9Hqf%Etfk)+p2PhG(ro5I2$JxpQYxQN+_C5@f$wR2WYnzs7LA=utq2#23 zhHBQIFpU4TtlkG6`T8rR0$l;EYSV=)AX9-g?{phX=PH#O-D)FzBKEVQ>7$O5JV!z- zs6I|YZLH3daE-#%T4!n`OhnJtF-QP;63G(5CLOj!5H`HMJq6rssExk8Gc7Hl zNGR@Q)|s7|NO8O_Fu} zS>>Y~R1tCo)TYvz+V^ewma{uEgW3fhi}O@57n42_&T?8-&*K68~5#scgI_} z-E5q{X9TH;{}na-{X3D0r^AS+BX3&`B18pjcj&^XOzXv;^79v+PB{5M6v~nS>7Bz<^C5Z%hAJ zK6>p+tL;FJBt4gtS5LEIVoSBVozirOu*j@xhUFP7p5N|>e=UP0#Iz+H&kqhb6bH%h z9!k(-Y?J9az)IeQZizXF)Ip=hRsGB>WeB?ijT8EsT+KI?x1{I|eZ_(gAzj>#lQOe`e@b z&W8TBi!G@4@VwBX5}wDYgOAQv9t*evqRq!N_((M)O72KDSHXY8c=SbE4~ zV<$sB;bg&Px%+<`L%pl?Ps$>{vbeUivbek?7X5;M8<4Q*ySTyqNfr{pB&>}<|N0|wEMi-eS z-~ukOIqfkrGgx^J;J##q@+_E!_W(YtdbJS&*a+SK$4ez$5&J;mi2*MbyI96_6REF) z1lES@SI58|-%_oB{2MNhK7i0KWb3^r_8!?iusN-+u<=ilTqU8N2*m@Xfckk7b`9S~ zs8woiqcPMhvd}kJMW*n1q`r$wpG9{a=U zPEWwf#r5S0u|(HrES7!>5l$(-I#C^`3)>=ttHW~prtbqnti*e!bK6Yc?hrZhmb@zc4#M!FN4W}C9s(#a{ zBmT>vV=#pr0~D(1I&}a&gy^K&$zkGDkf=5~*Q$Zhy%rd^PKfj=TUVABKM&fh-YzGv zymI!^>Jsi7wYGvFSd?sHQF1xx&-JCsrSs?4me$LuZhLbRu3vQ#3{W}{A_=os?+l0Y zf=oO)2(|I4d4V0xEl!;Rf|J=HmeIY2;#((bZ5Jbis@2CJimVpm5&^AL!ol2F=r)er zj^UQjnH(f!ydWLVD9DXZNYTDl-y-=o$*+)nhonogkAqK6^MB!?$7v)X?kM?&9M5QaOF@;_8xw5QqJp941cTe7t)3GmC+7=@C2~Gy)6hQZag1Lh@koAyE&A3=?A%qcAR2+T=^DGK>Nk$4}N^V0jloY=t-e};H7OapJm5E=>>zKR4s5u)eH%+m319Y%a}m!2!cP5b1T z1k!fjq!;VDr9O-(DGcMofQ^q)f=Uo#j#iD`r`OC}QC~x!p&ql;k0TwJ?(I&H>^zmKDxkVp%r*od;>?JIL3ol6*-Z^ z$`jEc&Vfi&R)VquygLzR4ugAy%COJ~nG>+c42eGjTp@OBqRhsf)?gZU*nsekrDzAj zJC+hJSq^uc#R23jRtpj2ezu>3hbyt0gm2917r2%V021ndi0-* zpa6Dve#~Hy-3{ZP6UGn0e!RDTgUrzQ;U{p|<=*Xaa2QOR!W}YmFb!X3_PXI+=;xdQPS4f;bady5 z!#4>yP2`9Icwq*-knhhN!ueancZ`GC{w&Rf&=?C3)g$*g+{Zt_tE#t2WFK~z!otFi z(6rzG)uYW<5F4TG7H;i_p=fM!18QZFb)ID39`ru^*wY~o{8MB zV@>9UMdOXsJ=V@Os%py}viBZYNK~|8&gSy13bJXGkRVkdR0! z4vC}?5@AdEbZ9Ij0(cJFF$#&``2pC}PYm$c5YilFJb=RyMNS?ngOuh}m1*&RY%oP#F0fW22w@n4 z`!b3{1dLCFaR~6ea@atGeC*u{#)1#5@+_^@B;Jj+cym`}Y!iPmiq7FLLbBAsP9A{s<4g z#0gkP*xH<~Sn|+=q5cq0_b~tJqnKa)F&jL%xxL53(A2GKZtKDL)Vlf;HhW)t%;86S zto{@Y_uE?aXMFI;4OM^6D*Nov?_z<}U*O@yx^v)o-PK>R?S3o#*Ld(2JNPTsV6JqC zq2tXiKZ}EFj-pagP^b@(xFGmy7oS?Rn}QkD9E*=iaj5MBquCsO7QcW9dyoyw7rOXH zU980NynG-~iO|95yUh%OS&^h;s!h^YT@(xDv#b7Q|KiO=r1I_phn?PJ>)B z$p^zx@7Pp$G#ZSA5n}fT-wXJpJVk#v+aQIit3JWF+}dUawr5=_wzW39)j;UYU|2R@9g$svZ!Ewn9Sep6ohI2V1VUr7b2KtB;S2k{ z6e`;ylQiRkKttg1c%EL`5*`z_2)^myL~yfzOF!@PPoWu}-at4S;5~==$mB@m#+I{@ z(1dT=(?iL&^bAD?HlM^q4GieqnKow^PS@m39%IH$S7ahEsa@IrS0h3=32>WRvb!aF z-CS$ZIX^DiyCr*f%HEw`yDnjt><#HPYw2B^Zfc?Tnsj;7r)zhL9pvAm9AtZkvl z_;@fpE*Fglq9@=E@UoS{0{jC5UxAthD%-Q-w z)cQkWb+1(2i!M77_~UC3tLrE&FxJsuqN==(B1(CpSqI*^oudm?_sWNGeWd#0h9WMi zu72cJ_f3qul10ayei#j0*tU){a2L6->4xbdcij-)2^s>9p)}o z$Bi*#Qr&H8LOAks&eZ6pSWT+yV{W1i`d%8iD9u*p(e?~WL^mG0xVR~1N@_4hHWvp1 zls^uBA|;%@1j0>cxpmw&PB33LD&s?AWxyZB0H4T)>(lkUmuX)|fU-Tbi3N|34|o)` z;*hOEa6Ie_$=0*S`i~6`$u_*b$NC3lV?>axd|)E-W`Hk8)8wkDNk6tWP&&gnUWRW3 zo=}`zD)`ar^MgyH@wt{7YAlovTWy6?2^A8k~S<|ju=Hro(=~~UQ z*2Od!XvwUXY2krMZ|G4@`O`>y;+<+7D4axL0h7VIsey;ZWertGchnl)0*#%0b>)XqSnKkcko zbgo-)t`nVYlCv$vet(0kr8BPYjoqC{o)+yLlD#8k??7lt`E09H-kKa0T^l6V1}bCw zyf5u^eYgKR{i({WqH~+%+?H}~TQ(tvMKkajCH#UwF6@~uYWr6v6&f){AJz3(xSv^! zJw>LUZ?EpHGX0{;+*@b+MS}rQM;q0B|0f0e9_v?K=}C1bqjdGjM|}Eq8#ih9(ke>J zTlaaTnZIUfCVhUrFK&sMW2R~J-fzB2c#q?&fL)kN?Ow*=x9IZ%zgSkC*IJMlTt>`< z+AV(DJxkn*aZzz$QpJSYHh?d&>i2%!7PDc8+XrR$sWT@JpX(huc5={rcBt>vS-IrY znZY6Nku!a#&-D%VUX)!!XO8E*Jk8_uOZqgPi76rK83}lNVGr;`0CWdIp=fY26!1jG zJo$BWO&`z|`nB_STKElUhinRVACAiAaFoB&X_ZZAi)_CdxCuVS zFUTekN7>>H+z3YHqA2eR3zHEZ&X5nB=w+adPCLUitZ054%ICKe*g;??Rc8ke0S;;` z0=x%yX-W`?CJ+{)N1?7IUZuP<3Z9#;)1V@K)L!HjWB^dvvdY<^yO$QL+83(YQynje zRePnXy<*vmQrU|M>yo=-_VC?-#mcsY%C=N{w^+Gbs@yHQ_ekzN3CmJx`RvZS`xh%( z7b;qlUa?}ARIy7e?UqWr6XvwTJ=^`xfw|KQj;55O3E1nq$G>wtRdYdfUX+{{Q_hQN zN9k<)JNxH)795Q!N28kJyy(0jIWMG~7l7(&*QTrL)71?GD{Ge>*2>~#4j^G)c5~&` zcbgW=Iv2`1=Q|$m5zF>TW&0A=bZJ$>RmdjLQe|wy>u~7V1nmabFM5#Rnm7^f6_H3R zk9#t3Gqps(9vB9}8(A>X;{mxStg^Z_8A`+`kT)`xB}tt|h0vHOr9f3>=9F)Pd)lL! z$Q5ZB@sq+n0L*74ILdonVr8dP*-7Yj3j>M67~Vza`UU6u`AX5*B{{oN>_-S)NurFH zwx243O)&(EQ9>2U6EhH#raX*AQPFKSl-_z4McP+Op_ z!*A5oM~Fv7cQLCb#s+3dMM>J0#H=x!9uWZ*=GrlWcvGfLuf=S-Hrb=Z%x9h}G$!nc z*<%(u8tK^mca5Tj1IV zLkOI1Dco22JM%2k31$r6Z7yA2EtR(?qf+^%gzZU7=VHr_g_a#+%Py&9muPQFteG88 zJF4eeGx)BlEjb}I?M$3}0xY$0&M%d(OSSHj%DWS`bV<2X(lmEnD(Og=()Q9td))#K zf*r{nDo+N?=d4l7Dy^Q|xKP@bDs4+QH77SqOF)9gH;ggTC=_qsC=r^9_ z!gl4rMsDRu!emG0>GQ?erE?~LjS?0-QGP1m362rZags>`JQ)n{x$F}>!qn(!KoG{J zLZO=;2qD0UL<4@0&%-!|F1575BSR23*}T|Ury|kJSwmU-!~tL}N22*>4KFI_%@(OU zYv^J^$e*DH%XUjq9hUBUo8H|t7ZuBi%}?~EOUo1AO4l^ZPA!`__nI%4%?6~ZsGZ$4 zy9;c3y0jt@WgN!0YZ|zF#%9x~ij`3`x!GtB!tov*S@BjLEzbVhbitfiJs^j4IOF>P zz;Ees0)LvK&HxC&gB+V1h5u28(#KDiYgZQyuaCb$={o`P_Hnw-vskxbp>Bg%w@Iqo z^iD~lW_BHoPI2L4SG#=_<^0{dO-oPTVY!&FY#5Sf7#7o}Y5&ymmZdW_>*RauQ_Rpe5aL$8&P*iaT+}a^{GA+=V`>Ooz6k zILT?!fq~Jm2zrJBXEs-^#F&Gz3*9rPX#I5>eGf3GDpn%wG6gv(=s6#}K}RTma3T;U z5&33_U<40ao*?LZJpte7WgxiF)CA665YA+=pjsBBuSz05a$QNm$g4+)c+R~Vy!7go zOB5Qt98e0qNwsA$=@lI3JS@3dT(GNHbq_|+#^_~Vlx5E}7KI7HY2eyu1i42;Q+}Ka zLm?`bD#^0pz}tSMXhAJ+WJ)P1+dEBD1Wz~;rPf^cfs+Z3D_J*rB0Nfs2<(`diBgMG zs~STp)(fSS5%5D{l9y5wv*oFYLqVKnA>&eunF{*@W5IC1pQ9QDl25{ppA*^pp5Z-i z9LV^RCl1}j+d6^oJI0(mB!89ane;oxnP#jCgRUOJ1*{&Dr)6p}Q!Pksq11nkaQ5)8 z;MHlAja^%1!xb&ze_Fhc`bPxu!1O*XhNd7axwF@OlLKtkb?sv^f8hWe*(@68cTt5< z3vioDxwa|4Szm%zJq&e&h#W*3z6YSw#QVuTM1VSyQ3Kpo(C8RKrni0VCb4!<@n7EN zz+1UC=Rmrw9E7!GJDT)^UCGM(P2!rZ(weRCimq*vYg;ZQb14nBVtOf4n!&R+tM zt-eVx8h*JHCr1C&XuzMP5+%yP(L!qoVoznM$%b>XAE>*9YJA7|Y ztllV9Z^Y@-wHZQ0*JcP2U7HgI$Rb_tS<5@eXO2T8YUN7HK%`3C0AUDm7uM~5WO~%|Q|lw)@wT77 zDXu#rtvfPnm~FdjpQ{$#o|N0OY-9QDoVzSxXR|!mSwhONux}y&WmvHn`Yiuch}=%E z_u7;%q{J`<5>N6_eiMQH1c;)ulM7EwH2*3AS{}+m;mJkYkJY2BY!VXj1gh{)_$k0` z^>5i|wP4Arz-_P`rZYkgT5Bwj>#AUTxdn5ef(=Fs1P3axS6Xn+P{AgH#YKf>fVJ3C zxy-4c)?}%`sAfU2>SAHV&6cudt`I04qwb92pZa83)6csRMBGYNJDcTNo~@xxa5oIY zc3?28s(Be)bH$XJUcpl+HP`6z>{nC)55!ok6?}8do^%%!g8YT%oW-Mrf4Hi?Ry&&);VwN<^7G(T=POTFT0-+n*=Lj~8KN2p_NqT3)zYk6K7u2q$h$EW9&QGy<5_}_Tx zH?aO`m8)aB@|>)0hr~)_u2_lRpC6ql~ljE+44ylGCgy4lC z%o+HqCA;e#+l+0|Ub|qgooh&57wual`<9e_%af|QyO)x$h*cXC#cAdq7OS=-ik~=2 zCC8eSV;xfiG%h$BMdw<{xi;lo3zn^n}RoXl7N%U9WO1<`m^jc7?zarINnYGQ@NYm}=Cg!gA z-Qv`mouYe}q2RJs~vi1Jvhm{{UKCb`d zN^1CZX*eKOjY(Bwi6gA(YZsmE3(oc*#vUI2c;IpOCp&+&KQ(+cHF0B^YqMuTI)fd8ps zQ`W-Kp;!?e3qzKnP{rM-i%~YvR#+ZI`Fj*VYlhK4z5yUx9Et0(@Wp4p~pV`0YXjpJG%)Kr;Hc5_6DaTH%A4Tc@qUhWwIrpWU z`_c`bdjpFNn->~3&xgf^{ZhmJ#fIL6hTg}$V#86X;V3QAx^!KmRxA$NyOIR{3Kto1 z-fWT0vqk2Isyw%e$wnn^h-wy5%z!0<1&})j#f^Sbo_tuN+|_SlpqEQfA8V{mV&)u2 z?bo|@Id6FMPkP1dM>0V~@x#7vd~YuQb>gl(qmb+tv`208Q%9Siwvu0q zVVT~P;U+yE#-;*A59M^*EDTNd^peqzriWA^lg)R-skUyZdN)}gmZmDUKJ0mT{jpg(cq(=Jf^_g=YIs~ac=^*{L_8Qt zU7M1w#ZvKG(zUn1l=K)+6NkbZ&Jc?-WV}GWA)}XkZy0@wZ-jiKMqcp=P0#RT7D&Q|8YPu<(n&`#H{{v|R zIzE9tsjiy?Q@cLlNUv#1t=%TA*-pb!S_TWR-E%LB742ea2duhED^iuM;5xD_2gsj* z0{AF_DFSqgQK;M>k?UU&pvK6q%pqtr5DIy{Fb{tpp^N|?RM@HOl$5{^DT1V5U*1O3 zl)q(TvxOMgXTT!{tEG*knHk_#<(f>w=~l&-On|xGOzFM~D6&Rs%qae;5B3UsKBp6F zPSW^w?tx(1i*(Y)o}mF9<5rBK*+Pq&3)yWQHPtXvSZtJsJ#ZtZ>dw(WjYJG-R7wQ5 zN_*f|DUM!3ahRJmT>8t`kTPzF8_AF>4ja(8EpA61YBPISsy~Yt;Sf-)lknx4%0XVk zn0{TFJVPa;33VG}WdGh38(fZ5;;KdGAxNB69hr6Q6JCmvuGnWqrYsGqwOYe(% za%nSlFkP~4ex6^4Q(vmyw?ZARzePVv^rh;3n1fO(6YKVQq}dq zuVvJ(u*+ZmtT?n;orINTlCiuwG+^J({5k$TiMFX(b%$+ztAL*>262hUH!Q5bkEYmyp|s3bK>|l)aN~UD4PtViyOy^p>HQn5VZ4Cy03(P?)X( zTo{G#Rd8E~d(}8bzH#GK@{JoKy@t7~UXOP;o5-~;D<=d5Y==pENm`^NcWVtcpL z-i?4k(YLtlnv*T>AG>$#)Akp|h8Gcd_)gKvfo&V+cYW~M{nvidF1GDK!U56UvedLL zdHDXoV(YGj)?E+B#Mb>%>wdB6fYfy0)1Gr;(>bI&a>qfPf#`IxefL89?nid9y+>;A z5j}?_&!JEIE{dLuNJgDR3y1DsT5RiHXzPA>U2JkT#wW+Xkezflp8Q#Ww$J?_ANH!P&tlZRe$=rl@sSZ!>;EtD(Q`#q zdHls!2*C2Vj8%!(@=9N|08HiQ*zH~|NB2CDTOOaY>KfHLSdA**2paXg8uPfMRoAH2 z!D>{wPUfS72YZ-L)h9C_Y4CG#D%D>_OY?ZMRku`a+bZhF%s5sS z3iE%6jC_*72LQ4Y*Hin>4D=m7)-%*67acx!rjOlv%a#Y`NhuG^Q_qQ0M|))BxvjG8 z{MO!+eMgQ!rAY!FCLPX`EA#g$;@=avM<7MuKM)WJED-pQ1SA5V5+Gh;mC|R%W#pvK z`0xWPt{Ic@mD1;nqN77{bfg?xROxfK=-e$icc+}YaZmMbe6eQzLe2X5IYYs>?2Ow#7e#5eCDEpK<^!4e+=6jbG8@m=7yXJ3+jR&O01B;D^7a9*g zJ}WjJlNyha?7M!sn4`P*Go|VJrhA(g>o+dcZ=8QwtluNm?^&!ruuy;Cks#LhO7(Ol zy>!{m)j_c{<4V^yuvc|GUJlT6yzJRP+|_U`)^;w`cFuQ-wL7KSor|@57i#xD+9B4y zB-Or@DPR?eAZeRetnOH-CY5IOR;haHVs-aIb@xL-tbS3drY{3fA{U1kH)2$3uZekvo?}Igh)N%`ZKt;$&qE_p2JBwW zQ!xL>1eiYIY`#9>1Uu+@l-IV*d%LHHPP?9Smp$i|v*h#D4hOVqhwiQ&W2AW~gwRDO z8i@?t1@#3~6~+9YQX3x=_!)tp6Udz<`^Y;_-~oYuLf|8S!A|FM^bxs}?~f?cj|r?N z@FxWRDL{dYnPj^KCsVD0VLK5Gy7&291%rPD1;aHPDHyKVo~2+IN?o{^dUYh_zbyHq zsi~OcR}Q)TbUY0hj?&TfxN(qt$Fqmr5ydx3aem{3;tT5zxd%;%>oFZQA>X9&82OHy z&MLkk^1Xr&DX9wy5hTG!m<3OY0!)l^DB5E?v#1RjC`leZ;;Pt zzO49yzWP4rldCB*NEu#1)$#=nU&4wB(8FXPzziCyCdiued zB!-F6BH9QWSth~x5rGmvyI<)m0?BR zgUi6in1RZHq6b(W1+YN)MHJj!GV*QSvL_faq*!a(4AIHQx*t7J)AgYwqZ;G}JctU-M zD6lCULo2?S%XT__9o<6L>gy~}plj<_8=@x{><&AW9=IcJ%8@mwKx{hmgCh7f>;nvJ zZGMfx0Ss(yI)hs${2KNl?t%@Ax@^>@z=2!g#W6?B34>D0hgjwx(NbqmyaeVBCCU<1 zME@vL(?&8fU_x)3U&924 zZCnyhwd|nF=cdG5DDe%#~K zEq)vP+Qn~&U&Bws9^If@{J1lzE8hXXhHs`Dk~&*&7yOzfjg4URYk1jsDf}8fHSUHz zwnMSp7o0Jtza)dj*T>wdy9FB%qf+>QUf6)`X&aX0ZNM^YKv%4c=mcT*v-lukygXKp zjpbI<{0e&i%8jIK6w=G{|D6EaJhX4v*BHj(_`|#P6NhlQt&9TM-lZZPEdo-W2TQ*0v-MNNZs#0ZP}HT)UuH7*=^%`Y-y3{)Fu8la|KU08X5-_2vGRmec>*S&6*Y5J$*T7o#flDWX&k#7 zniD6|6=a`XNE>NkGTKPUU-Q)k<@VQk1Zpo{vdd!H>x~MPf9}^fZqj%Y>j2)JJ_?cf z?!sVaalXaJ+eoCyr|3Yy7Nv3}jiyz(tM&@HY6w&l_%~Sq=8+R_0o+#qmW|b9oS}lP z>*$)A3XU7}rW_kAmO5PE%Yt$@T`E&SYn8>b%&DNuL>JNufzmW;)hPa{PnIG0ya_=o z-z-be4KjSV0C!%qU$&$hWIczD=&z8`QIySD7?7^&YFR`*kMRt|L!bCWgL0;mdS$|I z*%dM}%v5=o{|i^hta(?+=yFeXdP$5z3!Oc1t49fK8}qJ^+5Qe!$ZRWKA+sgj**0k3 z?6MuL9QJ6xcC^B3D9)yPhG{^a+6C8)@~)7f$AqZa19RIq;<~RNAyzwP>ij+DA|aW* zmS;;{xnZ zg}XiM!)knt!s$X)XC?n_a?_SoWG1AaV4`z&Z%MiQL_2)N+fN`}{O?f)#^)X+R}X;p z$`d6a1G1H_Jn{bk5f3t7LaL-hRRn&Yz;_AE5*Q-D80CLNt~&(Y2gtJ^xUHaD>WTiG zhsLWni{2tc{{-O6-@whHj%4(H{GtEjiO0jwyjj%sN$amRr$#TQgzJ)UE7kOt*z}gv z^cG3u*ZkJrEXrObG8UbMbctZ%@KRMva_9a14_iOpj5|NWsf(ASi+-^xAXNpv;?B?5 zmDHQl;HZumkCV9S2+TI%TYrY#@;O66iraOT+<=J9K})Uy{P(dA9$50pH(TeAXa)Ui zT0vL{T*e^tDFqU^g}~2y;J^~e{w*8VSg5YA2Ng<7Wqw1H_RQ}nEe7)|E^Gge(qeod z?9E-){vD-dBf`{2IePw^p|sNt%I)OqmjmI#E6PLs|3Xt%M{sGQ=LjzUzmahzI?Hpw zRbNeAc>|KHl2THwDy94Z<@>FslrOIG4(^NU9o!d0_g=}pHIpKBRiDvt||QI3CjPZP|d!LDsyJ8 z;FG+MU9V7%-;B7k-slhKPwo4ZZ_*s#>1q&u_*O6=zSUzeq`9_~{+H&~ru4rwS9F{G zX&kQG>@UqZZnM8MS8|*ErMXPh6Rska{iV6uRQ8wVDpT2CnyX7?e^0o^l>V3IT2tAd zzJ!_-m-(f$4umY52aN`NXl7+NTl*P{`9d52hWUiS0O7>SaCZ1J7W0KR{&nL~+-YCt pR)&;?V!qJE51AVb#96HjXTzVdm@l;P`&Le?l(AwCO>VY;{|}+`rRo3x literal 0 HcmV?d00001 diff --git a/__pycache__/transport.cpython-310.pyc b/__pycache__/transport.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..5be8b4ea09b5c8c1893b2646da7fdb06ec778a46 GIT binary patch literal 743 zcmZ`$v2NQi5G5tqk{vq@jLwBu1C6y8Md82>9v*pnw)aF=>?sEvlppG+LVviH8pP zC9au*j@df(PO@DWXb-r@JM#GW?x_3yE&;ok{K$U7`h>};1&~a@?OOm&I8`KRR+`W{ z_Y!(dxX1l_!hPX?_mhCr1sMg;aD&X3h^H1pG6A>m00cpn#1sBHcxZ|CI(&#~?1=7; za=P<&l zhF4e?U)|{0<)=dAv)Ny9d5}0R?p(x}%w@?K&fvuZ2xv7pb}>F2|5v*4Q6%bbq=YQz&U_R=jj6B^4#$1=Njpkd0agVXD+f?mO!u=>+8)qpq*Ih{^ zrcLZ=3(utG7Zz>% literal 0 HcmV?d00001 diff --git a/__pycache__/transport.cpython-311.pyc b/__pycache__/transport.cpython-311.pyc new file mode 100644 index 0000000000000000000000000000000000000000..9f1b07e08f44b49f09005b252c69b318b4e90990 GIT binary patch literal 1070 zcmah{y^9k;6ragXHs4VKc3wyuj?03La){?~!K)IB90+@XWs}{k8z#GPb_1F!MT#r! zPDJn;qo;zF{uzk`4BJ|XO(a%VId4Cr(F5ORe)GO&-tWE4>s&64xLm#a%J|OruV6$H z50%v}S5A?JG)$2k>{!OW9g}ek9U?6@Mw*}t69J)jd<7yC4L4Akd;_!I4!!=C2#wW8 zuACwr!F_T}7rG=$JB#W^4u99hZgdu%B{xE$v5}FwG$TF1oF`v_Xm}FiHeZ2kMzPpT7`P^NBx)OmX&IHaZFSn~tNDeX!$?*l2N+`mo#XmB z2ah;9?KqH7x_BU29Y=E1q1iKcH0hA3+CX*n(t&QdIxAI~-EY~CrG`y=>aesAY100Y zUE8_e*R5J@Lw6%`mHrbisVJspx{5L^tVvfQAI#DL7@Xg+}A7#v3H zZ$UES`WLeGnQT34y)a(V=k(2u_cuT6z1{nCYqnjTZ&#=H+PbvunVjz`@J^`GR<#qTTB1Z8zY#$^9aEJDAoTcAX!E2js{c imIB6jfl?#?TcG0fvfq* +1 + +> +2c23.sdf + +> +/Users/azimis/shpc/lsfe/TYK2 + +> +3 + +> +2c23.1 + +$$$$ diff --git a/examples/RSFE/TYK2-JAK2/ligands/c46.sdf b/examples/RSFE/TYK2-JAK2/ligands/c46.sdf new file mode 100644 index 0000000..0a7579b --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/ligands/c46.sdf @@ -0,0 +1,95 @@ +1_cpd46 + 3D + Schrodinger Suite 2024-2. + 36 38 0 0 1 0 999 V2000 + 13.2563 -13.5590 22.2350 C 0 0 0 0 0 0 + 14.1674 -14.1348 21.3288 C 0 0 0 0 0 0 + 13.9534 -14.0570 19.9591 C 0 0 0 0 0 0 + 14.6467 -14.5211 19.2733 H 0 0 0 0 0 0 + 14.2636 -12.6805 25.7620 C 0 0 0 0 0 0 + 13.5160 -13.7538 23.6770 C 0 0 0 0 0 0 + 14.3518 -13.8088 26.6049 C 0 0 0 0 0 0 + 14.0602 -14.7861 26.2496 H 0 0 0 0 0 0 + 14.8230 -13.6362 27.9054 C 0 0 0 0 0 0 + 14.9235 -14.4913 28.5575 H 0 0 0 0 0 0 + 12.1377 -12.8649 21.7363 C 0 0 0 0 0 0 + 12.8450 -13.3803 19.4784 C 0 0 0 0 0 0 + 12.6785 -13.3110 18.4136 H 0 0 0 0 0 0 + 11.9428 -12.7881 20.3608 C 0 0 0 0 0 0 + 11.0825 -12.2634 19.9721 H 0 0 0 0 0 0 + 15.5928 -14.9077 21.9249 Cl 0 0 0 0 0 0 + 13.4021 -14.8922 24.1426 O 0 0 0 0 0 0 + 13.9110 -12.6989 24.4099 N 0 0 0 0 0 0 + 13.9587 -11.8138 23.9257 H 0 0 0 0 0 0 + 15.1502 -12.4233 28.3493 N 0 0 0 0 0 0 + 15.0745 -11.3251 27.5964 C 0 0 0 0 0 0 + 14.6487 -11.4409 26.2703 C 0 0 0 0 0 0 + 14.6180 -10.5666 25.6369 H 0 0 0 0 0 0 + 15.4478 -10.0767 28.1412 N 0 0 0 0 0 0 + 16.0490 -10.0806 28.9528 H 0 0 0 0 0 0 + 15.0538 -8.8627 27.6491 C 0 0 0 0 0 0 + 14.3398 -8.7850 26.6661 O 0 0 0 0 0 0 + 15.5130 -7.5785 28.3279 C 0 0 0 0 0 0 + 16.1466 -8.1335 29.0198 H 0 0 0 0 0 0 + 15.6847 -6.3115 27.4788 C 0 0 0 0 0 0 + 16.5032 -5.6226 27.6877 H 0 0 0 0 0 0 + 15.5056 -6.3477 26.4042 H 0 0 0 0 0 0 + 14.5136 -6.4214 28.4511 C 0 0 0 0 0 0 + 13.4987 -6.5357 28.0703 H 0 0 0 0 0 0 + 14.4963 -5.8107 29.3538 H 0 0 0 0 0 0 + 11.0138 -12.0539 22.7836 Cl 0 0 0 0 0 0 + 1 2 2 0 0 0 + 1 6 1 0 0 0 + 1 11 1 0 0 0 + 2 3 1 0 0 0 + 2 16 1 0 0 0 + 3 4 1 0 0 0 + 3 12 2 0 0 0 + 5 7 1 0 0 0 + 5 18 1 0 0 0 + 5 22 2 0 0 0 + 6 17 2 0 0 0 + 6 18 1 0 0 0 + 7 8 1 0 0 0 + 7 9 2 0 0 0 + 9 10 1 0 0 0 + 9 20 1 0 0 0 + 11 14 2 0 0 0 + 11 36 1 0 0 0 + 12 13 1 0 0 0 + 12 14 1 0 0 0 + 14 15 1 0 0 0 + 18 19 1 0 0 0 + 20 21 2 0 0 0 + 21 22 1 0 0 0 + 21 24 1 0 0 0 + 22 23 1 0 0 0 + 24 25 1 0 0 0 + 24 26 1 0 0 0 + 26 27 2 0 0 0 + 26 28 1 0 0 0 + 28 29 1 0 0 0 + 28 30 1 0 0 0 + 28 33 1 0 0 0 + 30 31 1 0 0 0 + 30 32 1 0 0 0 + 30 33 1 0 0 0 + 33 34 1 0 0 0 + 33 35 1 0 0 0 +M END +> +1 + +> +1c46.sdf + +> +/Users/azimis/shpc/lsfe/TYK2 + +> +2 + +> +1c46.1 + +$$$$ diff --git a/examples/RSFE/TYK2-JAK2/ligands/ffdb.json b/examples/RSFE/TYK2-JAK2/ligands/ffdb.json new file mode 100644 index 0000000..e33fa2f --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/ligands/ffdb.json @@ -0,0 +1,12 @@ +{ + "openff-2.0.0": { + "1": { + "ffxml": "\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n\n", + "smiles": "[H][c]1[n][c]([N]([H])[C](=[O])[C]2([H])[C]([H])([H])[C]2([H])[H])[c]([H])[c]([N]([H])[C](=[O])[c]2[c]([Cl])[c]([H])[c]([H])[c]([H])[c]2[Cl])[c]1[H]" + }, + "2": { + "ffxml": "\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n\n", + "smiles": "[H][c]1[n][c]([N]([H])[C](=[O])[C@@]2([H])[C]([H])([H])[C@@]2([H])[F])[c]([H])[c]([N]([H])[C](=[O])[c]2[c]([Cl])[c]([H])[c]([H])[c]([H])[c]2[Cl])[c]1[H]" + } + } +} \ No newline at end of file diff --git a/examples/RSFE/TYK2-JAK2/receptor/JAK2.pdb b/examples/RSFE/TYK2-JAK2/receptor/JAK2.pdb new file mode 100644 index 0000000..f7cff33 --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/receptor/JAK2.pdb @@ -0,0 +1,4858 @@ +TITLE 4GFM_JAK2 - prepared +REMARK 4 4GFM_ COMPLIES WITH FORMAT V. 3.0, 1-DEC-2006 +REMARK 888 +REMARK 888 WRITTEN BY MAESTRO (A PRODUCT OF SCHRODINGER, LLC) +ATOM 1 CH3 ACE A 839 6.817 -29.175 45.382 1.00 0.00 C +ATOM 2 C ACE A 839 7.844 -29.017 44.267 1.00 0.00 C +ATOM 3 O ACE A 839 8.885 -28.397 44.481 1.00 0.00 O +ATOM 4 HH31 ACE A 839 5.945 -29.739 45.050 1.00 0.00 H +ATOM 5 HH32 ACE A 839 7.261 -29.699 46.229 1.00 0.00 H +ATOM 6 HH33 ACE A 839 6.481 -28.196 45.724 1.00 0.00 H +ATOM 7 N ASP A 840 7.542 -29.584 43.086 1.00 52.37 N +ATOM 8 CA ASP A 840 8.361 -29.532 41.871 1.00 61.23 C +ATOM 9 C ASP A 840 8.342 -28.092 41.293 1.00 68.44 C +ATOM 10 O ASP A 840 7.270 -27.648 40.878 1.00 59.75 O +ATOM 11 CB ASP A 840 7.820 -30.573 40.850 1.00 43.71 C +ATOM 12 CG ASP A 840 8.572 -30.738 39.512 1.00 62.01 C +ATOM 13 OD1 ASP A 840 9.698 -30.211 39.365 1.00 41.95 O +ATOM 14 OD2 ASP A 840 8.026 -31.466 38.655 1.00 54.80 O1- +ATOM 15 H ASP A 840 6.664 -30.073 42.992 1.00 52.37 H +ATOM 16 HA ASP A 840 9.362 -29.848 42.159 1.00 61.23 H +ATOM 17 HB3 ASP A 840 6.771 -30.358 40.635 1.00 43.71 H +ATOM 18 HB2 ASP A 840 7.808 -31.550 41.334 1.00 43.71 H +ATOM 19 N PRO A 841 9.498 -27.381 41.280 1.00 69.16 N +ATOM 20 CA PRO A 841 9.553 -25.982 40.812 1.00 55.02 C +ATOM 21 C PRO A 841 9.364 -25.786 39.294 1.00 60.31 C +ATOM 22 O PRO A 841 9.106 -24.657 38.882 1.00 58.59 O +ATOM 23 CB PRO A 841 10.934 -25.499 41.281 1.00 60.08 C +ATOM 24 CG PRO A 841 11.793 -26.752 41.256 1.00 61.08 C +ATOM 25 CD PRO A 841 10.825 -27.837 41.711 1.00 59.49 C +ATOM 26 HA PRO A 841 8.781 -25.395 41.314 1.00 55.02 H +ATOM 27 HB3 PRO A 841 10.858 -25.126 42.304 1.00 60.08 H +ATOM 28 HB2 PRO A 841 11.353 -24.695 40.673 1.00 60.08 H +ATOM 29 HG3 PRO A 841 12.686 -26.680 41.877 1.00 61.08 H +ATOM 30 HG2 PRO A 841 12.111 -26.953 40.232 1.00 61.08 H +ATOM 31 HD2 PRO A 841 11.110 -28.801 41.289 1.00 59.49 H +ATOM 32 HD3 PRO A 841 10.837 -27.920 42.798 1.00 59.49 H +ATOM 33 N THR A 842 9.468 -26.868 38.499 1.00 58.91 N +ATOM 34 CA THR A 842 9.243 -26.856 37.051 1.00 47.75 C +ATOM 35 C THR A 842 7.748 -26.801 36.651 1.00 54.12 C +ATOM 36 O THR A 842 7.462 -26.587 35.473 1.00 45.75 O +ATOM 37 CB THR A 842 9.914 -28.073 36.348 1.00 59.10 C +ATOM 38 OG1 THR A 842 9.181 -29.280 36.464 1.00 57.42 O +ATOM 39 CG2 THR A 842 11.372 -28.315 36.773 1.00 45.89 C +ATOM 40 H THR A 842 9.683 -27.769 38.905 1.00 58.91 H +ATOM 41 HA THR A 842 9.705 -25.951 36.658 1.00 47.75 H +ATOM 42 HB THR A 842 9.938 -27.856 35.280 1.00 59.10 H +ATOM 43 HG1 THR A 842 9.298 -29.631 37.355 1.00 57.42 H +ATOM 44 HG21 THR A 842 11.819 -29.121 36.190 1.00 45.89 H +ATOM 45 HG22 THR A 842 11.978 -27.423 36.618 1.00 45.89 H +ATOM 46 HG23 THR A 842 11.451 -28.588 37.825 1.00 45.89 H +ATOM 47 N GLN A 843 6.831 -26.963 37.621 1.00 58.08 N +ATOM 48 CA GLN A 843 5.386 -26.857 37.427 1.00 58.10 C +ATOM 49 C GLN A 843 4.928 -25.461 37.874 1.00 46.33 C +ATOM 50 O GLN A 843 4.489 -25.282 39.011 1.00 55.67 O +ATOM 51 CB GLN A 843 4.675 -27.994 38.202 1.00 60.77 C +ATOM 52 CG GLN A 843 5.121 -29.424 37.827 1.00 48.93 C +ATOM 53 CD GLN A 843 5.098 -29.731 36.326 1.00 56.49 C +ATOM 54 OE1 GLN A 843 4.141 -29.399 35.628 1.00 53.25 O +ATOM 55 NE2 GLN A 843 6.146 -30.389 35.829 1.00 54.01 N +ATOM 56 H GLN A 843 7.137 -27.127 38.570 1.00 58.08 H +ATOM 57 HA GLN A 843 5.132 -26.951 36.369 1.00 58.10 H +ATOM 58 HB3 GLN A 843 3.600 -27.909 38.041 1.00 60.77 H +ATOM 59 HB2 GLN A 843 4.826 -27.866 39.275 1.00 60.77 H +ATOM 60 HG3 GLN A 843 4.494 -30.153 38.341 1.00 48.93 H +ATOM 61 HG2 GLN A 843 6.132 -29.576 38.203 1.00 48.93 H +ATOM 62 HE22 GLN A 843 6.184 -30.619 34.847 1.00 54.01 H +ATOM 63 HE21 GLN A 843 6.919 -30.647 36.429 1.00 54.01 H +ATOM 64 N PHE A 844 5.068 -24.492 36.958 1.00 38.99 N +ATOM 65 CA PHE A 844 4.659 -23.102 37.141 1.00 39.35 C +ATOM 66 C PHE A 844 3.133 -22.952 37.060 1.00 37.15 C +ATOM 67 O PHE A 844 2.554 -23.252 36.015 1.00 34.81 O +ATOM 68 CB PHE A 844 5.359 -22.219 36.085 1.00 31.43 C +ATOM 69 CG PHE A 844 6.828 -21.948 36.359 1.00 29.21 C +ATOM 70 CD1 PHE A 844 7.809 -22.917 36.061 1.00 26.71 C +ATOM 71 CD2 PHE A 844 7.209 -20.782 37.053 1.00 28.13 C +ATOM 72 CE1 PHE A 844 9.133 -22.689 36.408 1.00 27.25 C +ATOM 73 CE2 PHE A 844 8.539 -20.573 37.393 1.00 32.18 C +ATOM 74 CZ PHE A 844 9.498 -21.523 37.070 1.00 27.83 C +ATOM 75 H PHE A 844 5.432 -24.728 36.045 1.00 38.99 H +ATOM 76 HA PHE A 844 4.983 -22.767 38.129 1.00 39.35 H +ATOM 77 HB3 PHE A 844 4.850 -21.257 36.002 1.00 31.43 H +ATOM 78 HB2 PHE A 844 5.273 -22.684 35.102 1.00 31.43 H +ATOM 79 HD1 PHE A 844 7.532 -23.836 35.566 1.00 26.71 H +ATOM 80 HD2 PHE A 844 6.466 -20.045 37.311 1.00 28.13 H +ATOM 81 HE1 PHE A 844 9.881 -23.432 36.184 1.00 27.25 H +ATOM 82 HE2 PHE A 844 8.826 -19.673 37.916 1.00 32.18 H +ATOM 83 HZ PHE A 844 10.530 -21.360 37.344 1.00 27.83 H +ATOM 84 N GLU A 845 2.516 -22.466 38.151 1.00 34.88 N +ATOM 85 CA GLU A 845 1.101 -22.096 38.190 1.00 39.07 C +ATOM 86 C GLU A 845 0.858 -20.812 37.380 1.00 37.74 C +ATOM 87 O GLU A 845 1.420 -19.765 37.702 1.00 32.84 O +ATOM 88 CB GLU A 845 0.618 -21.933 39.644 1.00 44.30 C +ATOM 89 CG GLU A 845 0.713 -23.227 40.481 1.00 58.60 C +ATOM 90 CD GLU A 845 0.014 -23.106 41.842 1.00 84.23 C +ATOM 91 OE1 GLU A 845 -1.228 -22.953 41.844 1.00 79.81 O +ATOM 92 OE2 GLU A 845 0.726 -23.169 42.868 1.00 62.94 O1- +ATOM 93 H GLU A 845 3.053 -22.271 38.985 1.00 34.88 H +ATOM 94 HA GLU A 845 0.525 -22.908 37.740 1.00 39.07 H +ATOM 95 HB3 GLU A 845 -0.410 -21.569 39.636 1.00 44.30 H +ATOM 96 HB2 GLU A 845 1.204 -21.156 40.131 1.00 44.30 H +ATOM 97 HG3 GLU A 845 1.760 -23.503 40.621 1.00 58.60 H +ATOM 98 HG2 GLU A 845 0.254 -24.053 39.937 1.00 58.60 H +ATOM 99 N GLU A 846 0.022 -20.933 36.338 1.00 37.36 N +ATOM 100 CA GLU A 846 -0.301 -19.873 35.383 1.00 52.27 C +ATOM 101 C GLU A 846 -1.057 -18.670 35.989 1.00 41.09 C +ATOM 102 O GLU A 846 -0.906 -17.556 35.488 1.00 38.89 O +ATOM 103 CB GLU A 846 -1.014 -20.534 34.183 1.00 65.42 C +ATOM 104 CG GLU A 846 -1.503 -19.579 33.070 1.00 65.30 C +ATOM 105 CD GLU A 846 -2.032 -20.264 31.796 1.00 90.87 C +ATOM 106 OE1 GLU A 846 -1.931 -21.506 31.676 1.00 87.52 O +ATOM 107 OE2 GLU A 846 -2.525 -19.506 30.931 1.00 81.25 O1- +ATOM 108 H GLU A 846 -0.386 -21.835 36.143 1.00 37.36 H +ATOM 109 HA GLU A 846 0.648 -19.480 35.014 1.00 52.27 H +ATOM 110 HB3 GLU A 846 -1.859 -21.124 34.542 1.00 65.42 H +ATOM 111 HB2 GLU A 846 -0.315 -21.250 33.751 1.00 65.42 H +ATOM 112 HG3 GLU A 846 -0.682 -18.921 32.786 1.00 65.30 H +ATOM 113 HG2 GLU A 846 -2.295 -18.937 33.458 1.00 65.30 H +ATOM 114 N ARG A 847 -1.814 -18.903 37.077 1.00 42.37 N +ATOM 115 CA ARG A 847 -2.525 -17.876 37.846 1.00 49.11 C +ATOM 116 C ARG A 847 -1.592 -16.981 38.691 1.00 40.38 C +ATOM 117 O ARG A 847 -1.946 -15.830 38.945 1.00 39.27 O +ATOM 118 CB ARG A 847 -3.613 -18.556 38.708 1.00 36.38 C +ATOM 119 CG ARG A 847 -3.095 -19.445 39.857 1.00 45.10 C +ATOM 120 CD ARG A 847 -4.217 -20.232 40.551 1.00 64.22 C +ATOM 121 NE ARG A 847 -3.733 -20.926 41.757 1.00 71.03 N +ATOM 122 CZ ARG A 847 -3.990 -20.640 43.047 1.00 81.47 C +ATOM 123 NH1 ARG A 847 -4.778 -19.619 43.417 1.00 64.95 N +ATOM 124 NH2 ARG A 847 -3.434 -21.410 43.991 1.00 86.05 N1+ +ATOM 125 H ARG A 847 -1.883 -19.848 37.427 1.00 42.37 H +ATOM 126 HA ARG A 847 -3.033 -17.228 37.130 1.00 49.11 H +ATOM 127 HB3 ARG A 847 -4.259 -19.149 38.058 1.00 36.38 H +ATOM 128 HB2 ARG A 847 -4.257 -17.784 39.133 1.00 36.38 H +ATOM 129 HG3 ARG A 847 -2.490 -18.897 40.580 1.00 45.10 H +ATOM 130 HG2 ARG A 847 -2.425 -20.174 39.398 1.00 45.10 H +ATOM 131 HD3 ARG A 847 -4.502 -21.049 39.888 1.00 64.22 H +ATOM 132 HD2 ARG A 847 -5.121 -19.641 40.694 1.00 64.22 H +ATOM 133 HE ARG A 847 -3.082 -21.684 41.580 1.00 71.03 H +ATOM 134 HH12 ARG A 847 -4.958 -19.432 44.392 1.00 64.95 H +ATOM 135 HH11 ARG A 847 -5.201 -19.033 42.712 1.00 64.95 H +ATOM 136 HH22 ARG A 847 -3.611 -21.241 44.971 1.00 86.05 H +ATOM 137 HH21 ARG A 847 -2.821 -22.171 43.721 1.00 86.05 H +ATOM 138 N HIS A 848 -0.425 -17.514 39.094 1.00 33.11 N +ATOM 139 CA HIS A 848 0.609 -16.800 39.850 1.00 32.04 C +ATOM 140 C HIS A 848 1.620 -16.074 38.946 1.00 31.11 C +ATOM 141 O HIS A 848 2.412 -15.288 39.461 1.00 37.08 O +ATOM 142 CB HIS A 848 1.351 -17.799 40.760 1.00 30.40 C +ATOM 143 CG HIS A 848 0.523 -18.474 41.825 1.00 33.28 C +ATOM 144 ND1 HIS A 848 -0.627 -17.905 42.384 1.00 27.40 N +ATOM 145 CD2 HIS A 848 0.764 -19.680 42.447 1.00 32.60 C +ATOM 146 CE1 HIS A 848 -1.024 -18.772 43.305 1.00 35.26 C +ATOM 147 NE2 HIS A 848 -0.238 -19.845 43.384 1.00 40.68 N +ATOM 148 H HIS A 848 -0.199 -18.464 38.832 1.00 33.11 H +ATOM 149 HA HIS A 848 0.146 -16.040 40.481 1.00 32.04 H +ATOM 150 HB3 HIS A 848 2.180 -17.305 41.268 1.00 30.40 H +ATOM 151 HB2 HIS A 848 1.799 -18.580 40.149 1.00 30.40 H +ATOM 152 HD2 HIS A 848 1.551 -20.408 42.316 1.00 32.60 H +ATOM 153 HE1 HIS A 848 -1.894 -18.622 43.927 1.00 35.26 H +ATOM 154 HE2 HIS A 848 -0.350 -20.635 44.004 1.00 40.68 H +ATOM 155 N LEU A 849 1.589 -16.355 37.633 1.00 24.64 N +ATOM 156 CA LEU A 849 2.497 -15.826 36.621 1.00 32.47 C +ATOM 157 C LEU A 849 2.013 -14.439 36.147 1.00 33.86 C +ATOM 158 O LEU A 849 1.327 -14.338 35.130 1.00 34.61 O +ATOM 159 CB LEU A 849 2.572 -16.888 35.498 1.00 28.71 C +ATOM 160 CG LEU A 849 3.697 -16.683 34.465 1.00 30.40 C +ATOM 161 CD1 LEU A 849 5.094 -16.878 35.101 1.00 24.65 C +ATOM 162 CD2 LEU A 849 3.465 -17.591 33.239 1.00 31.38 C +ATOM 163 H LEU A 849 0.893 -17.003 37.293 1.00 24.64 H +ATOM 164 HA LEU A 849 3.488 -15.711 37.061 1.00 32.47 H +ATOM 165 HB3 LEU A 849 1.612 -16.922 34.981 1.00 28.71 H +ATOM 166 HB2 LEU A 849 2.693 -17.879 35.939 1.00 28.71 H +ATOM 167 HG LEU A 849 3.642 -15.658 34.100 1.00 30.40 H +ATOM 168 HD11 LEU A 849 5.740 -17.536 34.521 1.00 24.65 H +ATOM 169 HD12 LEU A 849 5.615 -15.926 35.200 1.00 24.65 H +ATOM 170 HD13 LEU A 849 5.029 -17.308 36.101 1.00 24.65 H +ATOM 171 HD21 LEU A 849 4.350 -18.150 32.943 1.00 31.38 H +ATOM 172 HD22 LEU A 849 2.674 -18.322 33.412 1.00 31.38 H +ATOM 173 HD23 LEU A 849 3.158 -16.994 32.381 1.00 31.38 H +ATOM 174 N LYS A 850 2.345 -13.401 36.933 1.00 29.19 N +ATOM 175 CA LYS A 850 1.896 -12.019 36.749 1.00 34.45 C +ATOM 176 C LYS A 850 2.690 -11.330 35.630 1.00 32.15 C +ATOM 177 O LYS A 850 3.905 -11.208 35.757 1.00 27.56 O +ATOM 178 CB LYS A 850 2.083 -11.227 38.067 1.00 40.09 C +ATOM 179 CG LYS A 850 1.505 -11.871 39.340 1.00 63.00 C +ATOM 180 CD LYS A 850 0.025 -12.268 39.251 1.00 81.45 C +ATOM 181 CE LYS A 850 -0.512 -12.738 40.611 1.00 93.78 C +ATOM 182 NZ LYS A 850 -1.932 -13.123 40.540 1.00 82.67 N1+ +ATOM 183 H LYS A 850 2.933 -13.565 37.740 1.00 29.19 H +ATOM 184 HA LYS A 850 0.837 -12.022 36.486 1.00 34.45 H +ATOM 185 HB3 LYS A 850 1.650 -10.234 37.945 1.00 40.09 H +ATOM 186 HB2 LYS A 850 3.146 -11.063 38.254 1.00 40.09 H +ATOM 187 HG3 LYS A 850 1.640 -11.172 40.167 1.00 63.00 H +ATOM 188 HG2 LYS A 850 2.100 -12.743 39.604 1.00 63.00 H +ATOM 189 HD3 LYS A 850 -0.093 -13.068 38.519 1.00 81.45 H +ATOM 190 HD2 LYS A 850 -0.557 -11.421 38.885 1.00 81.45 H +ATOM 191 HE3 LYS A 850 -0.406 -11.941 41.348 1.00 93.78 H +ATOM 192 HE2 LYS A 850 0.065 -13.589 40.976 1.00 93.78 H +ATOM 193 HZ1 LYS A 850 -2.039 -13.909 39.912 1.00 82.67 H +ATOM 194 HZ2 LYS A 850 -2.247 -13.383 41.464 1.00 82.67 H +ATOM 195 HZ3 LYS A 850 -2.479 -12.343 40.206 1.00 82.67 H +ATOM 196 N PHE A 851 1.999 -10.857 34.580 1.00 28.34 N +ATOM 197 CA PHE A 851 2.590 -10.099 33.471 1.00 31.54 C +ATOM 198 C PHE A 851 3.200 -8.754 33.914 1.00 31.39 C +ATOM 199 O PHE A 851 2.567 -8.038 34.691 1.00 35.67 O +ATOM 200 CB PHE A 851 1.527 -9.937 32.360 1.00 34.74 C +ATOM 201 CG PHE A 851 1.907 -9.048 31.186 1.00 39.98 C +ATOM 202 CD1 PHE A 851 2.733 -9.550 30.159 1.00 32.05 C +ATOM 203 CD2 PHE A 851 1.575 -7.676 31.189 1.00 32.17 C +ATOM 204 CE1 PHE A 851 3.141 -8.715 29.128 1.00 36.49 C +ATOM 205 CE2 PHE A 851 2.003 -6.855 30.154 1.00 37.11 C +ATOM 206 CZ PHE A 851 2.772 -7.376 29.122 1.00 38.03 C +ATOM 207 H PHE A 851 0.999 -10.988 34.544 1.00 28.34 H +ATOM 208 HA PHE A 851 3.402 -10.701 33.061 1.00 31.54 H +ATOM 209 HB3 PHE A 851 0.597 -9.560 32.789 1.00 34.74 H +ATOM 210 HB2 PHE A 851 1.291 -10.924 31.959 1.00 34.74 H +ATOM 211 HD1 PHE A 851 3.042 -10.585 30.169 1.00 32.05 H +ATOM 212 HD2 PHE A 851 0.989 -7.259 31.996 1.00 32.17 H +ATOM 213 HE1 PHE A 851 3.759 -9.105 28.334 1.00 36.49 H +ATOM 214 HE2 PHE A 851 1.741 -5.807 30.155 1.00 37.11 H +ATOM 215 HZ PHE A 851 3.102 -6.732 28.320 1.00 38.03 H +ATOM 216 N LEU A 852 4.400 -8.441 33.394 1.00 27.26 N +ATOM 217 CA LEU A 852 5.121 -7.196 33.665 1.00 31.03 C +ATOM 218 C LEU A 852 5.312 -6.400 32.363 1.00 35.71 C +ATOM 219 O LEU A 852 4.843 -5.265 32.292 1.00 41.93 O +ATOM 220 CB LEU A 852 6.484 -7.474 34.351 1.00 26.66 C +ATOM 221 CG LEU A 852 6.448 -8.372 35.611 1.00 27.90 C +ATOM 222 CD1 LEU A 852 7.879 -8.656 36.113 1.00 22.03 C +ATOM 223 CD2 LEU A 852 5.529 -7.823 36.724 1.00 32.14 C +ATOM 224 H LEU A 852 4.859 -9.088 32.767 1.00 27.26 H +ATOM 225 HA LEU A 852 4.535 -6.562 34.332 1.00 31.03 H +ATOM 226 HB3 LEU A 852 6.944 -6.519 34.612 1.00 26.66 H +ATOM 227 HB2 LEU A 852 7.164 -7.932 33.632 1.00 26.66 H +ATOM 228 HG LEU A 852 6.038 -9.337 35.313 1.00 27.90 H +ATOM 229 HD11 LEU A 852 8.042 -8.350 37.147 1.00 22.03 H +ATOM 230 HD12 LEU A 852 8.110 -9.719 36.048 1.00 22.03 H +ATOM 231 HD13 LEU A 852 8.625 -8.135 35.516 1.00 22.03 H +ATOM 232 HD21 LEU A 852 5.998 -7.836 37.708 1.00 32.14 H +ATOM 233 HD22 LEU A 852 5.223 -6.795 36.533 1.00 32.14 H +ATOM 234 HD23 LEU A 852 4.622 -8.424 36.801 1.00 32.14 H +ATOM 235 N GLN A 853 6.006 -6.993 31.372 0.50 33.25 N +ATOM 236 CA GLN A 853 6.350 -6.353 30.097 0.50 35.13 C +ATOM 237 C GLN A 853 6.318 -7.374 28.950 0.50 35.98 C +ATOM 238 O GLN A 853 6.582 -8.554 29.170 0.50 32.97 O +ATOM 239 CB GLN A 853 7.761 -5.716 30.165 0.50 40.31 C +ATOM 240 CG GLN A 853 7.927 -4.588 31.207 0.50 39.24 C +ATOM 241 CD GLN A 853 9.306 -3.914 31.222 0.50 53.79 C +ATOM 242 OE1 GLN A 853 9.537 -3.026 32.039 0.50 64.63 O +ATOM 243 NE2 GLN A 853 10.232 -4.313 30.346 0.50 54.17 N +ATOM 244 H GLN A 853 6.339 -7.939 31.493 1.00 33.25 H +ATOM 245 HA GLN A 853 5.616 -5.578 29.867 1.00 35.13 H +ATOM 246 HB3 GLN A 853 7.999 -5.312 29.179 1.00 40.31 H +ATOM 247 HB2 GLN A 853 8.502 -6.491 30.356 1.00 40.31 H +ATOM 248 HG3 GLN A 853 7.756 -4.979 32.210 1.00 39.24 H +ATOM 249 HG2 GLN A 853 7.173 -3.818 31.039 1.00 39.24 H +ATOM 250 HE22 GLN A 853 11.145 -3.881 30.347 1.00 54.17 H +ATOM 251 HE21 GLN A 853 10.032 -5.049 29.686 1.00 54.17 H +ATOM 252 N GLN A 854 6.052 -6.879 27.730 1.00 42.17 N +ATOM 253 CA GLN A 854 6.217 -7.614 26.475 1.00 38.12 C +ATOM 254 C GLN A 854 7.680 -7.469 26.018 1.00 37.85 C +ATOM 255 O GLN A 854 8.180 -6.344 25.970 1.00 40.71 O +ATOM 256 CB GLN A 854 5.228 -7.022 25.440 1.00 42.81 C +ATOM 257 CG GLN A 854 5.210 -7.682 24.039 1.00 61.68 C +ATOM 258 CD GLN A 854 4.693 -9.126 23.992 1.00 79.93 C +ATOM 259 OE1 GLN A 854 5.148 -9.920 23.172 1.00 66.19 O +ATOM 260 NE2 GLN A 854 3.715 -9.466 24.834 1.00 68.30 N +ATOM 261 H GLN A 854 5.852 -5.894 27.633 1.00 42.17 H +ATOM 262 HA GLN A 854 5.982 -8.669 26.633 1.00 38.12 H +ATOM 263 HB3 GLN A 854 5.457 -5.964 25.304 1.00 42.81 H +ATOM 264 HB2 GLN A 854 4.220 -7.034 25.859 1.00 42.81 H +ATOM 265 HG3 GLN A 854 6.202 -7.644 23.590 1.00 61.68 H +ATOM 266 HG2 GLN A 854 4.568 -7.092 23.383 1.00 61.68 H +ATOM 267 HE22 GLN A 854 3.354 -10.409 24.851 1.00 68.30 H +ATOM 268 HE21 GLN A 854 3.345 -8.794 25.490 1.00 68.30 H +ATOM 269 N LEU A 855 8.331 -8.596 25.685 1.00 34.45 N +ATOM 270 CA LEU A 855 9.732 -8.644 25.242 1.00 29.26 C +ATOM 271 C LEU A 855 9.870 -8.826 23.717 1.00 33.81 C +ATOM 272 O LEU A 855 10.983 -9.055 23.243 1.00 34.01 O +ATOM 273 CB LEU A 855 10.486 -9.762 26.001 1.00 25.84 C +ATOM 274 CG LEU A 855 10.479 -9.647 27.541 1.00 23.68 C +ATOM 275 CD1 LEU A 855 11.259 -10.822 28.172 1.00 17.94 C +ATOM 276 CD2 LEU A 855 10.980 -8.274 28.041 1.00 19.62 C +ATOM 277 H LEU A 855 7.852 -9.487 25.724 1.00 34.45 H +ATOM 278 HA LEU A 855 10.223 -7.695 25.459 1.00 29.26 H +ATOM 279 HB3 LEU A 855 11.526 -9.782 25.670 1.00 25.84 H +ATOM 280 HB2 LEU A 855 10.064 -10.726 25.715 1.00 25.84 H +ATOM 281 HG LEU A 855 9.444 -9.744 27.868 1.00 23.68 H +ATOM 282 HD11 LEU A 855 12.108 -10.491 28.767 1.00 17.94 H +ATOM 283 HD12 LEU A 855 10.622 -11.416 28.826 1.00 17.94 H +ATOM 284 HD13 LEU A 855 11.661 -11.499 27.418 1.00 17.94 H +ATOM 285 HD21 LEU A 855 11.586 -8.347 28.942 1.00 19.62 H +ATOM 286 HD22 LEU A 855 11.587 -7.763 27.294 1.00 19.62 H +ATOM 287 HD23 LEU A 855 10.138 -7.624 28.282 1.00 19.62 H +ATOM 288 N GLY A 856 8.759 -8.709 22.974 1.00 29.87 N +ATOM 289 CA GLY A 856 8.715 -8.877 21.525 1.00 26.47 C +ATOM 290 C GLY A 856 8.317 -10.315 21.171 1.00 39.11 C +ATOM 291 O GLY A 856 7.898 -11.094 22.029 1.00 41.20 O +ATOM 292 H GLY A 856 7.879 -8.541 23.440 1.00 29.87 H +ATOM 293 HA3 GLY A 856 9.669 -8.622 21.059 1.00 26.47 H +ATOM 294 HA2 GLY A 856 7.968 -8.194 21.120 1.00 26.47 H +ATOM 295 N LYS A 857 8.406 -10.638 19.871 1.00 46.69 N +ATOM 296 CA LYS A 857 7.941 -11.902 19.300 1.00 43.46 C +ATOM 297 C LYS A 857 9.017 -12.503 18.386 1.00 49.77 C +ATOM 298 O LYS A 857 9.749 -11.760 17.730 1.00 44.42 O +ATOM 299 CB LYS A 857 6.628 -11.667 18.517 1.00 44.89 C +ATOM 300 CG LYS A 857 5.525 -10.964 19.331 1.00 68.40 C +ATOM 301 CD LYS A 857 4.153 -11.000 18.637 1.00 72.22 C +ATOM 302 CE LYS A 857 3.110 -10.039 19.240 1.00 65.13 C +ATOM 303 NZ LYS A 857 2.762 -10.363 20.635 1.00 66.42 N1+ +ATOM 304 H LYS A 857 8.779 -9.971 19.211 1.00 46.69 H +ATOM 305 HA LYS A 857 7.761 -12.629 20.091 1.00 43.46 H +ATOM 306 HB3 LYS A 857 6.255 -12.626 18.160 1.00 44.89 H +ATOM 307 HB2 LYS A 857 6.829 -11.072 17.624 1.00 44.89 H +ATOM 308 HG3 LYS A 857 5.809 -9.924 19.493 1.00 68.40 H +ATOM 309 HG2 LYS A 857 5.456 -11.416 20.320 1.00 68.40 H +ATOM 310 HD3 LYS A 857 3.770 -12.020 18.665 1.00 72.22 H +ATOM 311 HD2 LYS A 857 4.278 -10.763 17.580 1.00 72.22 H +ATOM 312 HE3 LYS A 857 2.197 -10.072 18.645 1.00 65.13 H +ATOM 313 HE2 LYS A 857 3.476 -9.012 19.197 1.00 65.13 H +ATOM 314 HZ1 LYS A 857 3.587 -10.299 21.215 1.00 66.42 H +ATOM 315 HZ2 LYS A 857 2.068 -9.709 20.969 1.00 66.42 H +ATOM 316 HZ3 LYS A 857 2.388 -11.300 20.681 1.00 66.42 H +ATOM 317 N GLY A 858 9.062 -13.843 18.351 1.00 43.98 N +ATOM 318 CA GLY A 858 9.944 -14.610 17.479 1.00 48.43 C +ATOM 319 C GLY A 858 9.148 -15.818 16.984 1.00 52.94 C +ATOM 320 O GLY A 858 8.579 -16.552 17.795 1.00 50.27 O +ATOM 321 H GLY A 858 8.408 -14.379 18.904 1.00 43.98 H +ATOM 322 HA3 GLY A 858 10.813 -14.952 18.043 1.00 48.43 H +ATOM 323 HA2 GLY A 858 10.307 -14.018 16.636 1.00 48.43 H +ATOM 324 N ASN A 859 9.160 -16.026 15.653 1.00 44.33 N +ATOM 325 CA ASN A 859 8.493 -17.089 14.880 1.00 60.23 C +ATOM 326 C ASN A 859 7.025 -17.342 15.295 1.00 75.85 C +ATOM 327 O ASN A 859 6.208 -16.430 15.167 1.00 62.31 O +ATOM 328 CB ASN A 859 9.399 -18.349 14.700 1.00 44.88 C +ATOM 329 CG ASN A 859 10.058 -18.902 15.971 1.00 63.15 C +ATOM 330 OD1 ASN A 859 9.376 -19.459 16.829 1.00 43.31 O +ATOM 331 ND2 ASN A 859 11.378 -18.748 16.097 1.00 51.04 N +ATOM 332 H ASN A 859 9.666 -15.364 15.082 1.00 44.33 H +ATOM 333 HA ASN A 859 8.451 -16.625 13.894 1.00 60.23 H +ATOM 334 HB3 ASN A 859 10.201 -18.089 14.006 1.00 44.88 H +ATOM 335 HB2 ASN A 859 8.851 -19.151 14.204 1.00 44.88 H +ATOM 336 HD22 ASN A 859 11.856 -19.045 16.939 1.00 51.04 H +ATOM 337 HD21 ASN A 859 11.924 -18.303 15.370 1.00 51.04 H +ATOM 338 N PHE A 860 6.712 -18.560 15.766 1.00 66.46 N +ATOM 339 CA PHE A 860 5.369 -19.003 16.155 1.00 74.46 C +ATOM 340 C PHE A 860 4.820 -18.355 17.443 1.00 80.21 C +ATOM 341 O PHE A 860 3.611 -18.435 17.666 1.00 58.42 O +ATOM 342 CB PHE A 860 5.380 -20.536 16.340 1.00 84.63 C +ATOM 343 CG PHE A 860 5.800 -21.343 15.124 1.00117.69 C +ATOM 344 CD1 PHE A 860 7.106 -21.872 15.032 1.00102.40 C +ATOM 345 CD2 PHE A 860 4.925 -21.479 14.026 1.00120.97 C +ATOM 346 CE1 PHE A 860 7.488 -22.577 13.898 1.00105.00 C +ATOM 347 CE2 PHE A 860 5.331 -22.180 12.899 1.00120.57 C +ATOM 348 CZ PHE A 860 6.604 -22.733 12.838 1.00107.30 C +ATOM 349 H PHE A 860 7.445 -19.250 15.857 1.00 66.46 H +ATOM 350 HA PHE A 860 4.682 -18.756 15.343 1.00 74.46 H +ATOM 351 HB3 PHE A 860 4.381 -20.875 16.621 1.00 84.63 H +ATOM 352 HB2 PHE A 860 6.030 -20.805 17.175 1.00 84.63 H +ATOM 353 HD1 PHE A 860 7.806 -21.748 15.845 1.00102.40 H +ATOM 354 HD2 PHE A 860 3.935 -21.048 14.063 1.00120.97 H +ATOM 355 HE1 PHE A 860 8.477 -23.007 13.842 1.00105.00 H +ATOM 356 HE2 PHE A 860 4.651 -22.300 12.067 1.00120.57 H +ATOM 357 HZ PHE A 860 6.908 -23.285 11.961 1.00107.30 H +ATOM 358 N GLY A 861 5.703 -17.789 18.285 1.00 65.38 N +ATOM 359 CA GLY A 861 5.371 -17.391 19.649 1.00 62.95 C +ATOM 360 C GLY A 861 5.607 -15.902 19.916 1.00 60.81 C +ATOM 361 O GLY A 861 5.974 -15.122 19.037 1.00 56.66 O +ATOM 362 H GLY A 861 6.672 -17.708 18.007 1.00 65.38 H +ATOM 363 HA3 GLY A 861 5.977 -17.978 20.338 1.00 62.95 H +ATOM 364 HA2 GLY A 861 4.332 -17.607 19.889 1.00 62.95 H +ATOM 365 N SER A 862 5.366 -15.547 21.184 1.00 41.08 N +ATOM 366 CA SER A 862 5.482 -14.222 21.780 1.00 40.48 C +ATOM 367 C SER A 862 6.064 -14.369 23.193 1.00 28.77 C +ATOM 368 O SER A 862 5.602 -15.228 23.947 1.00 28.14 O +ATOM 369 CB SER A 862 4.103 -13.528 21.745 1.00 40.98 C +ATOM 370 OG SER A 862 3.125 -14.189 22.526 1.00 40.14 O +ATOM 371 H SER A 862 5.062 -16.267 21.829 1.00 41.08 H +ATOM 372 HA SER A 862 6.177 -13.630 21.188 1.00 40.48 H +ATOM 373 HB3 SER A 862 3.741 -13.454 20.719 1.00 40.98 H +ATOM 374 HB2 SER A 862 4.200 -12.510 22.122 1.00 40.98 H +ATOM 375 HG SER A 862 3.002 -15.072 22.166 1.00 40.14 H +ATOM 376 N VAL A 863 7.076 -13.546 23.512 1.00 28.23 N +ATOM 377 CA VAL A 863 7.840 -13.625 24.758 1.00 25.75 C +ATOM 378 C VAL A 863 7.443 -12.466 25.691 1.00 27.81 C +ATOM 379 O VAL A 863 7.296 -11.332 25.235 1.00 27.32 O +ATOM 380 CB VAL A 863 9.374 -13.555 24.500 1.00 21.66 C +ATOM 381 CG1 VAL A 863 10.212 -13.730 25.786 1.00 15.83 C +ATOM 382 CG2 VAL A 863 9.827 -14.607 23.469 1.00 20.30 C +ATOM 383 H VAL A 863 7.375 -12.829 22.862 1.00 28.23 H +ATOM 384 HA VAL A 863 7.633 -14.564 25.266 1.00 25.75 H +ATOM 385 HB VAL A 863 9.612 -12.575 24.082 1.00 21.66 H +ATOM 386 HG11 VAL A 863 11.280 -13.694 25.567 1.00 15.83 H +ATOM 387 HG12 VAL A 863 10.016 -12.954 26.523 1.00 15.83 H +ATOM 388 HG13 VAL A 863 10.006 -14.690 26.261 1.00 15.83 H +ATOM 389 HG21 VAL A 863 10.905 -14.567 23.312 1.00 20.30 H +ATOM 390 HG22 VAL A 863 9.581 -15.615 23.802 1.00 20.30 H +ATOM 391 HG23 VAL A 863 9.360 -14.453 22.497 1.00 20.30 H +ATOM 392 N GLU A 864 7.274 -12.793 26.981 1.00 22.89 N +ATOM 393 CA GLU A 864 6.834 -11.887 28.036 1.00 25.31 C +ATOM 394 C GLU A 864 7.715 -12.041 29.280 1.00 24.41 C +ATOM 395 O GLU A 864 8.013 -13.159 29.692 1.00 26.32 O +ATOM 396 CB GLU A 864 5.365 -12.192 28.395 1.00 26.99 C +ATOM 397 CG GLU A 864 4.386 -11.888 27.244 1.00 32.45 C +ATOM 398 CD GLU A 864 2.904 -12.138 27.557 1.00 41.46 C +ATOM 399 OE1 GLU A 864 2.597 -13.000 28.409 1.00 52.26 O +ATOM 400 OE2 GLU A 864 2.080 -11.474 26.890 1.00 41.66 O1- +ATOM 401 H GLU A 864 7.391 -13.759 27.264 1.00 22.89 H +ATOM 402 HA GLU A 864 6.908 -10.852 27.696 1.00 25.31 H +ATOM 403 HB3 GLU A 864 5.077 -11.610 29.272 1.00 26.99 H +ATOM 404 HB2 GLU A 864 5.279 -13.241 28.686 1.00 26.99 H +ATOM 405 HG3 GLU A 864 4.632 -12.490 26.370 1.00 32.45 H +ATOM 406 HG2 GLU A 864 4.524 -10.848 26.951 1.00 32.45 H +ATOM 407 N MET A 865 8.057 -10.899 29.887 1.00 24.59 N +ATOM 408 CA MET A 865 8.649 -10.780 31.213 1.00 29.38 C +ATOM 409 C MET A 865 7.503 -10.884 32.227 1.00 33.43 C +ATOM 410 O MET A 865 6.615 -10.030 32.208 1.00 32.93 O +ATOM 411 CB MET A 865 9.372 -9.419 31.272 1.00 26.87 C +ATOM 412 CG MET A 865 10.015 -9.021 32.609 1.00 33.60 C +ATOM 413 SD MET A 865 10.569 -7.293 32.580 1.00 39.43 S +ATOM 414 CE MET A 865 11.367 -7.138 34.196 1.00 54.01 C +ATOM 415 H MET A 865 7.729 -10.027 29.489 1.00 24.59 H +ATOM 416 HA MET A 865 9.373 -11.581 31.378 1.00 29.38 H +ATOM 417 HB3 MET A 865 8.674 -8.636 30.980 1.00 26.87 H +ATOM 418 HB2 MET A 865 10.154 -9.413 30.515 1.00 26.87 H +ATOM 419 HG3 MET A 865 10.870 -9.665 32.817 1.00 33.60 H +ATOM 420 HG2 MET A 865 9.316 -9.140 33.435 1.00 33.60 H +ATOM 421 HE1 MET A 865 11.736 -6.121 34.332 1.00 54.01 H +ATOM 422 HE2 MET A 865 10.670 -7.360 35.000 1.00 54.01 H +ATOM 423 HE3 MET A 865 12.213 -7.818 34.269 1.00 54.01 H +ATOM 424 N CYS A 866 7.518 -11.944 33.046 1.00 26.28 N +ATOM 425 CA CYS A 866 6.466 -12.238 34.018 1.00 25.79 C +ATOM 426 C CYS A 866 7.114 -12.560 35.367 1.00 25.70 C +ATOM 427 O CYS A 866 8.127 -13.254 35.402 1.00 25.14 O +ATOM 428 CB CYS A 866 5.597 -13.437 33.595 1.00 23.32 C +ATOM 429 SG CYS A 866 4.678 -13.116 32.064 1.00 25.17 S +ATOM 430 H CYS A 866 8.277 -12.613 33.000 1.00 26.28 H +ATOM 431 HA CYS A 866 5.824 -11.367 34.145 1.00 25.79 H +ATOM 432 HB3 CYS A 866 4.868 -13.663 34.375 1.00 23.32 H +ATOM 433 HB2 CYS A 866 6.211 -14.325 33.463 1.00 23.32 H +ATOM 434 HG CYS A 866 5.747 -13.084 31.264 1.00 25.17 H +ATOM 435 N ARG A 867 6.485 -12.098 36.457 1.00 19.67 N +ATOM 436 CA ARG A 867 6.865 -12.435 37.821 1.00 22.11 C +ATOM 437 C ARG A 867 6.019 -13.619 38.300 1.00 23.45 C +ATOM 438 O ARG A 867 4.816 -13.450 38.502 1.00 23.97 O +ATOM 439 CB ARG A 867 6.687 -11.203 38.730 1.00 20.06 C +ATOM 440 CG ARG A 867 7.356 -11.382 40.106 1.00 22.49 C +ATOM 441 CD ARG A 867 7.013 -10.288 41.130 1.00 22.53 C +ATOM 442 NE ARG A 867 7.514 -8.954 40.750 1.00 27.86 N +ATOM 443 CZ ARG A 867 8.750 -8.451 40.930 1.00 25.60 C +ATOM 444 NH1 ARG A 867 9.741 -9.154 41.499 1.00 24.19 N +ATOM 445 NH2 ARG A 867 9.002 -7.202 40.520 1.00 30.20 N1+ +ATOM 446 H ARG A 867 5.627 -11.571 36.349 1.00 19.67 H +ATOM 447 HA ARG A 867 7.916 -12.714 37.853 1.00 22.11 H +ATOM 448 HB3 ARG A 867 5.629 -10.963 38.846 1.00 20.06 H +ATOM 449 HB2 ARG A 867 7.135 -10.337 38.246 1.00 20.06 H +ATOM 450 HG3 ARG A 867 8.430 -11.361 39.917 1.00 22.49 H +ATOM 451 HG2 ARG A 867 7.167 -12.362 40.545 1.00 22.49 H +ATOM 452 HD3 ARG A 867 7.304 -10.580 42.139 1.00 22.53 H +ATOM 453 HD2 ARG A 867 5.929 -10.177 41.158 1.00 22.53 H +ATOM 454 HE ARG A 867 6.837 -8.370 40.281 1.00 27.86 H +ATOM 455 HH12 ARG A 867 10.652 -8.743 41.642 1.00 24.19 H +ATOM 456 HH11 ARG A 867 9.579 -10.107 41.803 1.00 24.19 H +ATOM 457 HH22 ARG A 867 9.919 -6.799 40.649 1.00 30.20 H +ATOM 458 HH21 ARG A 867 8.275 -6.645 40.097 1.00 30.20 H +ATOM 459 N TYR A 868 6.664 -14.778 38.510 1.00 19.71 N +ATOM 460 CA TYR A 868 6.051 -15.916 39.190 1.00 22.54 C +ATOM 461 C TYR A 868 5.995 -15.622 40.695 1.00 24.85 C +ATOM 462 O TYR A 868 7.022 -15.694 41.370 1.00 28.02 O +ATOM 463 CB TYR A 868 6.807 -17.218 38.867 1.00 21.90 C +ATOM 464 CG TYR A 868 6.174 -18.454 39.485 1.00 24.49 C +ATOM 465 CD1 TYR A 868 4.853 -18.811 39.140 1.00 24.99 C +ATOM 466 CD2 TYR A 868 6.893 -19.250 40.402 1.00 27.46 C +ATOM 467 CE1 TYR A 868 4.262 -19.954 39.704 1.00 25.54 C +ATOM 468 CE2 TYR A 868 6.299 -20.400 40.961 1.00 27.88 C +ATOM 469 CZ TYR A 868 4.981 -20.754 40.608 1.00 29.93 C +ATOM 470 OH TYR A 868 4.395 -21.869 41.131 1.00 34.43 O +ATOM 471 H TYR A 868 7.661 -14.836 38.350 1.00 19.71 H +ATOM 472 HA TYR A 868 5.033 -16.027 38.815 1.00 22.54 H +ATOM 473 HB3 TYR A 868 7.849 -17.139 39.185 1.00 21.90 H +ATOM 474 HB2 TYR A 868 6.838 -17.366 37.787 1.00 21.90 H +ATOM 475 HD1 TYR A 868 4.287 -18.214 38.439 1.00 24.99 H +ATOM 476 HD2 TYR A 868 7.904 -18.985 40.677 1.00 27.46 H +ATOM 477 HE1 TYR A 868 3.253 -20.219 39.438 1.00 25.54 H +ATOM 478 HE2 TYR A 868 6.859 -21.008 41.656 1.00 27.88 H +ATOM 479 HH TYR A 868 4.969 -22.360 41.725 1.00 34.43 H +ATOM 480 N ASP A 869 4.798 -15.235 41.152 1.00 25.60 N +ATOM 481 CA ASP A 869 4.545 -14.618 42.445 1.00 25.55 C +ATOM 482 C ASP A 869 3.420 -15.397 43.158 1.00 31.50 C +ATOM 483 O ASP A 869 2.274 -14.945 43.129 1.00 26.41 O +ATOM 484 CB ASP A 869 4.220 -13.115 42.237 1.00 25.47 C +ATOM 485 CG ASP A 869 3.977 -12.267 43.495 1.00 34.31 C +ATOM 486 OD1 ASP A 869 4.555 -12.587 44.558 1.00 24.60 O +ATOM 487 OD2 ASP A 869 3.332 -11.210 43.327 1.00 32.16 O1- +ATOM 488 H ASP A 869 4.012 -15.223 40.512 1.00 25.60 H +ATOM 489 HA ASP A 869 5.438 -14.666 43.067 1.00 25.55 H +ATOM 490 HB3 ASP A 869 3.364 -13.022 41.567 1.00 25.47 H +ATOM 491 HB2 ASP A 869 5.044 -12.654 41.693 1.00 25.47 H +ATOM 492 N PRO A 870 3.742 -16.565 43.763 1.00 36.54 N +ATOM 493 CA PRO A 870 2.750 -17.352 44.518 1.00 39.61 C +ATOM 494 C PRO A 870 2.333 -16.737 45.868 1.00 46.11 C +ATOM 495 O PRO A 870 1.236 -17.038 46.340 1.00 45.56 O +ATOM 496 CB PRO A 870 3.434 -18.718 44.687 1.00 41.46 C +ATOM 497 CG PRO A 870 4.919 -18.397 44.721 1.00 40.95 C +ATOM 498 CD PRO A 870 5.044 -17.240 43.736 1.00 38.77 C +ATOM 499 HA PRO A 870 1.842 -17.471 43.931 1.00 39.61 H +ATOM 500 HB3 PRO A 870 3.222 -19.341 43.818 1.00 41.46 H +ATOM 501 HB2 PRO A 870 3.105 -19.270 45.569 1.00 41.46 H +ATOM 502 HG3 PRO A 870 5.553 -19.248 44.469 1.00 40.95 H +ATOM 503 HG2 PRO A 870 5.194 -18.059 45.720 1.00 40.95 H +ATOM 504 HD2 PRO A 870 5.879 -16.594 44.008 1.00 38.77 H +ATOM 505 HD3 PRO A 870 5.218 -17.626 42.731 1.00 38.77 H +ATOM 506 N LEU A 871 3.199 -15.890 46.448 1.00 55.90 N +ATOM 507 CA LEU A 871 3.006 -15.236 47.744 1.00 56.75 C +ATOM 508 C LEU A 871 2.125 -13.972 47.674 1.00 55.21 C +ATOM 509 O LEU A 871 1.648 -13.538 48.722 1.00 57.55 O +ATOM 510 CB LEU A 871 4.392 -14.902 48.334 1.00 49.90 C +ATOM 511 CG LEU A 871 5.273 -16.122 48.685 1.00 71.96 C +ATOM 512 CD1 LEU A 871 6.694 -15.670 49.086 1.00 86.02 C +ATOM 513 CD2 LEU A 871 4.625 -17.032 49.750 1.00 68.69 C +ATOM 514 H LEU A 871 4.074 -15.686 45.986 1.00 55.90 H +ATOM 515 HA LEU A 871 2.494 -15.931 48.411 1.00 56.75 H +ATOM 516 HB3 LEU A 871 4.277 -14.292 49.230 1.00 49.90 H +ATOM 517 HB2 LEU A 871 4.926 -14.286 47.610 1.00 49.90 H +ATOM 518 HG LEU A 871 5.390 -16.719 47.780 1.00 71.96 H +ATOM 519 HD11 LEU A 871 7.447 -16.162 48.469 1.00 86.02 H +ATOM 520 HD12 LEU A 871 6.833 -14.595 48.961 1.00 86.02 H +ATOM 521 HD13 LEU A 871 6.931 -15.894 50.126 1.00 86.02 H +ATOM 522 HD21 LEU A 871 5.335 -17.372 50.504 1.00 68.69 H +ATOM 523 HD22 LEU A 871 3.816 -16.527 50.279 1.00 68.69 H +ATOM 524 HD23 LEU A 871 4.204 -17.924 49.286 1.00 68.69 H +ATOM 525 N GLN A 872 1.904 -13.424 46.462 1.00 51.21 N +ATOM 526 CA GLN A 872 1.032 -12.279 46.154 1.00 53.05 C +ATOM 527 C GLN A 872 1.513 -10.950 46.787 1.00 55.48 C +ATOM 528 O GLN A 872 0.682 -10.135 47.188 1.00 60.28 O +ATOM 529 CB GLN A 872 -0.450 -12.593 46.513 1.00 61.31 C +ATOM 530 CG GLN A 872 -1.029 -13.903 45.937 1.00 66.83 C +ATOM 531 CD GLN A 872 -0.997 -13.987 44.411 1.00 99.30 C +ATOM 532 OE1 GLN A 872 -1.297 -13.018 43.717 1.00 99.81 O +ATOM 533 NE2 GLN A 872 -0.670 -15.166 43.883 1.00 76.36 N +ATOM 534 H GLN A 872 2.362 -13.838 45.662 1.00 51.21 H +ATOM 535 HA GLN A 872 1.101 -12.131 45.076 1.00 53.05 H +ATOM 536 HB3 GLN A 872 -1.081 -11.766 46.184 1.00 61.31 H +ATOM 537 HB2 GLN A 872 -0.565 -12.625 47.598 1.00 61.31 H +ATOM 538 HG3 GLN A 872 -2.067 -14.006 46.254 1.00 66.83 H +ATOM 539 HG2 GLN A 872 -0.501 -14.758 46.362 1.00 66.83 H +ATOM 540 HE22 GLN A 872 -0.624 -15.293 42.883 1.00 76.36 H +ATOM 541 HE21 GLN A 872 -0.425 -15.941 44.483 1.00 76.36 H +ATOM 542 N ASP A 873 2.840 -10.763 46.874 1.00 52.01 N +ATOM 543 CA ASP A 873 3.495 -9.644 47.571 1.00 49.63 C +ATOM 544 C ASP A 873 4.556 -8.932 46.703 1.00 40.46 C +ATOM 545 O ASP A 873 5.150 -7.958 47.165 1.00 42.72 O +ATOM 546 CB ASP A 873 4.074 -10.071 48.951 1.00 44.14 C +ATOM 547 CG ASP A 873 5.029 -11.282 48.995 1.00 49.19 C +ATOM 548 OD1 ASP A 873 5.511 -11.727 47.928 1.00 45.43 O +ATOM 549 OD2 ASP A 873 5.340 -11.703 50.130 1.00 44.78 O1- +ATOM 550 H ASP A 873 3.462 -11.483 46.529 1.00 52.01 H +ATOM 551 HA ASP A 873 2.751 -8.871 47.771 1.00 49.63 H +ATOM 552 HB3 ASP A 873 3.231 -10.310 49.602 1.00 44.14 H +ATOM 553 HB2 ASP A 873 4.571 -9.224 49.426 1.00 44.14 H +ATOM 554 N ASN A 874 4.773 -9.424 45.470 1.00 44.49 N +ATOM 555 CA ASN A 874 5.722 -8.936 44.461 1.00 35.82 C +ATOM 556 C ASN A 874 7.203 -9.193 44.819 1.00 37.59 C +ATOM 557 O ASN A 874 8.073 -8.524 44.260 1.00 44.68 O +ATOM 558 CB ASN A 874 5.460 -7.460 44.041 1.00 44.70 C +ATOM 559 CG ASN A 874 4.025 -7.115 43.616 1.00 57.17 C +ATOM 560 OD1 ASN A 874 3.598 -5.975 43.782 1.00 75.88 O +ATOM 561 ND2 ASN A 874 3.273 -8.063 43.050 1.00 48.63 N +ATOM 562 H ASN A 874 4.236 -10.232 45.181 1.00 44.49 H +ATOM 563 HA ASN A 874 5.568 -9.554 43.578 1.00 35.82 H +ATOM 564 HB3 ASN A 874 6.103 -7.196 43.200 1.00 44.70 H +ATOM 565 HB2 ASN A 874 5.742 -6.788 44.853 1.00 44.70 H +ATOM 566 HD22 ASN A 874 2.331 -7.849 42.760 1.00 48.63 H +ATOM 567 HD21 ASN A 874 3.607 -9.015 42.964 1.00 48.63 H +ATOM 568 N THR A 875 7.474 -10.181 45.690 1.00 32.29 N +ATOM 569 CA THR A 875 8.829 -10.648 46.015 1.00 34.33 C +ATOM 570 C THR A 875 9.248 -11.887 45.184 1.00 38.30 C +ATOM 571 O THR A 875 10.404 -12.299 45.285 1.00 38.27 O +ATOM 572 CB THR A 875 8.988 -10.976 47.528 1.00 33.53 C +ATOM 573 OG1 THR A 875 8.406 -12.209 47.912 1.00 42.76 O +ATOM 574 CG2 THR A 875 8.503 -9.852 48.459 1.00 34.94 C +ATOM 575 H THR A 875 6.713 -10.682 46.132 1.00 32.29 H +ATOM 576 HA THR A 875 9.551 -9.862 45.782 1.00 34.33 H +ATOM 577 HB THR A 875 10.055 -11.094 47.724 1.00 33.53 H +ATOM 578 HG1 THR A 875 7.448 -12.096 47.964 1.00 42.76 H +ATOM 579 HG21 THR A 875 8.670 -10.110 49.505 1.00 34.94 H +ATOM 580 HG22 THR A 875 9.039 -8.924 48.258 1.00 34.94 H +ATOM 581 HG23 THR A 875 7.440 -9.647 48.339 1.00 34.94 H +ATOM 582 N GLY A 876 8.328 -12.438 44.369 1.00 32.11 N +ATOM 583 CA GLY A 876 8.547 -13.598 43.499 1.00 27.37 C +ATOM 584 C GLY A 876 9.574 -13.325 42.386 1.00 34.97 C +ATOM 585 O GLY A 876 9.853 -12.173 42.052 1.00 26.92 O +ATOM 586 H GLY A 876 7.398 -12.043 44.361 1.00 32.11 H +ATOM 587 HA3 GLY A 876 7.593 -13.846 43.040 1.00 27.37 H +ATOM 588 HA2 GLY A 876 8.854 -14.456 44.099 1.00 27.37 H +ATOM 589 N GLU A 877 10.128 -14.403 41.804 1.00 32.84 N +ATOM 590 CA GLU A 877 11.161 -14.348 40.765 1.00 28.46 C +ATOM 591 C GLU A 877 10.596 -13.921 39.399 1.00 25.67 C +ATOM 592 O GLU A 877 9.570 -14.454 38.975 1.00 26.62 O +ATOM 593 CB GLU A 877 11.872 -15.719 40.676 1.00 30.08 C +ATOM 594 CG GLU A 877 13.030 -15.757 39.647 1.00 34.95 C +ATOM 595 CD GLU A 877 13.816 -17.074 39.591 1.00 35.22 C +ATOM 596 OE1 GLU A 877 13.210 -18.150 39.795 1.00 33.11 O +ATOM 597 OE2 GLU A 877 15.029 -16.988 39.301 1.00 32.96 O1- +ATOM 598 H GLU A 877 9.839 -15.327 42.093 1.00 32.84 H +ATOM 599 HA GLU A 877 11.904 -13.611 41.077 1.00 28.46 H +ATOM 600 HB3 GLU A 877 11.135 -16.487 40.433 1.00 30.08 H +ATOM 601 HB2 GLU A 877 12.264 -15.980 41.660 1.00 30.08 H +ATOM 602 HG3 GLU A 877 13.717 -14.935 39.855 1.00 34.95 H +ATOM 603 HG2 GLU A 877 12.647 -15.589 38.641 1.00 34.95 H +ATOM 604 N VAL A 878 11.321 -13.019 38.716 1.00 20.75 N +ATOM 605 CA VAL A 878 11.045 -12.624 37.335 1.00 25.96 C +ATOM 606 C VAL A 878 11.684 -13.631 36.360 1.00 28.45 C +ATOM 607 O VAL A 878 12.883 -13.900 36.448 1.00 26.72 O +ATOM 608 CB VAL A 878 11.563 -11.194 37.019 1.00 26.11 C +ATOM 609 CG1 VAL A 878 11.355 -10.775 35.548 1.00 23.13 C +ATOM 610 CG2 VAL A 878 10.899 -10.156 37.942 1.00 25.08 C +ATOM 611 H VAL A 878 12.166 -12.645 39.123 1.00 20.75 H +ATOM 612 HA VAL A 878 9.969 -12.620 37.177 1.00 25.96 H +ATOM 613 HB VAL A 878 12.636 -11.161 37.215 1.00 26.11 H +ATOM 614 HG11 VAL A 878 11.661 -9.742 35.395 1.00 23.13 H +ATOM 615 HG12 VAL A 878 11.942 -11.378 34.855 1.00 23.13 H +ATOM 616 HG13 VAL A 878 10.307 -10.857 35.257 1.00 23.13 H +ATOM 617 HG21 VAL A 878 11.225 -9.143 37.703 1.00 25.08 H +ATOM 618 HG22 VAL A 878 9.812 -10.185 37.853 1.00 25.08 H +ATOM 619 HG23 VAL A 878 11.147 -10.335 38.988 1.00 25.08 H +ATOM 620 N VAL A 879 10.847 -14.162 35.460 1.00 26.85 N +ATOM 621 CA VAL A 879 11.174 -15.197 34.485 1.00 27.60 C +ATOM 622 C VAL A 879 10.685 -14.777 33.085 1.00 25.52 C +ATOM 623 O VAL A 879 9.676 -14.080 32.962 1.00 23.84 O +ATOM 624 CB VAL A 879 10.506 -16.551 34.878 1.00 27.78 C +ATOM 625 CG1 VAL A 879 11.142 -17.141 36.148 1.00 20.27 C +ATOM 626 CG2 VAL A 879 8.970 -16.512 35.031 1.00 24.96 C +ATOM 627 H VAL A 879 9.880 -13.860 35.451 1.00 26.85 H +ATOM 628 HA VAL A 879 12.256 -15.334 34.431 1.00 27.60 H +ATOM 629 HB VAL A 879 10.713 -17.261 34.077 1.00 27.78 H +ATOM 630 HG11 VAL A 879 10.785 -18.155 36.333 1.00 20.27 H +ATOM 631 HG12 VAL A 879 12.227 -17.182 36.061 1.00 20.27 H +ATOM 632 HG13 VAL A 879 10.905 -16.544 37.029 1.00 20.27 H +ATOM 633 HG21 VAL A 879 8.579 -17.499 35.279 1.00 24.96 H +ATOM 634 HG22 VAL A 879 8.664 -15.839 35.833 1.00 24.96 H +ATOM 635 HG23 VAL A 879 8.470 -16.193 34.119 1.00 24.96 H +ATOM 636 N ALA A 880 11.417 -15.221 32.051 1.00 17.26 N +ATOM 637 CA ALA A 880 11.036 -15.063 30.649 1.00 18.87 C +ATOM 638 C ALA A 880 10.083 -16.197 30.250 1.00 18.60 C +ATOM 639 O ALA A 880 10.403 -17.363 30.471 1.00 21.21 O +ATOM 640 CB ALA A 880 12.295 -15.071 29.771 1.00 17.79 C +ATOM 641 H ALA A 880 12.216 -15.815 32.225 1.00 17.26 H +ATOM 642 HA ALA A 880 10.536 -14.102 30.511 1.00 18.87 H +ATOM 643 HB1 ALA A 880 12.039 -15.000 28.713 1.00 17.79 H +ATOM 644 HB2 ALA A 880 12.938 -14.224 30.006 1.00 17.79 H +ATOM 645 HB3 ALA A 880 12.877 -15.981 29.912 1.00 17.79 H +ATOM 646 N VAL A 881 8.926 -15.827 29.692 1.00 19.85 N +ATOM 647 CA VAL A 881 7.828 -16.733 29.380 1.00 19.02 C +ATOM 648 C VAL A 881 7.483 -16.584 27.894 1.00 27.13 C +ATOM 649 O VAL A 881 6.844 -15.601 27.518 1.00 23.69 O +ATOM 650 CB VAL A 881 6.565 -16.381 30.222 1.00 19.83 C +ATOM 651 CG1 VAL A 881 5.322 -17.228 29.879 1.00 20.20 C +ATOM 652 CG2 VAL A 881 6.861 -16.464 31.727 1.00 23.34 C +ATOM 653 H VAL A 881 8.728 -14.842 29.559 1.00 19.85 H +ATOM 654 HA VAL A 881 8.098 -17.772 29.577 1.00 19.02 H +ATOM 655 HB VAL A 881 6.291 -15.342 30.030 1.00 19.83 H +ATOM 656 HG11 VAL A 881 4.486 -16.962 30.521 1.00 20.20 H +ATOM 657 HG12 VAL A 881 4.980 -17.080 28.854 1.00 20.20 H +ATOM 658 HG13 VAL A 881 5.519 -18.291 30.011 1.00 20.20 H +ATOM 659 HG21 VAL A 881 5.954 -16.332 32.315 1.00 23.34 H +ATOM 660 HG22 VAL A 881 7.305 -17.419 31.999 1.00 23.34 H +ATOM 661 HG23 VAL A 881 7.556 -15.681 32.028 1.00 23.34 H +ATOM 662 N LYS A 882 7.881 -17.576 27.082 1.00 23.58 N +ATOM 663 CA LYS A 882 7.385 -17.710 25.715 1.00 22.63 C +ATOM 664 C LYS A 882 6.070 -18.505 25.735 1.00 24.65 C +ATOM 665 O LYS A 882 5.938 -19.453 26.507 1.00 26.10 O +ATOM 666 CB LYS A 882 8.455 -18.351 24.807 1.00 18.95 C +ATOM 667 CG LYS A 882 8.091 -18.280 23.308 1.00 21.66 C +ATOM 668 CD LYS A 882 9.186 -18.829 22.382 1.00 19.92 C +ATOM 669 CE LYS A 882 8.774 -18.765 20.900 1.00 17.25 C +ATOM 670 NZ LYS A 882 9.831 -19.270 20.010 1.00 26.94 N1+ +ATOM 671 H LYS A 882 8.394 -18.363 27.458 1.00 23.58 H +ATOM 672 HA LYS A 882 7.178 -16.723 25.309 1.00 22.63 H +ATOM 673 HB3 LYS A 882 8.641 -19.384 25.105 1.00 18.95 H +ATOM 674 HB2 LYS A 882 9.396 -17.820 24.949 1.00 18.95 H +ATOM 675 HG3 LYS A 882 7.883 -17.244 23.037 1.00 21.66 H +ATOM 676 HG2 LYS A 882 7.165 -18.823 23.121 1.00 21.66 H +ATOM 677 HD3 LYS A 882 9.408 -19.860 22.663 1.00 19.92 H +ATOM 678 HD2 LYS A 882 10.106 -18.263 22.537 1.00 19.92 H +ATOM 679 HE3 LYS A 882 8.542 -17.739 20.613 1.00 17.25 H +ATOM 680 HE2 LYS A 882 7.877 -19.362 20.735 1.00 17.25 H +ATOM 681 HZ1 LYS A 882 10.673 -18.717 20.125 1.00 26.94 H +ATOM 682 HZ2 LYS A 882 10.041 -20.231 20.254 1.00 26.94 H +ATOM 683 HZ3 LYS A 882 9.532 -19.224 19.045 1.00 26.94 H +ATOM 684 N LYS A 883 5.133 -18.105 24.870 0.50 25.59 N +ATOM 685 CA LYS A 883 3.874 -18.798 24.617 0.50 27.50 C +ATOM 686 C LYS A 883 3.564 -18.675 23.121 0.50 33.00 C +ATOM 687 O LYS A 883 4.015 -17.721 22.485 0.50 24.99 O +ATOM 688 CB LYS A 883 2.762 -18.197 25.513 0.50 25.31 C +ATOM 689 CG LYS A 883 2.213 -16.823 25.073 0.50 25.62 C +ATOM 690 CD LYS A 883 1.167 -16.255 26.048 0.50 27.63 C +ATOM 691 CE LYS A 883 0.314 -15.118 25.456 0.50 32.70 C +ATOM 692 NZ LYS A 883 1.111 -13.939 25.073 0.50 35.22 N1+ +ATOM 693 H LYS A 883 5.307 -17.295 24.289 1.00 25.59 H +ATOM 694 HA LYS A 883 3.984 -19.861 24.846 1.00 27.50 H +ATOM 695 HB3 LYS A 883 3.116 -18.142 26.544 1.00 25.31 H +ATOM 696 HB2 LYS A 883 1.926 -18.897 25.525 1.00 25.31 H +ATOM 697 HG3 LYS A 883 1.748 -16.911 24.090 1.00 25.62 H +ATOM 698 HG2 LYS A 883 3.038 -16.118 24.963 1.00 25.62 H +ATOM 699 HD3 LYS A 883 1.667 -15.909 26.954 1.00 27.63 H +ATOM 700 HD2 LYS A 883 0.499 -17.056 26.364 1.00 27.63 H +ATOM 701 HE3 LYS A 883 -0.435 -14.802 26.183 1.00 32.70 H +ATOM 702 HE2 LYS A 883 -0.227 -15.474 24.578 1.00 32.70 H +ATOM 703 HZ1 LYS A 883 1.810 -14.198 24.389 1.00 35.22 H +ATOM 704 HZ2 LYS A 883 0.505 -13.232 24.683 1.00 35.22 H +ATOM 705 HZ3 LYS A 883 1.568 -13.556 25.892 1.00 35.22 H +ATOM 706 N LEU A 884 2.759 -19.608 22.592 1.00 29.50 N +ATOM 707 CA LEU A 884 2.272 -19.570 21.212 1.00 36.86 C +ATOM 708 C LEU A 884 1.311 -18.393 20.977 1.00 41.17 C +ATOM 709 O LEU A 884 0.398 -18.179 21.775 1.00 42.53 O +ATOM 710 CB LEU A 884 1.579 -20.905 20.882 1.00 37.56 C +ATOM 711 CG LEU A 884 2.555 -22.083 20.701 1.00 32.69 C +ATOM 712 CD1 LEU A 884 1.785 -23.412 20.631 1.00 29.27 C +ATOM 713 CD2 LEU A 884 3.492 -21.887 19.490 1.00 38.98 C +ATOM 714 H LEU A 884 2.412 -20.360 23.169 1.00 29.50 H +ATOM 715 HA LEU A 884 3.132 -19.446 20.554 1.00 36.86 H +ATOM 716 HB3 LEU A 884 0.985 -20.807 19.972 1.00 37.56 H +ATOM 717 HB2 LEU A 884 0.868 -21.132 21.679 1.00 37.56 H +ATOM 718 HG LEU A 884 3.178 -22.136 21.595 1.00 32.69 H +ATOM 719 HD11 LEU A 884 2.261 -24.167 21.257 1.00 29.27 H +ATOM 720 HD12 LEU A 884 0.757 -23.309 20.978 1.00 29.27 H +ATOM 721 HD13 LEU A 884 1.729 -23.800 19.617 1.00 29.27 H +ATOM 722 HD21 LEU A 884 3.631 -22.802 18.917 1.00 38.98 H +ATOM 723 HD22 LEU A 884 3.116 -21.130 18.800 1.00 38.98 H +ATOM 724 HD23 LEU A 884 4.482 -21.567 19.815 1.00 38.98 H +ATOM 725 N GLN A 885 1.537 -17.674 19.866 1.00 49.65 N +ATOM 726 CA GLN A 885 0.676 -16.593 19.386 1.00 53.40 C +ATOM 727 C GLN A 885 -0.603 -17.138 18.720 1.00 50.69 C +ATOM 728 O GLN A 885 -1.657 -16.516 18.846 1.00 45.86 O +ATOM 729 CB GLN A 885 1.502 -15.690 18.445 1.00 50.02 C +ATOM 730 CG GLN A 885 0.735 -14.465 17.900 0.50 54.92 C +ATOM 731 CD GLN A 885 1.612 -13.459 17.147 0.50 53.31 C +ATOM 732 OE1 GLN A 885 1.300 -12.271 17.131 0.50 46.20 O +ATOM 733 NE2 GLN A 885 2.704 -13.907 16.521 0.50 36.87 N +ATOM 734 H GLN A 885 2.310 -17.923 19.262 1.00 49.65 H +ATOM 735 HA GLN A 885 0.373 -15.991 20.246 1.00 53.40 H +ATOM 736 HB3 GLN A 885 1.877 -16.286 17.611 1.00 50.02 H +ATOM 737 HB2 GLN A 885 2.381 -15.342 18.991 1.00 50.02 H +ATOM 738 HG3 GLN A 885 0.259 -13.941 18.730 1.00 54.92 H +ATOM 739 HG2 GLN A 885 -0.066 -14.778 17.231 1.00 54.92 H +ATOM 740 HE22 GLN A 885 3.296 -13.263 16.018 1.00 36.87 H +ATOM 741 HE21 GLN A 885 2.945 -14.887 16.540 1.00 36.87 H +ATOM 742 N HIS A 886 -0.482 -18.304 18.065 1.00 51.39 N +ATOM 743 CA HIS A 886 -1.580 -19.088 17.508 1.00 52.46 C +ATOM 744 C HIS A 886 -1.339 -20.545 17.911 1.00 51.83 C +ATOM 745 O HIS A 886 -0.364 -21.146 17.459 1.00 52.09 O +ATOM 746 CB HIS A 886 -1.642 -18.919 15.976 1.00 48.87 C +ATOM 747 CG HIS A 886 -1.960 -17.516 15.524 1.00 65.94 C +ATOM 748 ND1 HIS A 886 -3.249 -16.980 15.601 1.00 59.06 N +ATOM 749 CD2 HIS A 886 -1.109 -16.560 15.009 1.00 45.69 C +ATOM 750 CE1 HIS A 886 -3.129 -15.740 15.147 1.00 58.05 C +ATOM 751 NE2 HIS A 886 -1.882 -15.435 14.784 1.00 46.44 N +ATOM 752 H HIS A 886 0.427 -18.741 18.015 1.00 51.39 H +ATOM 753 HA HIS A 886 -2.531 -18.764 17.934 1.00 52.46 H +ATOM 754 HB3 HIS A 886 -2.404 -19.582 15.562 1.00 48.87 H +ATOM 755 HB2 HIS A 886 -0.697 -19.218 15.520 1.00 48.87 H +ATOM 756 HD2 HIS A 886 -0.049 -16.585 14.803 1.00 45.69 H +ATOM 757 HE1 HIS A 886 -3.956 -15.048 15.079 1.00 58.05 H +ATOM 758 HE2 HIS A 886 -1.565 -14.551 14.413 1.00 46.44 H +ATOM 759 N SER A 887 -2.213 -21.069 18.783 1.00 60.33 N +ATOM 760 CA SER A 887 -2.085 -22.392 19.395 1.00 64.99 C +ATOM 761 C SER A 887 -2.795 -23.469 18.554 1.00 56.13 C +ATOM 762 O SER A 887 -3.725 -24.114 19.039 1.00 48.64 O +ATOM 763 CB SER A 887 -2.626 -22.318 20.838 1.00 61.74 C +ATOM 764 OG SER A 887 -1.808 -21.488 21.634 1.00 69.62 O +ATOM 765 H SER A 887 -2.979 -20.504 19.118 1.00 60.33 H +ATOM 766 HA SER A 887 -1.032 -22.678 19.446 1.00 64.99 H +ATOM 767 HB3 SER A 887 -2.632 -23.307 21.300 1.00 61.74 H +ATOM 768 HB2 SER A 887 -3.649 -21.941 20.859 1.00 61.74 H +ATOM 769 HG SER A 887 -1.436 -22.018 22.348 1.00 69.62 H +ATOM 770 N THR A 888 -2.334 -23.648 17.304 1.00 49.62 N +ATOM 771 CA THR A 888 -2.758 -24.725 16.404 1.00 55.92 C +ATOM 772 C THR A 888 -2.103 -26.064 16.807 1.00 65.20 C +ATOM 773 O THR A 888 -1.118 -26.056 17.545 1.00 47.75 O +ATOM 774 CB THR A 888 -2.406 -24.399 14.918 1.00 56.42 C +ATOM 775 OG1 THR A 888 -1.092 -24.755 14.525 1.00 49.12 O +ATOM 776 CG2 THR A 888 -2.702 -22.951 14.495 1.00 60.65 C +ATOM 777 H THR A 888 -1.570 -23.074 16.973 1.00 49.62 H +ATOM 778 HA THR A 888 -3.841 -24.840 16.483 1.00 55.92 H +ATOM 779 HB THR A 888 -3.054 -25.029 14.307 1.00 56.42 H +ATOM 780 HG1 THR A 888 -0.914 -24.371 13.662 1.00 49.12 H +ATOM 781 HG21 THR A 888 -2.548 -22.816 13.424 1.00 60.65 H +ATOM 782 HG22 THR A 888 -3.735 -22.683 14.716 1.00 60.65 H +ATOM 783 HG23 THR A 888 -2.055 -22.239 15.009 1.00 60.65 H +ATOM 784 N GLU A 889 -2.643 -27.189 16.305 1.00 66.55 N +ATOM 785 CA GLU A 889 -2.106 -28.533 16.556 1.00 67.79 C +ATOM 786 C GLU A 889 -0.656 -28.719 16.068 1.00 52.63 C +ATOM 787 O GLU A 889 0.138 -29.329 16.780 1.00 64.08 O +ATOM 788 CB GLU A 889 -3.002 -29.610 15.917 1.00 76.32 C +ATOM 789 CG GLU A 889 -4.475 -29.597 16.383 1.00 80.21 C +ATOM 790 CD GLU A 889 -5.338 -30.747 15.830 1.00 93.06 C +ATOM 791 OE1 GLU A 889 -4.804 -31.627 15.114 1.00 86.72 O +ATOM 792 OE2 GLU A 889 -6.547 -30.729 16.146 1.00 82.87 O1- +ATOM 793 H GLU A 889 -3.457 -27.139 15.709 1.00 66.55 H +ATOM 794 HA GLU A 889 -2.110 -28.687 17.637 1.00 67.79 H +ATOM 795 HB3 GLU A 889 -2.570 -30.582 16.153 1.00 76.32 H +ATOM 796 HB2 GLU A 889 -2.969 -29.514 14.830 1.00 76.32 H +ATOM 797 HG3 GLU A 889 -4.944 -28.654 16.101 1.00 80.21 H +ATOM 798 HG2 GLU A 889 -4.507 -29.644 17.472 1.00 80.21 H +ATOM 799 N GLU A 890 -0.339 -28.164 14.885 1.00 47.09 N +ATOM 800 CA GLU A 890 1.001 -28.143 14.296 1.00 56.63 C +ATOM 801 C GLU A 890 2.003 -27.333 15.136 1.00 48.36 C +ATOM 802 O GLU A 890 3.098 -27.825 15.408 1.00 49.73 O +ATOM 803 CB GLU A 890 0.897 -27.630 12.843 1.00 66.57 C +ATOM 804 CG GLU A 890 2.248 -27.456 12.104 1.00 74.14 C +ATOM 805 CD GLU A 890 2.144 -26.994 10.640 1.00 82.10 C +ATOM 806 OE1 GLU A 890 1.027 -26.665 10.181 1.00 61.54 O +ATOM 807 OE2 GLU A 890 3.214 -26.972 9.992 1.00 79.24 O1- +ATOM 808 H GLU A 890 -1.052 -27.668 14.370 1.00 47.09 H +ATOM 809 HA GLU A 890 1.363 -29.172 14.262 1.00 56.63 H +ATOM 810 HB3 GLU A 890 0.358 -26.680 12.839 1.00 66.57 H +ATOM 811 HB2 GLU A 890 0.276 -28.328 12.279 1.00 66.57 H +ATOM 812 HG3 GLU A 890 2.796 -28.399 12.133 1.00 74.14 H +ATOM 813 HG2 GLU A 890 2.869 -26.724 12.621 1.00 74.14 H +ATOM 814 N HIS A 891 1.588 -26.122 15.543 1.00 55.81 N +ATOM 815 CA HIS A 891 2.385 -25.202 16.353 1.00 49.86 C +ATOM 816 C HIS A 891 2.640 -25.724 17.775 1.00 39.96 C +ATOM 817 O HIS A 891 3.731 -25.497 18.288 1.00 38.80 O +ATOM 818 CB HIS A 891 1.721 -23.812 16.385 1.00 53.21 C +ATOM 819 CG HIS A 891 1.592 -23.115 15.050 1.00 72.66 C +ATOM 820 ND1 HIS A 891 0.956 -21.893 14.922 1.00 67.47 N +ATOM 821 CD2 HIS A 891 1.996 -23.453 13.776 1.00 79.54 C +ATOM 822 CE1 HIS A 891 0.987 -21.561 13.630 1.00 59.41 C +ATOM 823 NE2 HIS A 891 1.601 -22.462 12.874 1.00 63.81 N +ATOM 824 H HIS A 891 0.669 -25.794 15.277 1.00 55.81 H +ATOM 825 HA HIS A 891 3.360 -25.098 15.871 1.00 49.86 H +ATOM 826 HB3 HIS A 891 2.286 -23.146 17.037 1.00 53.21 H +ATOM 827 HB2 HIS A 891 0.724 -23.888 16.822 1.00 53.21 H +ATOM 828 HD1 HIS A 891 0.533 -21.362 15.672 1.00 67.47 H +ATOM 829 HD2 HIS A 891 2.529 -24.329 13.436 1.00 79.54 H +ATOM 830 HE1 HIS A 891 0.552 -20.652 13.240 1.00 59.41 H +ATOM 831 N LEU A 892 1.661 -26.432 18.369 1.00 32.40 N +ATOM 832 CA LEU A 892 1.776 -27.093 19.673 1.00 39.69 C +ATOM 833 C LEU A 892 2.815 -28.226 19.672 1.00 31.88 C +ATOM 834 O LEU A 892 3.574 -28.320 20.633 1.00 31.78 O +ATOM 835 CB LEU A 892 0.394 -27.611 20.135 1.00 36.48 C +ATOM 836 CG LEU A 892 -0.511 -26.536 20.782 1.00 45.97 C +ATOM 837 CD1 LEU A 892 -1.993 -26.968 20.784 1.00 41.68 C +ATOM 838 CD2 LEU A 892 -0.021 -26.152 22.197 1.00 48.66 C +ATOM 839 H LEU A 892 0.777 -26.548 17.890 1.00 32.40 H +ATOM 840 HA LEU A 892 2.131 -26.350 20.387 1.00 39.69 H +ATOM 841 HB3 LEU A 892 0.510 -28.426 20.852 1.00 36.48 H +ATOM 842 HB2 LEU A 892 -0.110 -28.056 19.276 1.00 36.48 H +ATOM 843 HG LEU A 892 -0.446 -25.640 20.163 1.00 45.97 H +ATOM 844 HD11 LEU A 892 -2.462 -26.874 21.764 1.00 41.68 H +ATOM 845 HD12 LEU A 892 -2.573 -26.352 20.097 1.00 41.68 H +ATOM 846 HD13 LEU A 892 -2.120 -28.004 20.467 1.00 41.68 H +ATOM 847 HD21 LEU A 892 -0.008 -25.071 22.327 1.00 48.66 H +ATOM 848 HD22 LEU A 892 -0.655 -26.562 22.982 1.00 48.66 H +ATOM 849 HD23 LEU A 892 0.987 -26.515 22.399 1.00 48.66 H +ATOM 850 N ARG A 893 2.869 -29.025 18.590 1.00 35.30 N +ATOM 851 CA ARG A 893 3.867 -30.083 18.398 1.00 43.78 C +ATOM 852 C ARG A 893 5.293 -29.524 18.247 1.00 34.74 C +ATOM 853 O ARG A 893 6.203 -30.068 18.867 1.00 41.37 O +ATOM 854 CB ARG A 893 3.482 -30.959 17.188 1.00 46.76 C +ATOM 855 CG ARG A 893 2.183 -31.756 17.401 1.00 59.92 C +ATOM 856 CD ARG A 893 1.666 -32.415 16.110 1.00 69.04 C +ATOM 857 NE ARG A 893 0.316 -32.983 16.289 1.00 78.68 N +ATOM 858 CZ ARG A 893 -0.775 -32.806 15.516 1.00 92.32 C +ATOM 859 NH1 ARG A 893 -0.757 -32.072 14.393 1.00 68.31 N +ATOM 860 NH2 ARG A 893 -1.926 -33.384 15.884 1.00114.20 N1+ +ATOM 861 H ARG A 893 2.214 -28.881 17.834 1.00 35.30 H +ATOM 862 HA ARG A 893 3.861 -30.715 19.288 1.00 43.78 H +ATOM 863 HB3 ARG A 893 4.286 -31.664 16.969 1.00 46.76 H +ATOM 864 HB2 ARG A 893 3.389 -30.330 16.302 1.00 46.76 H +ATOM 865 HG3 ARG A 893 1.404 -31.188 17.909 1.00 59.92 H +ATOM 866 HG2 ARG A 893 2.450 -32.553 18.098 1.00 59.92 H +ATOM 867 HD3 ARG A 893 2.285 -33.291 15.914 1.00 69.04 H +ATOM 868 HD2 ARG A 893 1.783 -31.765 15.244 1.00 69.04 H +ATOM 869 HE ARG A 893 0.209 -33.556 17.114 1.00 78.68 H +ATOM 870 HH12 ARG A 893 -1.597 -31.954 13.845 1.00 68.31 H +ATOM 871 HH11 ARG A 893 0.097 -31.620 14.099 1.00 68.31 H +ATOM 872 HH22 ARG A 893 -2.776 -33.207 15.363 1.00114.20 H +ATOM 873 HH21 ARG A 893 -1.976 -33.947 16.721 1.00114.20 H +ATOM 874 N ASP A 894 5.455 -28.432 17.479 1.00 28.96 N +ATOM 875 CA ASP A 894 6.728 -27.719 17.305 1.00 31.46 C +ATOM 876 C ASP A 894 7.189 -26.961 18.564 1.00 28.65 C +ATOM 877 O ASP A 894 8.396 -26.828 18.764 1.00 32.57 O +ATOM 878 CB ASP A 894 6.725 -26.771 16.079 1.00 33.06 C +ATOM 879 CG ASP A 894 6.496 -27.434 14.708 1.00 54.87 C +ATOM 880 OD1 ASP A 894 6.749 -28.654 14.576 1.00 48.92 O +ATOM 881 OD2 ASP A 894 6.231 -26.666 13.757 1.00 64.86 O1- +ATOM 882 H ASP A 894 4.660 -28.047 16.986 1.00 28.96 H +ATOM 883 HA ASP A 894 7.496 -28.473 17.130 1.00 31.46 H +ATOM 884 HB3 ASP A 894 7.674 -26.232 16.025 1.00 33.06 H +ATOM 885 HB2 ASP A 894 5.944 -26.019 16.216 1.00 33.06 H +ATOM 886 N PHE A 895 6.239 -26.504 19.395 1.00 24.20 N +ATOM 887 CA PHE A 895 6.503 -25.803 20.650 1.00 23.44 C +ATOM 888 C PHE A 895 6.876 -26.770 21.790 1.00 21.99 C +ATOM 889 O PHE A 895 7.708 -26.414 22.623 1.00 19.71 O +ATOM 890 CB PHE A 895 5.289 -24.920 20.986 1.00 23.36 C +ATOM 891 CG PHE A 895 5.483 -23.953 22.136 1.00 24.83 C +ATOM 892 CD1 PHE A 895 6.264 -22.795 21.941 1.00 23.79 C +ATOM 893 CD2 PHE A 895 5.010 -24.259 23.428 1.00 24.08 C +ATOM 894 CE1 PHE A 895 6.504 -21.936 23.001 1.00 19.52 C +ATOM 895 CE2 PHE A 895 5.256 -23.381 24.473 1.00 19.09 C +ATOM 896 CZ PHE A 895 5.989 -22.222 24.257 1.00 21.08 C +ATOM 897 H PHE A 895 5.266 -26.623 19.146 1.00 24.20 H +ATOM 898 HA PHE A 895 7.356 -25.139 20.489 1.00 23.44 H +ATOM 899 HB3 PHE A 895 4.405 -25.532 21.164 1.00 23.36 H +ATOM 900 HB2 PHE A 895 5.061 -24.305 20.117 1.00 23.36 H +ATOM 901 HD1 PHE A 895 6.677 -22.573 20.968 1.00 23.79 H +ATOM 902 HD2 PHE A 895 4.455 -25.169 23.605 1.00 24.08 H +ATOM 903 HE1 PHE A 895 7.101 -21.051 22.848 1.00 19.52 H +ATOM 904 HE2 PHE A 895 4.889 -23.607 25.461 1.00 19.09 H +ATOM 905 HZ PHE A 895 6.179 -21.547 25.075 1.00 21.08 H +ATOM 906 N GLU A 896 6.314 -27.993 21.770 1.00 23.21 N +ATOM 907 CA GLU A 896 6.735 -29.111 22.617 1.00 30.43 C +ATOM 908 C GLU A 896 8.124 -29.648 22.239 1.00 24.92 C +ATOM 909 O GLU A 896 8.883 -29.998 23.139 1.00 24.47 O +ATOM 910 CB GLU A 896 5.684 -30.234 22.595 1.00 36.04 C +ATOM 911 CG GLU A 896 4.435 -29.892 23.427 1.00 46.65 C +ATOM 912 CD GLU A 896 3.399 -31.018 23.401 1.00 45.62 C +ATOM 913 OE1 GLU A 896 3.623 -32.019 24.118 1.00 43.14 O +ATOM 914 OE2 GLU A 896 2.383 -30.857 22.689 1.00 59.66 O1- +ATOM 915 H GLU A 896 5.607 -28.204 21.078 1.00 23.21 H +ATOM 916 HA GLU A 896 6.806 -28.744 23.642 1.00 30.43 H +ATOM 917 HB3 GLU A 896 6.122 -31.164 22.964 1.00 36.04 H +ATOM 918 HB2 GLU A 896 5.386 -30.435 21.565 1.00 36.04 H +ATOM 919 HG3 GLU A 896 3.986 -28.957 23.092 1.00 46.65 H +ATOM 920 HG2 GLU A 896 4.736 -29.724 24.460 1.00 46.65 H +ATOM 921 N ARG A 897 8.453 -29.656 20.935 1.00 27.17 N +ATOM 922 CA ARG A 897 9.791 -29.974 20.432 1.00 28.40 C +ATOM 923 C ARG A 897 10.831 -28.919 20.849 1.00 25.81 C +ATOM 924 O ARG A 897 11.939 -29.320 21.190 1.00 26.37 O +ATOM 925 CB ARG A 897 9.757 -30.172 18.905 1.00 34.03 C +ATOM 926 CG ARG A 897 9.026 -31.461 18.487 1.00 38.66 C +ATOM 927 CD ARG A 897 8.690 -31.509 16.988 1.00 56.74 C +ATOM 928 NE ARG A 897 7.868 -32.687 16.654 1.00 81.82 N +ATOM 929 CZ ARG A 897 7.095 -32.875 15.567 1.00 97.70 C +ATOM 930 NH1 ARG A 897 6.933 -31.933 14.624 1.00 63.84 N +ATOM 931 NH2 ARG A 897 6.462 -34.045 15.422 1.00 84.13 N1+ +ATOM 932 H ARG A 897 7.767 -29.376 20.247 1.00 27.17 H +ATOM 933 HA ARG A 897 10.104 -30.918 20.884 1.00 28.40 H +ATOM 934 HB3 ARG A 897 10.775 -30.220 18.513 1.00 34.03 H +ATOM 935 HB2 ARG A 897 9.299 -29.304 18.434 1.00 34.03 H +ATOM 936 HG3 ARG A 897 8.151 -31.673 19.102 1.00 38.66 H +ATOM 937 HG2 ARG A 897 9.726 -32.271 18.702 1.00 38.66 H +ATOM 938 HD3 ARG A 897 9.618 -31.663 16.437 1.00 56.74 H +ATOM 939 HD2 ARG A 897 8.272 -30.568 16.632 1.00 56.74 H +ATOM 940 HE ARG A 897 7.922 -33.440 17.324 1.00 81.82 H +ATOM 941 HH12 ARG A 897 6.355 -32.104 13.815 1.00 63.84 H +ATOM 942 HH11 ARG A 897 7.333 -31.011 14.748 1.00 63.84 H +ATOM 943 HH22 ARG A 897 5.883 -34.217 14.612 1.00 84.13 H +ATOM 944 HH21 ARG A 897 6.563 -34.773 16.116 1.00 84.13 H +ATOM 945 N GLU A 898 10.454 -27.625 20.888 1.00 20.49 N +ATOM 946 CA GLU A 898 11.279 -26.539 21.430 1.00 19.33 C +ATOM 947 C GLU A 898 11.558 -26.701 22.939 1.00 18.90 C +ATOM 948 O GLU A 898 12.700 -26.512 23.356 1.00 21.39 O +ATOM 949 CB GLU A 898 10.650 -25.165 21.094 1.00 23.64 C +ATOM 950 CG GLU A 898 11.430 -23.951 21.660 1.00 20.94 C +ATOM 951 CD GLU A 898 10.832 -22.564 21.380 1.00 22.58 C +ATOM 952 OE1 GLU A 898 9.665 -22.474 20.934 1.00 22.53 O +ATOM 953 OE2 GLU A 898 11.572 -21.586 21.625 1.00 22.72 O1- +ATOM 954 H GLU A 898 9.530 -27.366 20.571 1.00 20.49 H +ATOM 955 HA GLU A 898 12.243 -26.585 20.919 1.00 19.33 H +ATOM 956 HB3 GLU A 898 9.624 -25.141 21.458 1.00 23.64 H +ATOM 957 HB2 GLU A 898 10.585 -25.066 20.009 1.00 23.64 H +ATOM 958 HG3 GLU A 898 12.448 -23.980 21.274 1.00 20.94 H +ATOM 959 HG2 GLU A 898 11.517 -24.028 22.741 1.00 20.94 H +ATOM 960 N ILE A 899 10.519 -27.069 23.711 1.00 19.57 N +ATOM 961 CA ILE A 899 10.586 -27.349 25.149 1.00 20.16 C +ATOM 962 C ILE A 899 11.524 -28.522 25.494 1.00 22.40 C +ATOM 963 O ILE A 899 12.347 -28.370 26.395 1.00 19.23 O +ATOM 964 CB ILE A 899 9.158 -27.571 25.752 1.00 22.54 C +ATOM 965 CG1 ILE A 899 8.463 -26.206 25.965 1.00 21.55 C +ATOM 966 CG2 ILE A 899 9.076 -28.428 27.040 1.00 16.44 C +ATOM 967 CD1 ILE A 899 6.931 -26.264 26.033 1.00 21.28 C +ATOM 968 H ILE A 899 9.608 -27.176 23.284 1.00 19.57 H +ATOM 969 HA ILE A 899 11.014 -26.461 25.618 1.00 20.16 H +ATOM 970 HB ILE A 899 8.576 -28.103 25.000 1.00 22.54 H +ATOM 971 HG13 ILE A 899 8.727 -25.530 25.151 1.00 21.55 H +ATOM 972 HG12 ILE A 899 8.846 -25.740 26.872 1.00 21.55 H +ATOM 973 HG21 ILE A 899 8.054 -28.505 27.408 1.00 16.44 H +ATOM 974 HG22 ILE A 899 9.405 -29.454 26.874 1.00 16.44 H +ATOM 975 HG23 ILE A 899 9.683 -28.005 27.839 1.00 16.44 H +ATOM 976 HD11 ILE A 899 6.524 -25.281 26.270 1.00 21.28 H +ATOM 977 HD12 ILE A 899 6.504 -26.579 25.081 1.00 21.28 H +ATOM 978 HD13 ILE A 899 6.578 -26.948 26.801 1.00 21.28 H +ATOM 979 N GLU A 900 11.401 -29.643 24.763 1.00 22.29 N +ATOM 980 CA GLU A 900 12.232 -30.839 24.925 1.00 18.43 C +ATOM 981 C GLU A 900 13.689 -30.634 24.474 1.00 20.76 C +ATOM 982 O GLU A 900 14.594 -31.138 25.140 1.00 21.18 O +ATOM 983 CB GLU A 900 11.578 -32.034 24.197 1.00 23.21 C +ATOM 984 CG GLU A 900 10.243 -32.510 24.824 1.00 21.13 C +ATOM 985 CD GLU A 900 10.345 -33.193 26.198 1.00 28.70 C +ATOM 986 OE1 GLU A 900 9.305 -33.213 26.893 1.00 27.57 O +ATOM 987 OE2 GLU A 900 11.440 -33.681 26.557 1.00 34.62 O1- +ATOM 988 H GLU A 900 10.685 -29.693 24.049 1.00 22.29 H +ATOM 989 HA GLU A 900 12.273 -31.065 25.992 1.00 18.43 H +ATOM 990 HB3 GLU A 900 12.277 -32.869 24.124 1.00 23.21 H +ATOM 991 HB2 GLU A 900 11.377 -31.745 23.164 1.00 23.21 H +ATOM 992 HG3 GLU A 900 9.768 -33.217 24.143 1.00 21.13 H +ATOM 993 HG2 GLU A 900 9.555 -31.670 24.910 1.00 21.13 H +ATOM 994 N ILE A 901 13.889 -29.863 23.389 1.00 16.29 N +ATOM 995 CA ILE A 901 15.197 -29.422 22.902 1.00 20.81 C +ATOM 996 C ILE A 901 15.934 -28.557 23.942 1.00 20.89 C +ATOM 997 O ILE A 901 17.053 -28.906 24.307 1.00 19.02 O +ATOM 998 CB ILE A 901 15.089 -28.697 21.517 1.00 23.35 C +ATOM 999 CG1 ILE A 901 14.951 -29.744 20.385 1.00 23.40 C +ATOM 1000 CG2 ILE A 901 16.204 -27.687 21.163 1.00 24.20 C +ATOM 1001 CD1 ILE A 901 14.394 -29.191 19.061 1.00 20.21 C +ATOM 1002 H ILE A 901 13.089 -29.505 22.883 1.00 16.29 H +ATOM 1003 HA ILE A 901 15.798 -30.322 22.760 1.00 20.81 H +ATOM 1004 HB ILE A 901 14.168 -28.115 21.537 1.00 23.35 H +ATOM 1005 HG13 ILE A 901 14.302 -30.557 20.711 1.00 23.40 H +ATOM 1006 HG12 ILE A 901 15.921 -30.208 20.199 1.00 23.40 H +ATOM 1007 HG21 ILE A 901 16.068 -27.283 20.160 1.00 24.20 H +ATOM 1008 HG22 ILE A 901 16.205 -26.827 21.832 1.00 24.20 H +ATOM 1009 HG23 ILE A 901 17.188 -28.151 21.197 1.00 24.20 H +ATOM 1010 HD11 ILE A 901 13.537 -29.776 18.726 1.00 20.21 H +ATOM 1011 HD12 ILE A 901 14.063 -28.156 19.148 1.00 20.21 H +ATOM 1012 HD13 ILE A 901 15.145 -29.237 18.273 1.00 20.21 H +ATOM 1013 N LEU A 902 15.283 -27.492 24.436 1.00 18.80 N +ATOM 1014 CA LEU A 902 15.869 -26.543 25.384 1.00 22.26 C +ATOM 1015 C LEU A 902 16.067 -27.111 26.805 1.00 21.27 C +ATOM 1016 O LEU A 902 17.003 -26.687 27.482 1.00 22.70 O +ATOM 1017 CB LEU A 902 15.033 -25.243 25.369 1.00 18.04 C +ATOM 1018 CG LEU A 902 15.656 -24.048 26.127 1.00 22.36 C +ATOM 1019 CD1 LEU A 902 17.071 -23.702 25.620 1.00 15.71 C +ATOM 1020 CD2 LEU A 902 14.717 -22.830 26.097 1.00 20.97 C +ATOM 1021 H LEU A 902 14.351 -27.274 24.104 1.00 18.80 H +ATOM 1022 HA LEU A 902 16.864 -26.316 25.002 1.00 22.26 H +ATOM 1023 HB3 LEU A 902 14.041 -25.455 25.773 1.00 18.04 H +ATOM 1024 HB2 LEU A 902 14.874 -24.940 24.333 1.00 18.04 H +ATOM 1025 HG LEU A 902 15.750 -24.325 27.176 1.00 22.36 H +ATOM 1026 HD11 LEU A 902 17.239 -22.629 25.547 1.00 15.71 H +ATOM 1027 HD12 LEU A 902 17.826 -24.099 26.299 1.00 15.71 H +ATOM 1028 HD13 LEU A 902 17.268 -24.124 24.636 1.00 15.71 H +ATOM 1029 HD21 LEU A 902 14.601 -22.421 27.099 1.00 20.97 H +ATOM 1030 HD22 LEU A 902 15.089 -22.028 25.457 1.00 20.97 H +ATOM 1031 HD23 LEU A 902 13.721 -23.086 25.735 1.00 20.97 H +ATOM 1032 N LYS A 903 15.226 -28.075 27.217 1.00 23.95 N +ATOM 1033 CA LYS A 903 15.360 -28.813 28.477 1.00 24.88 C +ATOM 1034 C LYS A 903 16.595 -29.734 28.496 1.00 27.82 C +ATOM 1035 O LYS A 903 17.278 -29.794 29.519 1.00 26.23 O +ATOM 1036 CB LYS A 903 14.044 -29.571 28.759 1.00 22.78 C +ATOM 1037 CG LYS A 903 14.048 -30.469 30.013 1.00 34.16 C +ATOM 1038 CD LYS A 903 12.658 -30.998 30.406 1.00 38.33 C +ATOM 1039 CE LYS A 903 11.965 -31.822 29.309 1.00 36.68 C +ATOM 1040 NZ LYS A 903 10.664 -32.348 29.757 1.00 43.16 N1+ +ATOM 1041 H LYS A 903 14.458 -28.352 26.620 1.00 23.95 H +ATOM 1042 HA LYS A 903 15.493 -28.080 29.273 1.00 24.88 H +ATOM 1043 HB3 LYS A 903 13.795 -30.181 27.890 1.00 22.78 H +ATOM 1044 HB2 LYS A 903 13.242 -28.838 28.860 1.00 22.78 H +ATOM 1045 HG3 LYS A 903 14.462 -29.911 30.853 1.00 34.16 H +ATOM 1046 HG2 LYS A 903 14.713 -31.320 29.857 1.00 34.16 H +ATOM 1047 HD3 LYS A 903 12.021 -30.160 30.684 1.00 38.33 H +ATOM 1048 HD2 LYS A 903 12.763 -31.603 31.309 1.00 38.33 H +ATOM 1049 HE3 LYS A 903 12.597 -32.657 29.006 1.00 36.68 H +ATOM 1050 HE2 LYS A 903 11.788 -31.211 28.423 1.00 36.68 H +ATOM 1051 HZ1 LYS A 903 10.240 -32.856 28.989 1.00 43.16 H +ATOM 1052 HZ2 LYS A 903 10.796 -32.971 30.540 1.00 43.16 H +ATOM 1053 HZ3 LYS A 903 10.060 -31.584 30.024 1.00 43.16 H +ATOM 1054 N SER A 904 16.866 -30.410 27.365 1.00 20.92 N +ATOM 1055 CA SER A 904 18.023 -31.291 27.189 1.00 23.64 C +ATOM 1056 C SER A 904 19.356 -30.536 27.001 1.00 21.44 C +ATOM 1057 O SER A 904 20.400 -31.100 27.331 1.00 22.95 O +ATOM 1058 CB SER A 904 17.731 -32.294 26.053 1.00 26.75 C +ATOM 1059 OG SER A 904 17.820 -31.707 24.771 1.00 24.98 O +ATOM 1060 H SER A 904 16.248 -30.315 26.571 1.00 20.92 H +ATOM 1061 HA SER A 904 18.120 -31.877 28.105 1.00 23.64 H +ATOM 1062 HB3 SER A 904 16.744 -32.744 26.175 1.00 26.75 H +ATOM 1063 HB2 SER A 904 18.450 -33.112 26.091 1.00 26.75 H +ATOM 1064 HG SER A 904 17.165 -31.004 24.711 1.00 24.98 H +ATOM 1065 N LEU A 905 19.303 -29.283 26.510 1.00 20.46 N +ATOM 1066 CA LEU A 905 20.455 -28.388 26.415 1.00 19.72 C +ATOM 1067 C LEU A 905 20.758 -27.785 27.796 1.00 22.28 C +ATOM 1068 O LEU A 905 19.899 -27.109 28.361 1.00 22.74 O +ATOM 1069 CB LEU A 905 20.169 -27.245 25.417 1.00 16.62 C +ATOM 1070 CG LEU A 905 20.042 -27.631 23.928 1.00 18.63 C +ATOM 1071 CD1 LEU A 905 19.331 -26.516 23.136 1.00 12.81 C +ATOM 1072 CD2 LEU A 905 21.378 -28.024 23.276 1.00 19.67 C +ATOM 1073 H LEU A 905 18.410 -28.886 26.254 1.00 20.46 H +ATOM 1074 HA LEU A 905 21.315 -28.965 26.075 1.00 19.72 H +ATOM 1075 HB3 LEU A 905 20.952 -26.491 25.503 1.00 16.62 H +ATOM 1076 HB2 LEU A 905 19.249 -26.750 25.732 1.00 16.62 H +ATOM 1077 HG LEU A 905 19.420 -28.521 23.871 1.00 18.63 H +ATOM 1078 HD11 LEU A 905 19.894 -26.204 22.260 1.00 12.81 H +ATOM 1079 HD12 LEU A 905 18.359 -26.854 22.788 1.00 12.81 H +ATOM 1080 HD13 LEU A 905 19.159 -25.622 23.734 1.00 12.81 H +ATOM 1081 HD21 LEU A 905 21.200 -28.662 22.413 1.00 19.67 H +ATOM 1082 HD22 LEU A 905 21.938 -27.160 22.923 1.00 19.67 H +ATOM 1083 HD23 LEU A 905 22.022 -28.577 23.955 1.00 19.67 H +ATOM 1084 N GLN A 906 21.979 -28.024 28.296 0.50 22.95 N +ATOM 1085 CA GLN A 906 22.476 -27.494 29.563 0.50 24.70 C +ATOM 1086 C GLN A 906 23.902 -26.981 29.329 0.50 23.67 C +ATOM 1087 O GLN A 906 24.852 -27.761 29.395 0.50 21.74 O +ATOM 1088 CB GLN A 906 22.401 -28.589 30.658 0.50 30.80 C +ATOM 1089 CG GLN A 906 20.974 -29.026 31.068 0.50 35.70 C +ATOM 1090 CD GLN A 906 20.109 -27.897 31.640 0.50 42.08 C +ATOM 1091 OE1 GLN A 906 20.602 -27.020 32.347 0.50 65.27 O +ATOM 1092 NE2 GLN A 906 18.804 -27.926 31.360 0.50 41.71 N +ATOM 1093 H GLN A 906 22.630 -28.601 27.781 1.00 22.95 H +ATOM 1094 HA GLN A 906 21.880 -26.635 29.877 1.00 24.70 H +ATOM 1095 HB3 GLN A 906 22.926 -28.240 31.549 1.00 30.80 H +ATOM 1096 HB2 GLN A 906 22.948 -29.472 30.326 1.00 30.80 H +ATOM 1097 HG3 GLN A 906 21.043 -29.807 31.826 1.00 35.70 H +ATOM 1098 HG2 GLN A 906 20.466 -29.478 30.215 1.00 35.70 H +ATOM 1099 HE22 GLN A 906 18.195 -27.209 31.724 1.00 41.71 H +ATOM 1100 HE21 GLN A 906 18.419 -28.650 30.766 1.00 41.71 H +ATOM 1101 N HIS A 907 24.009 -25.680 29.014 1.00 22.68 N +ATOM 1102 CA HIS A 907 25.257 -25.014 28.642 1.00 22.93 C +ATOM 1103 C HIS A 907 25.243 -23.557 29.125 1.00 22.54 C +ATOM 1104 O HIS A 907 24.176 -22.949 29.217 1.00 24.13 O +ATOM 1105 CB HIS A 907 25.427 -25.111 27.111 1.00 22.38 C +ATOM 1106 CG HIS A 907 26.807 -24.803 26.586 1.00 22.84 C +ATOM 1107 ND1 HIS A 907 27.164 -23.539 26.104 1.00 22.61 N +ATOM 1108 CD2 HIS A 907 27.893 -25.644 26.474 1.00 27.42 C +ATOM 1109 CE1 HIS A 907 28.430 -23.662 25.731 1.00 20.35 C +ATOM 1110 NE2 HIS A 907 28.913 -24.890 25.921 1.00 22.85 N +ATOM 1111 H HIS A 907 23.183 -25.099 28.992 1.00 22.68 H +ATOM 1112 HA HIS A 907 26.089 -25.526 29.130 1.00 22.93 H +ATOM 1113 HB3 HIS A 907 24.709 -24.466 26.604 1.00 22.38 H +ATOM 1114 HB2 HIS A 907 25.195 -26.124 26.790 1.00 22.38 H +ATOM 1115 HD2 HIS A 907 28.016 -26.687 26.728 1.00 27.42 H +ATOM 1116 HE1 HIS A 907 29.006 -22.855 25.303 1.00 20.35 H +ATOM 1117 HE2 HIS A 907 29.844 -25.209 25.695 1.00 22.85 H +ATOM 1118 N ASP A 908 26.446 -23.022 29.388 1.00 22.20 N +ATOM 1119 CA ASP A 908 26.698 -21.635 29.804 1.00 18.38 C +ATOM 1120 C ASP A 908 26.278 -20.577 28.770 1.00 18.04 C +ATOM 1121 O ASP A 908 25.988 -19.449 29.168 1.00 24.67 O +ATOM 1122 CB ASP A 908 28.185 -21.391 30.169 1.00 22.45 C +ATOM 1123 CG ASP A 908 28.767 -22.230 31.320 1.00 31.75 C +ATOM 1124 OD1 ASP A 908 27.985 -22.761 32.140 1.00 28.88 O +ATOM 1125 OD2 ASP A 908 30.011 -22.200 31.444 1.00 38.45 O1- +ATOM 1126 H ASP A 908 27.269 -23.599 29.289 1.00 22.20 H +ATOM 1127 HA ASP A 908 26.089 -21.452 30.692 1.00 18.38 H +ATOM 1128 HB3 ASP A 908 28.335 -20.342 30.419 1.00 22.45 H +ATOM 1129 HB2 ASP A 908 28.797 -21.585 29.285 1.00 22.45 H +ATOM 1130 N ASN A 909 26.273 -20.949 27.480 1.00 20.55 N +ATOM 1131 CA ASN A 909 25.970 -20.067 26.351 1.00 18.97 C +ATOM 1132 C ASN A 909 24.680 -20.499 25.633 1.00 15.14 C +ATOM 1133 O ASN A 909 24.544 -20.273 24.430 1.00 16.73 O +ATOM 1134 CB ASN A 909 27.180 -19.961 25.393 1.00 20.44 C +ATOM 1135 CG ASN A 909 28.490 -19.586 26.094 1.00 19.67 C +ATOM 1136 OD1 ASN A 909 29.500 -20.270 25.946 1.00 21.50 O +ATOM 1137 ND2 ASN A 909 28.480 -18.493 26.860 1.00 18.38 N +ATOM 1138 H ASN A 909 26.525 -21.899 27.238 1.00 20.55 H +ATOM 1139 HA ASN A 909 25.743 -19.059 26.694 1.00 18.97 H +ATOM 1140 HB3 ASN A 909 26.981 -19.204 24.633 1.00 20.44 H +ATOM 1141 HB2 ASN A 909 27.325 -20.903 24.862 1.00 20.44 H +ATOM 1142 HD22 ASN A 909 29.317 -18.210 27.347 1.00 18.38 H +ATOM 1143 HD21 ASN A 909 27.641 -17.934 26.941 1.00 18.38 H +ATOM 1144 N ILE A 910 23.738 -21.066 26.401 1.00 18.09 N +ATOM 1145 CA ILE A 910 22.361 -21.346 26.006 1.00 17.42 C +ATOM 1146 C ILE A 910 21.454 -20.947 27.184 1.00 21.64 C +ATOM 1147 O ILE A 910 21.807 -21.216 28.334 1.00 22.21 O +ATOM 1148 CB ILE A 910 22.154 -22.851 25.644 1.00 22.05 C +ATOM 1149 CG1 ILE A 910 22.914 -23.197 24.339 1.00 19.95 C +ATOM 1150 CG2 ILE A 910 20.668 -23.262 25.539 1.00 20.71 C +ATOM 1151 CD1 ILE A 910 22.867 -24.672 23.931 1.00 18.94 C +ATOM 1152 H ILE A 910 23.937 -21.228 27.380 1.00 18.09 H +ATOM 1153 HA ILE A 910 22.091 -20.729 25.147 1.00 17.42 H +ATOM 1154 HB ILE A 910 22.592 -23.452 26.443 1.00 22.05 H +ATOM 1155 HG13 ILE A 910 23.965 -22.925 24.430 1.00 19.95 H +ATOM 1156 HG12 ILE A 910 22.520 -22.593 23.522 1.00 19.95 H +ATOM 1157 HG21 ILE A 910 20.542 -24.275 25.169 1.00 20.71 H +ATOM 1158 HG22 ILE A 910 20.170 -23.237 26.508 1.00 20.71 H +ATOM 1159 HG23 ILE A 910 20.128 -22.597 24.869 1.00 20.71 H +ATOM 1160 HD11 ILE A 910 23.702 -24.915 23.273 1.00 18.94 H +ATOM 1161 HD12 ILE A 910 22.923 -25.330 24.797 1.00 18.94 H +ATOM 1162 HD13 ILE A 910 21.949 -24.893 23.387 1.00 18.94 H +ATOM 1163 N VAL A 911 20.313 -20.299 26.880 1.00 22.05 N +ATOM 1164 CA VAL A 911 19.337 -19.844 27.875 1.00 21.59 C +ATOM 1165 C VAL A 911 18.719 -21.030 28.647 1.00 21.44 C +ATOM 1166 O VAL A 911 18.294 -22.007 28.032 1.00 18.71 O +ATOM 1167 CB VAL A 911 18.221 -18.963 27.236 1.00 21.92 C +ATOM 1168 CG1 VAL A 911 17.255 -19.707 26.290 1.00 16.74 C +ATOM 1169 CG2 VAL A 911 17.410 -18.187 28.290 1.00 17.91 C +ATOM 1170 H VAL A 911 20.086 -20.106 25.913 1.00 22.05 H +ATOM 1171 HA VAL A 911 19.889 -19.220 28.579 1.00 21.59 H +ATOM 1172 HB VAL A 911 18.735 -18.213 26.634 1.00 21.92 H +ATOM 1173 HG11 VAL A 911 16.589 -19.006 25.787 1.00 16.74 H +ATOM 1174 HG12 VAL A 911 17.793 -20.255 25.517 1.00 16.74 H +ATOM 1175 HG13 VAL A 911 16.618 -20.412 26.823 1.00 16.74 H +ATOM 1176 HG21 VAL A 911 16.693 -17.515 27.818 1.00 17.91 H +ATOM 1177 HG22 VAL A 911 16.850 -18.855 28.944 1.00 17.91 H +ATOM 1178 HG23 VAL A 911 18.063 -17.576 28.914 1.00 17.91 H +ATOM 1179 N LYS A 912 18.735 -20.939 29.986 1.00 17.75 N +ATOM 1180 CA LYS A 912 18.294 -22.013 30.874 1.00 19.17 C +ATOM 1181 C LYS A 912 16.774 -22.205 30.832 1.00 21.07 C +ATOM 1182 O LYS A 912 16.029 -21.242 31.016 1.00 17.05 O +ATOM 1183 CB LYS A 912 18.738 -21.730 32.322 1.00 20.10 C +ATOM 1184 CG LYS A 912 20.262 -21.734 32.522 1.00 21.72 C +ATOM 1185 CD LYS A 912 20.641 -21.479 33.987 1.00 23.95 C +ATOM 1186 CE LYS A 912 22.151 -21.287 34.182 1.00 29.41 C +ATOM 1187 NZ LYS A 912 22.479 -20.961 35.581 1.00 37.87 N1+ +ATOM 1188 H LYS A 912 19.115 -20.112 30.428 1.00 17.75 H +ATOM 1189 HA LYS A 912 18.778 -22.936 30.546 1.00 19.17 H +ATOM 1190 HB3 LYS A 912 18.311 -22.490 32.979 1.00 20.10 H +ATOM 1191 HB2 LYS A 912 18.323 -20.779 32.657 1.00 20.10 H +ATOM 1192 HG3 LYS A 912 20.721 -20.975 31.889 1.00 21.72 H +ATOM 1193 HG2 LYS A 912 20.674 -22.690 32.197 1.00 21.72 H +ATOM 1194 HD3 LYS A 912 20.298 -22.322 34.590 1.00 23.95 H +ATOM 1195 HD2 LYS A 912 20.100 -20.607 34.356 1.00 23.95 H +ATOM 1196 HE3 LYS A 912 22.509 -20.476 33.549 1.00 29.41 H +ATOM 1197 HE2 LYS A 912 22.690 -22.188 33.888 1.00 29.41 H +ATOM 1198 HZ1 LYS A 912 22.173 -21.713 36.182 1.00 37.87 H +ATOM 1199 HZ2 LYS A 912 23.477 -20.839 35.676 1.00 37.87 H +ATOM 1200 HZ3 LYS A 912 22.008 -20.107 35.844 1.00 37.87 H +ATOM 1201 N TYR A 913 16.367 -23.471 30.661 1.00 21.53 N +ATOM 1202 CA TYR A 913 15.012 -23.956 30.902 1.00 20.20 C +ATOM 1203 C TYR A 913 14.733 -23.977 32.415 1.00 22.18 C +ATOM 1204 O TYR A 913 15.538 -24.536 33.162 1.00 21.14 O +ATOM 1205 CB TYR A 913 14.893 -25.363 30.275 1.00 19.19 C +ATOM 1206 CG TYR A 913 13.595 -26.104 30.543 1.00 22.36 C +ATOM 1207 CD1 TYR A 913 12.484 -25.898 29.703 1.00 20.55 C +ATOM 1208 CD2 TYR A 913 13.493 -26.999 31.629 1.00 20.96 C +ATOM 1209 CE1 TYR A 913 11.276 -26.579 29.945 1.00 18.70 C +ATOM 1210 CE2 TYR A 913 12.285 -27.678 31.874 1.00 20.40 C +ATOM 1211 CZ TYR A 913 11.178 -27.476 31.027 1.00 22.78 C +ATOM 1212 OH TYR A 913 10.018 -28.156 31.258 1.00 22.90 O +ATOM 1213 H TYR A 913 17.059 -24.186 30.494 1.00 21.53 H +ATOM 1214 HA TYR A 913 14.303 -23.288 30.408 1.00 20.20 H +ATOM 1215 HB3 TYR A 913 15.711 -25.992 30.631 1.00 19.19 H +ATOM 1216 HB2 TYR A 913 15.029 -25.293 29.196 1.00 19.19 H +ATOM 1217 HD1 TYR A 913 12.563 -25.218 28.869 1.00 20.55 H +ATOM 1218 HD2 TYR A 913 14.339 -27.162 32.281 1.00 20.96 H +ATOM 1219 HE1 TYR A 913 10.430 -26.405 29.298 1.00 18.70 H +ATOM 1220 HE2 TYR A 913 12.212 -28.360 32.708 1.00 20.40 H +ATOM 1221 HH TYR A 913 9.318 -27.927 30.643 1.00 22.90 H +ATOM 1222 N LYS A 914 13.593 -23.400 32.825 1.00 20.53 N +ATOM 1223 CA LYS A 914 13.115 -23.433 34.208 1.00 21.57 C +ATOM 1224 C LYS A 914 11.933 -24.390 34.393 1.00 20.46 C +ATOM 1225 O LYS A 914 11.857 -25.020 35.447 1.00 24.71 O +ATOM 1226 CB LYS A 914 12.741 -22.015 34.678 1.00 25.56 C +ATOM 1227 CG LYS A 914 13.965 -21.151 35.012 1.00 25.05 C +ATOM 1228 CD LYS A 914 13.572 -19.820 35.675 1.00 33.51 C +ATOM 1229 CE LYS A 914 14.768 -19.030 36.231 1.00 38.47 C +ATOM 1230 NZ LYS A 914 15.320 -19.637 37.456 1.00 38.80 N1+ +ATOM 1231 H LYS A 914 12.981 -22.957 32.152 1.00 20.53 H +ATOM 1232 HA LYS A 914 13.905 -23.799 34.867 1.00 21.57 H +ATOM 1233 HB3 LYS A 914 12.149 -22.096 35.591 1.00 25.56 H +ATOM 1234 HB2 LYS A 914 12.102 -21.517 33.949 1.00 25.56 H +ATOM 1235 HG3 LYS A 914 14.536 -20.954 34.103 1.00 25.05 H +ATOM 1236 HG2 LYS A 914 14.626 -21.715 35.671 1.00 25.05 H +ATOM 1237 HD3 LYS A 914 12.841 -19.993 36.467 1.00 33.51 H +ATOM 1238 HD2 LYS A 914 13.057 -19.204 34.939 1.00 33.51 H +ATOM 1239 HE3 LYS A 914 14.459 -18.013 36.475 1.00 38.47 H +ATOM 1240 HE2 LYS A 914 15.555 -18.952 35.484 1.00 38.47 H +ATOM 1241 HZ1 LYS A 914 15.633 -20.578 37.270 1.00 38.80 H +ATOM 1242 HZ2 LYS A 914 16.092 -19.075 37.786 1.00 38.80 H +ATOM 1243 HZ3 LYS A 914 14.606 -19.643 38.172 1.00 38.80 H +ATOM 1244 N GLY A 915 11.037 -24.487 33.398 1.00 19.21 N +ATOM 1245 CA GLY A 915 9.833 -25.295 33.537 1.00 20.81 C +ATOM 1246 C GLY A 915 8.811 -24.928 32.464 1.00 26.75 C +ATOM 1247 O GLY A 915 9.149 -24.373 31.417 1.00 22.75 O +ATOM 1248 H GLY A 915 11.144 -23.953 32.547 1.00 19.21 H +ATOM 1249 HA3 GLY A 915 9.387 -25.121 34.515 1.00 20.81 H +ATOM 1250 HA2 GLY A 915 10.080 -26.353 33.463 1.00 20.81 H +ATOM 1251 N VAL A 916 7.551 -25.289 32.741 1.00 28.32 N +ATOM 1252 CA VAL A 916 6.398 -25.108 31.863 1.00 27.51 C +ATOM 1253 C VAL A 916 5.119 -24.824 32.673 1.00 27.49 C +ATOM 1254 O VAL A 916 5.026 -25.205 33.841 1.00 27.36 O +ATOM 1255 CB VAL A 916 6.137 -26.365 30.976 1.00 26.26 C +ATOM 1256 CG1 VAL A 916 7.144 -26.499 29.823 1.00 31.90 C +ATOM 1257 CG2 VAL A 916 6.039 -27.680 31.777 1.00 33.47 C +ATOM 1258 H VAL A 916 7.350 -25.744 33.623 1.00 28.32 H +ATOM 1259 HA VAL A 916 6.584 -24.246 31.227 1.00 27.51 H +ATOM 1260 HB VAL A 916 5.169 -26.236 30.488 1.00 26.26 H +ATOM 1261 HG11 VAL A 916 6.897 -27.352 29.192 1.00 31.90 H +ATOM 1262 HG12 VAL A 916 7.147 -25.614 29.189 1.00 31.90 H +ATOM 1263 HG13 VAL A 916 8.157 -26.643 30.188 1.00 31.90 H +ATOM 1264 HG21 VAL A 916 5.840 -28.522 31.115 1.00 33.47 H +ATOM 1265 HG22 VAL A 916 6.966 -27.899 32.306 1.00 33.47 H +ATOM 1266 HG23 VAL A 916 5.237 -27.650 32.514 1.00 33.47 H +ATOM 1267 N CYS A 917 4.147 -24.188 31.998 1.00 33.51 N +ATOM 1268 CA CYS A 917 2.754 -24.073 32.440 1.00 31.00 C +ATOM 1269 C CYS A 917 1.894 -25.051 31.620 1.00 33.35 C +ATOM 1270 O CYS A 917 2.254 -25.385 30.490 1.00 37.66 O +ATOM 1271 CB CYS A 917 2.192 -22.651 32.238 1.00 43.56 C +ATOM 1272 SG CYS A 917 3.033 -21.449 33.303 1.00 59.65 S +ATOM 1273 H CYS A 917 4.323 -23.911 31.043 1.00 33.51 H +ATOM 1274 HA CYS A 917 2.664 -24.341 33.494 1.00 31.00 H +ATOM 1275 HB3 CYS A 917 1.130 -22.621 32.485 1.00 43.56 H +ATOM 1276 HB2 CYS A 917 2.274 -22.339 31.198 1.00 43.56 H +ATOM 1277 HG CYS A 917 2.636 -21.992 34.460 1.00 59.65 H +ATOM 1278 N TYR A 918 0.749 -25.448 32.197 1.00 30.36 N +ATOM 1279 CA TYR A 918 -0.292 -26.233 31.534 1.00 34.30 C +ATOM 1280 C TYR A 918 -1.659 -25.645 31.896 1.00 34.66 C +ATOM 1281 O TYR A 918 -1.954 -25.490 33.082 1.00 37.04 O +ATOM 1282 CB TYR A 918 -0.218 -27.713 31.968 1.00 32.53 C +ATOM 1283 CG TYR A 918 0.990 -28.478 31.460 1.00 31.81 C +ATOM 1284 CD1 TYR A 918 2.021 -28.857 32.345 1.00 30.16 C +ATOM 1285 CD2 TYR A 918 1.076 -28.824 30.095 1.00 25.29 C +ATOM 1286 CE1 TYR A 918 3.130 -29.582 31.867 1.00 30.05 C +ATOM 1287 CE2 TYR A 918 2.190 -29.539 29.617 1.00 23.92 C +ATOM 1288 CZ TYR A 918 3.219 -29.916 30.501 1.00 28.46 C +ATOM 1289 OH TYR A 918 4.304 -30.602 30.036 1.00 29.19 O +ATOM 1290 H TYR A 918 0.519 -25.124 33.126 1.00 30.36 H +ATOM 1291 HA TYR A 918 -0.170 -26.176 30.451 1.00 34.30 H +ATOM 1292 HB3 TYR A 918 -1.097 -28.242 31.596 1.00 32.53 H +ATOM 1293 HB2 TYR A 918 -0.267 -27.792 33.056 1.00 32.53 H +ATOM 1294 HD1 TYR A 918 1.966 -28.597 33.392 1.00 30.16 H +ATOM 1295 HD2 TYR A 918 0.292 -28.535 29.411 1.00 25.29 H +ATOM 1296 HE1 TYR A 918 3.915 -29.870 32.550 1.00 30.05 H +ATOM 1297 HE2 TYR A 918 2.250 -29.790 28.569 1.00 23.92 H +ATOM 1298 HH TYR A 918 4.302 -30.717 29.083 1.00 29.19 H +ATOM 1299 N SER A 919 -2.475 -25.365 30.867 1.00 39.00 N +ATOM 1300 CA SER A 919 -3.863 -24.928 31.013 1.00 44.13 C +ATOM 1301 C SER A 919 -4.824 -26.132 31.037 1.00 49.84 C +ATOM 1302 O SER A 919 -4.561 -27.146 30.387 1.00 46.58 O +ATOM 1303 CB SER A 919 -4.191 -23.928 29.883 1.00 39.47 C +ATOM 1304 OG SER A 919 -4.268 -24.542 28.612 1.00 39.26 O +ATOM 1305 H SER A 919 -2.155 -25.501 29.918 1.00 39.00 H +ATOM 1306 HA SER A 919 -3.965 -24.388 31.957 1.00 44.13 H +ATOM 1307 HB3 SER A 919 -3.445 -23.134 29.845 1.00 39.47 H +ATOM 1308 HB2 SER A 919 -5.148 -23.445 30.083 1.00 39.47 H +ATOM 1309 HG SER A 919 -5.021 -25.144 28.600 1.00 39.26 H +ATOM 1310 N ALA A 920 -5.938 -25.971 31.770 1.00 67.66 N +ATOM 1311 CA ALA A 920 -7.038 -26.934 31.846 1.00 60.71 C +ATOM 1312 C ALA A 920 -7.938 -26.886 30.598 1.00 59.04 C +ATOM 1313 O ALA A 920 -7.965 -25.874 29.895 1.00 62.47 O +ATOM 1314 CB ALA A 920 -7.855 -26.637 33.113 1.00 58.61 C +ATOM 1315 H ALA A 920 -6.078 -25.106 32.271 1.00 67.66 H +ATOM 1316 HA ALA A 920 -6.618 -27.939 31.931 1.00 60.71 H +ATOM 1317 HB1 ALA A 920 -8.673 -27.348 33.234 1.00 58.61 H +ATOM 1318 HB2 ALA A 920 -7.232 -26.707 34.005 1.00 58.61 H +ATOM 1319 HB3 ALA A 920 -8.287 -25.636 33.086 1.00 58.61 H +ATOM 1320 N GLY A 921 -8.670 -27.988 30.358 1.00 48.56 N +ATOM 1321 CA GLY A 921 -9.514 -28.164 29.176 1.00 50.20 C +ATOM 1322 C GLY A 921 -8.599 -28.529 28.005 1.00 53.26 C +ATOM 1323 O GLY A 921 -8.006 -29.608 28.001 1.00 52.64 O +ATOM 1324 H GLY A 921 -8.596 -28.777 30.983 1.00 48.56 H +ATOM 1325 HA3 GLY A 921 -10.097 -27.265 28.967 1.00 50.20 H +ATOM 1326 HA2 GLY A 921 -10.219 -28.977 29.353 1.00 50.20 H +ATOM 1327 N ARG A 922 -8.472 -27.610 27.032 1.00 58.73 N +ATOM 1328 CA ARG A 922 -7.449 -27.663 25.985 1.00 69.04 C +ATOM 1329 C ARG A 922 -6.047 -27.483 26.600 1.00 65.04 C +ATOM 1330 O ARG A 922 -5.867 -26.615 27.455 1.00 78.49 O +ATOM 1331 CB ARG A 922 -7.773 -26.616 24.894 1.00 80.27 C +ATOM 1332 CG ARG A 922 -7.531 -25.136 25.272 1.00 63.19 C +ATOM 1333 CD ARG A 922 -8.097 -24.115 24.267 1.00 61.22 C +ATOM 1334 NE ARG A 922 -7.581 -24.302 22.897 1.00 71.44 N +ATOM 1335 CZ ARG A 922 -6.381 -23.947 22.400 1.00 60.87 C +ATOM 1336 NH1 ARG A 922 -5.454 -23.309 23.132 1.00 52.69 N +ATOM 1337 NH2 ARG A 922 -6.106 -24.250 21.125 1.00 52.43 N1+ +ATOM 1338 H ARG A 922 -8.991 -26.747 27.100 1.00 58.73 H +ATOM 1339 HA ARG A 922 -7.508 -28.652 25.525 1.00 69.04 H +ATOM 1340 HB3 ARG A 922 -8.807 -26.747 24.571 1.00 80.27 H +ATOM 1341 HB2 ARG A 922 -7.162 -26.850 24.021 1.00 80.27 H +ATOM 1342 HG3 ARG A 922 -6.477 -24.928 25.462 1.00 63.19 H +ATOM 1343 HG2 ARG A 922 -8.035 -24.959 26.223 1.00 63.19 H +ATOM 1344 HD3 ARG A 922 -7.809 -23.112 24.584 1.00 61.22 H +ATOM 1345 HD2 ARG A 922 -9.188 -24.122 24.278 1.00 61.22 H +ATOM 1346 HE ARG A 922 -8.206 -24.803 22.281 1.00 71.44 H +ATOM 1347 HH12 ARG A 922 -4.563 -23.056 22.732 1.00 52.69 H +ATOM 1348 HH11 ARG A 922 -5.652 -23.073 24.093 1.00 52.69 H +ATOM 1349 HH22 ARG A 922 -5.210 -24.022 20.714 1.00 52.43 H +ATOM 1350 HH21 ARG A 922 -6.790 -24.727 20.555 1.00 52.43 H +ATOM 1351 N ARG A 923 -5.095 -28.321 26.167 1.00 54.98 N +ATOM 1352 CA ARG A 923 -3.741 -28.379 26.713 1.00 55.24 C +ATOM 1353 C ARG A 923 -2.809 -27.426 25.943 1.00 51.60 C +ATOM 1354 O ARG A 923 -2.115 -27.855 25.021 1.00 54.65 O +ATOM 1355 CB ARG A 923 -3.293 -29.858 26.717 1.00 54.38 C +ATOM 1356 CG ARG A 923 -1.873 -30.117 27.252 1.00 44.24 C +ATOM 1357 CD ARG A 923 -1.584 -31.619 27.412 1.00 40.48 C +ATOM 1358 NE ARG A 923 -0.151 -31.893 27.618 1.00 39.94 N +ATOM 1359 CZ ARG A 923 0.785 -32.003 26.655 1.00 41.20 C +ATOM 1360 NH1 ARG A 923 0.492 -31.855 25.354 1.00 45.93 N +ATOM 1361 NH2 ARG A 923 2.052 -32.266 26.999 1.00 36.90 N1+ +ATOM 1362 H ARG A 923 -5.316 -29.003 25.456 1.00 54.98 H +ATOM 1363 HA ARG A 923 -3.753 -28.052 27.756 1.00 55.24 H +ATOM 1364 HB3 ARG A 923 -3.357 -30.258 25.704 1.00 54.38 H +ATOM 1365 HB2 ARG A 923 -4.002 -30.436 27.312 1.00 54.38 H +ATOM 1366 HG3 ARG A 923 -1.836 -29.660 28.242 1.00 44.24 H +ATOM 1367 HG2 ARG A 923 -1.102 -29.625 26.662 1.00 44.24 H +ATOM 1368 HD3 ARG A 923 -2.039 -32.229 26.631 1.00 40.48 H +ATOM 1369 HD2 ARG A 923 -2.041 -31.943 28.347 1.00 40.48 H +ATOM 1370 HE ARG A 923 0.143 -31.972 28.581 1.00 39.94 H +ATOM 1371 HH12 ARG A 923 1.224 -31.906 24.653 1.00 45.93 H +ATOM 1372 HH11 ARG A 923 -0.453 -31.650 25.064 1.00 45.93 H +ATOM 1373 HH22 ARG A 923 2.759 -32.338 26.276 1.00 36.90 H +ATOM 1374 HH21 ARG A 923 2.308 -32.412 27.964 1.00 36.90 H +ATOM 1375 N ASN A 924 -2.822 -26.146 26.349 1.00 36.79 N +ATOM 1376 CA ASN A 924 -1.886 -25.124 25.886 1.00 40.60 C +ATOM 1377 C ASN A 924 -0.680 -25.076 26.839 1.00 38.50 C +ATOM 1378 O ASN A 924 -0.849 -25.256 28.047 1.00 41.47 O +ATOM 1379 CB ASN A 924 -2.590 -23.746 25.843 1.00 40.92 C +ATOM 1380 CG ASN A 924 -1.890 -22.700 24.965 1.00 45.52 C +ATOM 1381 OD1 ASN A 924 -1.196 -23.031 24.005 1.00 50.83 O +ATOM 1382 ND2 ASN A 924 -2.090 -21.420 25.282 1.00 36.53 N +ATOM 1383 H ASN A 924 -3.433 -25.870 27.106 1.00 36.79 H +ATOM 1384 HA ASN A 924 -1.494 -25.374 24.898 1.00 40.60 H +ATOM 1385 HB3 ASN A 924 -2.733 -23.349 26.849 1.00 40.92 H +ATOM 1386 HB2 ASN A 924 -3.587 -23.872 25.422 1.00 40.92 H +ATOM 1387 HD22 ASN A 924 -1.658 -20.689 24.735 1.00 36.53 H +ATOM 1388 HD21 ASN A 924 -2.662 -21.172 26.076 1.00 36.53 H +ATOM 1389 N LEU A 925 0.506 -24.825 26.266 1.00 33.08 N +ATOM 1390 CA LEU A 925 1.776 -24.782 26.983 1.00 33.00 C +ATOM 1391 C LEU A 925 2.395 -23.383 26.903 1.00 27.00 C +ATOM 1392 O LEU A 925 2.188 -22.658 25.927 1.00 27.13 O +ATOM 1393 CB LEU A 925 2.752 -25.828 26.387 1.00 31.47 C +ATOM 1394 CG LEU A 925 2.504 -27.275 26.868 1.00 37.43 C +ATOM 1395 CD1 LEU A 925 1.264 -27.921 26.215 1.00 31.10 C +ATOM 1396 CD2 LEU A 925 3.765 -28.141 26.680 1.00 34.95 C +ATOM 1397 H LEU A 925 0.555 -24.651 25.272 1.00 33.08 H +ATOM 1398 HA LEU A 925 1.625 -25.006 28.039 1.00 33.00 H +ATOM 1399 HB3 LEU A 925 3.763 -25.564 26.702 1.00 31.47 H +ATOM 1400 HB2 LEU A 925 2.766 -25.777 25.297 1.00 31.47 H +ATOM 1401 HG LEU A 925 2.319 -27.235 27.942 1.00 37.43 H +ATOM 1402 HD11 LEU A 925 1.438 -28.943 25.881 1.00 31.10 H +ATOM 1403 HD12 LEU A 925 0.439 -27.952 26.925 1.00 31.10 H +ATOM 1404 HD13 LEU A 925 0.921 -27.364 25.343 1.00 31.10 H +ATOM 1405 HD21 LEU A 925 3.534 -29.177 26.434 1.00 34.95 H +ATOM 1406 HD22 LEU A 925 4.402 -27.754 25.886 1.00 34.95 H +ATOM 1407 HD23 LEU A 925 4.357 -28.160 27.596 1.00 34.95 H +ATOM 1408 N LYS A 926 3.206 -23.078 27.926 1.00 26.16 N +ATOM 1409 CA LYS A 926 4.159 -21.973 27.943 1.00 27.75 C +ATOM 1410 C LYS A 926 5.530 -22.555 28.311 1.00 26.92 C +ATOM 1411 O LYS A 926 5.595 -23.486 29.112 1.00 23.45 O +ATOM 1412 CB LYS A 926 3.747 -20.904 28.974 1.00 34.76 C +ATOM 1413 CG LYS A 926 2.333 -20.339 28.762 1.00 36.23 C +ATOM 1414 CD LYS A 926 2.023 -19.159 29.693 1.00 40.11 C +ATOM 1415 CE LYS A 926 0.618 -18.592 29.451 1.00 46.61 C +ATOM 1416 NZ LYS A 926 0.310 -17.474 30.360 1.00 52.84 N1+ +ATOM 1417 H LYS A 926 3.311 -23.744 28.679 1.00 26.16 H +ATOM 1418 HA LYS A 926 4.229 -21.513 26.955 1.00 27.75 H +ATOM 1419 HB3 LYS A 926 4.463 -20.084 28.918 1.00 34.76 H +ATOM 1420 HB2 LYS A 926 3.832 -21.301 29.985 1.00 34.76 H +ATOM 1421 HG3 LYS A 926 1.595 -21.125 28.930 1.00 36.23 H +ATOM 1422 HG2 LYS A 926 2.217 -20.033 27.724 1.00 36.23 H +ATOM 1423 HD3 LYS A 926 2.765 -18.377 29.535 1.00 40.11 H +ATOM 1424 HD2 LYS A 926 2.126 -19.482 30.730 1.00 40.11 H +ATOM 1425 HE3 LYS A 926 -0.125 -19.376 29.588 1.00 46.61 H +ATOM 1426 HE2 LYS A 926 0.525 -18.243 28.423 1.00 46.61 H +ATOM 1427 HZ1 LYS A 926 0.964 -16.718 30.211 1.00 52.84 H +ATOM 1428 HZ2 LYS A 926 -0.630 -17.150 30.181 1.00 52.84 H +ATOM 1429 HZ3 LYS A 926 0.371 -17.791 31.316 1.00 52.84 H +ATOM 1430 N LEU A 927 6.590 -21.977 27.732 1.00 16.61 N +ATOM 1431 CA LEU A 927 7.986 -22.327 27.967 1.00 17.48 C +ATOM 1432 C LEU A 927 8.589 -21.266 28.895 1.00 20.06 C +ATOM 1433 O LEU A 927 8.779 -20.126 28.468 1.00 20.63 O +ATOM 1434 CB LEU A 927 8.700 -22.425 26.595 1.00 15.61 C +ATOM 1435 CG LEU A 927 10.248 -22.478 26.592 1.00 16.06 C +ATOM 1436 CD1 LEU A 927 10.841 -23.546 27.537 1.00 12.67 C +ATOM 1437 CD2 LEU A 927 10.785 -22.605 25.152 1.00 15.94 C +ATOM 1438 H LEU A 927 6.439 -21.182 27.123 1.00 16.61 H +ATOM 1439 HA LEU A 927 8.048 -23.300 28.458 1.00 17.48 H +ATOM 1440 HB3 LEU A 927 8.406 -21.569 25.987 1.00 15.61 H +ATOM 1441 HB2 LEU A 927 8.311 -23.298 26.072 1.00 15.61 H +ATOM 1442 HG LEU A 927 10.600 -21.512 26.952 1.00 16.06 H +ATOM 1443 HD11 LEU A 927 11.408 -23.072 28.338 1.00 12.67 H +ATOM 1444 HD12 LEU A 927 10.078 -24.161 28.010 1.00 12.67 H +ATOM 1445 HD13 LEU A 927 11.522 -24.228 27.027 1.00 12.67 H +ATOM 1446 HD21 LEU A 927 11.497 -21.810 24.930 1.00 15.94 H +ATOM 1447 HD22 LEU A 927 11.293 -23.553 24.977 1.00 15.94 H +ATOM 1448 HD23 LEU A 927 9.988 -22.534 24.411 1.00 15.94 H +ATOM 1449 N ILE A 928 8.860 -21.666 30.146 1.00 18.82 N +ATOM 1450 CA ILE A 928 9.408 -20.792 31.180 1.00 15.92 C +ATOM 1451 C ILE A 928 10.936 -20.965 31.219 1.00 18.22 C +ATOM 1452 O ILE A 928 11.436 -22.092 31.239 1.00 19.87 O +ATOM 1453 CB ILE A 928 8.840 -21.106 32.594 1.00 17.64 C +ATOM 1454 CG1 ILE A 928 7.309 -21.335 32.600 1.00 17.99 C +ATOM 1455 CG2 ILE A 928 9.227 -20.019 33.619 1.00 15.07 C +ATOM 1456 CD1 ILE A 928 6.465 -20.141 32.142 1.00 14.98 C +ATOM 1457 H ILE A 928 8.704 -22.628 30.419 1.00 18.82 H +ATOM 1458 HA ILE A 928 9.176 -19.752 30.942 1.00 15.92 H +ATOM 1459 HB ILE A 928 9.284 -22.036 32.951 1.00 17.64 H +ATOM 1460 HG13 ILE A 928 6.994 -21.619 33.601 1.00 17.99 H +ATOM 1461 HG12 ILE A 928 7.059 -22.192 31.978 1.00 17.99 H +ATOM 1462 HG21 ILE A 928 8.773 -20.216 34.588 1.00 15.07 H +ATOM 1463 HG22 ILE A 928 10.304 -19.961 33.775 1.00 15.07 H +ATOM 1464 HG23 ILE A 928 8.890 -19.034 33.295 1.00 15.07 H +ATOM 1465 HD11 ILE A 928 5.459 -20.458 31.872 1.00 14.98 H +ATOM 1466 HD12 ILE A 928 6.378 -19.402 32.938 1.00 14.98 H +ATOM 1467 HD13 ILE A 928 6.893 -19.655 31.267 1.00 14.98 H +ATOM 1468 N MET A 929 11.631 -19.823 31.197 1.00 17.27 N +ATOM 1469 CA MET A 929 13.079 -19.679 31.085 1.00 19.20 C +ATOM 1470 C MET A 929 13.563 -18.591 32.056 1.00 23.75 C +ATOM 1471 O MET A 929 12.749 -17.861 32.623 1.00 19.73 O +ATOM 1472 CB MET A 929 13.428 -19.271 29.633 1.00 17.68 C +ATOM 1473 CG MET A 929 12.961 -20.249 28.544 1.00 18.76 C +ATOM 1474 SD MET A 929 13.235 -19.662 26.851 1.00 25.15 S +ATOM 1475 CE MET A 929 11.868 -18.479 26.697 1.00 14.67 C +ATOM 1476 H MET A 929 11.123 -18.946 31.176 1.00 17.27 H +ATOM 1477 HA MET A 929 13.567 -20.619 31.345 1.00 19.20 H +ATOM 1478 HB3 MET A 929 14.508 -19.152 29.539 1.00 17.68 H +ATOM 1479 HB2 MET A 929 13.007 -18.287 29.426 1.00 17.68 H +ATOM 1480 HG3 MET A 929 11.897 -20.459 28.636 1.00 18.76 H +ATOM 1481 HG2 MET A 929 13.474 -21.201 28.675 1.00 18.76 H +ATOM 1482 HE1 MET A 929 11.864 -18.042 25.698 1.00 14.67 H +ATOM 1483 HE2 MET A 929 10.912 -18.976 26.858 1.00 14.67 H +ATOM 1484 HE3 MET A 929 11.966 -17.672 27.423 1.00 14.67 H +ATOM 1485 N GLU A 930 14.893 -18.462 32.200 1.00 22.20 N +ATOM 1486 CA GLU A 930 15.522 -17.340 32.902 1.00 20.40 C +ATOM 1487 C GLU A 930 15.354 -16.021 32.120 1.00 22.25 C +ATOM 1488 O GLU A 930 15.418 -16.023 30.889 1.00 19.89 O +ATOM 1489 CB GLU A 930 17.011 -17.658 33.170 1.00 18.86 C +ATOM 1490 CG GLU A 930 17.892 -17.824 31.908 1.00 19.78 C +ATOM 1491 CD GLU A 930 19.382 -18.086 32.163 1.00 19.31 C +ATOM 1492 OE1 GLU A 930 20.071 -18.330 31.150 1.00 19.57 O +ATOM 1493 OE2 GLU A 930 19.834 -18.051 33.329 1.00 21.83 O1- +ATOM 1494 H GLU A 930 15.514 -19.093 31.711 1.00 22.20 H +ATOM 1495 HA GLU A 930 15.024 -17.226 33.867 1.00 20.40 H +ATOM 1496 HB3 GLU A 930 17.077 -18.569 33.767 1.00 18.86 H +ATOM 1497 HB2 GLU A 930 17.422 -16.865 33.797 1.00 18.86 H +ATOM 1498 HG3 GLU A 930 17.837 -16.928 31.291 1.00 19.78 H +ATOM 1499 HG2 GLU A 930 17.499 -18.640 31.302 1.00 19.78 H +ATOM 1500 N TYR A 931 15.170 -14.919 32.863 1.00 25.97 N +ATOM 1501 CA TYR A 931 15.156 -13.562 32.322 1.00 19.91 C +ATOM 1502 C TYR A 931 16.588 -13.000 32.307 1.00 21.69 C +ATOM 1503 O TYR A 931 17.195 -12.875 33.371 1.00 21.98 O +ATOM 1504 CB TYR A 931 14.183 -12.695 33.151 1.00 23.56 C +ATOM 1505 CG TYR A 931 14.151 -11.222 32.776 1.00 26.94 C +ATOM 1506 CD1 TYR A 931 13.693 -10.826 31.502 1.00 26.96 C +ATOM 1507 CD2 TYR A 931 14.599 -10.246 33.691 1.00 31.21 C +ATOM 1508 CE1 TYR A 931 13.701 -9.465 31.140 1.00 29.61 C +ATOM 1509 CE2 TYR A 931 14.595 -8.885 33.332 1.00 27.53 C +ATOM 1510 CZ TYR A 931 14.149 -8.494 32.054 1.00 35.24 C +ATOM 1511 OH TYR A 931 14.157 -7.178 31.696 1.00 34.00 O +ATOM 1512 H TYR A 931 15.136 -14.992 33.870 1.00 25.97 H +ATOM 1513 HA TYR A 931 14.781 -13.585 31.297 1.00 19.91 H +ATOM 1514 HB3 TYR A 931 14.431 -12.778 34.211 1.00 23.56 H +ATOM 1515 HB2 TYR A 931 13.170 -13.086 33.055 1.00 23.56 H +ATOM 1516 HD1 TYR A 931 13.348 -11.566 30.794 1.00 26.96 H +ATOM 1517 HD2 TYR A 931 14.953 -10.538 34.669 1.00 31.21 H +ATOM 1518 HE1 TYR A 931 13.369 -9.164 30.159 1.00 29.61 H +ATOM 1519 HE2 TYR A 931 14.940 -8.144 34.039 1.00 27.53 H +ATOM 1520 HH TYR A 931 14.500 -6.598 32.379 1.00 34.00 H +ATOM 1521 N LEU A 932 17.084 -12.669 31.103 1.00 19.43 N +ATOM 1522 CA LEU A 932 18.401 -12.073 30.879 1.00 19.24 C +ATOM 1523 C LEU A 932 18.190 -10.569 30.581 1.00 22.47 C +ATOM 1524 O LEU A 932 17.627 -10.252 29.531 1.00 19.03 O +ATOM 1525 CB LEU A 932 19.094 -12.818 29.711 1.00 18.40 C +ATOM 1526 CG LEU A 932 19.357 -14.330 29.944 1.00 22.50 C +ATOM 1527 CD1 LEU A 932 20.145 -14.943 28.765 1.00 25.09 C +ATOM 1528 CD2 LEU A 932 20.048 -14.622 31.294 1.00 26.36 C +ATOM 1529 H LEU A 932 16.518 -12.803 30.278 1.00 19.43 H +ATOM 1530 HA LEU A 932 19.020 -12.207 31.762 1.00 19.24 H +ATOM 1531 HB3 LEU A 932 20.048 -12.336 29.522 1.00 18.40 H +ATOM 1532 HB2 LEU A 932 18.511 -12.698 28.796 1.00 18.40 H +ATOM 1533 HG LEU A 932 18.390 -14.835 29.970 1.00 22.50 H +ATOM 1534 HD11 LEU A 932 21.013 -15.518 29.086 1.00 25.09 H +ATOM 1535 HD12 LEU A 932 19.515 -15.615 28.183 1.00 25.09 H +ATOM 1536 HD13 LEU A 932 20.524 -14.178 28.088 1.00 25.09 H +ATOM 1537 HD21 LEU A 932 20.774 -15.432 31.239 1.00 26.36 H +ATOM 1538 HD22 LEU A 932 20.581 -13.752 31.670 1.00 26.36 H +ATOM 1539 HD23 LEU A 932 19.314 -14.907 32.049 1.00 26.36 H +ATOM 1540 N PRO A 933 18.536 -9.675 31.541 1.00 33.17 N +ATOM 1541 CA PRO A 933 17.952 -8.319 31.608 1.00 33.20 C +ATOM 1542 C PRO A 933 18.452 -7.274 30.593 1.00 33.72 C +ATOM 1543 O PRO A 933 17.787 -6.247 30.454 1.00 42.97 O +ATOM 1544 CB PRO A 933 18.227 -7.880 33.056 1.00 27.68 C +ATOM 1545 CG PRO A 933 19.505 -8.608 33.433 1.00 31.91 C +ATOM 1546 CD PRO A 933 19.338 -9.952 32.737 1.00 34.89 C +ATOM 1547 HA PRO A 933 16.874 -8.393 31.464 1.00 33.20 H +ATOM 1548 HB3 PRO A 933 17.415 -8.221 33.699 1.00 27.68 H +ATOM 1549 HB2 PRO A 933 18.311 -6.800 33.186 1.00 27.68 H +ATOM 1550 HG3 PRO A 933 19.656 -8.694 34.509 1.00 31.91 H +ATOM 1551 HG2 PRO A 933 20.361 -8.078 33.016 1.00 31.91 H +ATOM 1552 HD2 PRO A 933 20.305 -10.400 32.499 1.00 34.89 H +ATOM 1553 HD3 PRO A 933 18.788 -10.632 33.389 1.00 34.89 H +ATOM 1554 N TYR A 934 19.576 -7.529 29.901 1.00 28.01 N +ATOM 1555 CA TYR A 934 20.150 -6.618 28.899 1.00 26.61 C +ATOM 1556 C TYR A 934 19.496 -6.750 27.504 1.00 26.47 C +ATOM 1557 O TYR A 934 19.898 -6.024 26.593 1.00 32.13 O +ATOM 1558 CB TYR A 934 21.681 -6.810 28.834 1.00 31.73 C +ATOM 1559 CG TYR A 934 22.451 -6.376 30.070 1.00 31.61 C +ATOM 1560 CD1 TYR A 934 22.463 -7.191 31.220 1.00 36.34 C +ATOM 1561 CD2 TYR A 934 23.178 -5.167 30.069 1.00 41.49 C +ATOM 1562 CE1 TYR A 934 23.185 -6.801 32.363 1.00 45.93 C +ATOM 1563 CE2 TYR A 934 23.914 -4.782 31.207 1.00 51.11 C +ATOM 1564 CZ TYR A 934 23.918 -5.598 32.355 1.00 50.63 C +ATOM 1565 OH TYR A 934 24.633 -5.225 33.455 1.00 41.81 O +ATOM 1566 H TYR A 934 20.071 -8.397 30.048 1.00 28.01 H +ATOM 1567 HA TYR A 934 19.971 -5.590 29.222 1.00 26.61 H +ATOM 1568 HB3 TYR A 934 22.095 -6.266 27.984 1.00 31.73 H +ATOM 1569 HB2 TYR A 934 21.911 -7.854 28.653 1.00 31.73 H +ATOM 1570 HD1 TYR A 934 21.918 -8.123 31.224 1.00 36.34 H +ATOM 1571 HD2 TYR A 934 23.180 -4.533 29.195 1.00 41.49 H +ATOM 1572 HE1 TYR A 934 23.185 -7.436 33.237 1.00 45.93 H +ATOM 1573 HE2 TYR A 934 24.477 -3.860 31.198 1.00 51.11 H +ATOM 1574 HH TYR A 934 24.557 -5.844 34.184 1.00 41.81 H +ATOM 1575 N GLY A 935 18.496 -7.639 27.358 1.00 27.46 N +ATOM 1576 CA GLY A 935 17.739 -7.851 26.124 1.00 25.00 C +ATOM 1577 C GLY A 935 18.539 -8.699 25.126 1.00 24.27 C +ATOM 1578 O GLY A 935 19.488 -9.388 25.503 1.00 23.05 O +ATOM 1579 H GLY A 935 18.231 -8.202 28.154 1.00 27.46 H +ATOM 1580 HA3 GLY A 935 17.470 -6.893 25.675 1.00 25.00 H +ATOM 1581 HA2 GLY A 935 16.811 -8.368 26.367 1.00 25.00 H +ATOM 1582 N SER A 936 18.126 -8.662 23.847 1.00 18.93 N +ATOM 1583 CA SER A 936 18.820 -9.332 22.744 1.00 19.10 C +ATOM 1584 C SER A 936 20.172 -8.669 22.424 1.00 21.92 C +ATOM 1585 O SER A 936 20.325 -7.464 22.628 1.00 20.23 O +ATOM 1586 CB SER A 936 17.897 -9.431 21.509 1.00 22.06 C +ATOM 1587 OG SER A 936 17.801 -8.226 20.773 1.00 23.89 O +ATOM 1588 H SER A 936 17.335 -8.087 23.592 1.00 18.93 H +ATOM 1589 HA SER A 936 19.010 -10.353 23.066 1.00 19.10 H +ATOM 1590 HB3 SER A 936 16.898 -9.762 21.795 1.00 22.06 H +ATOM 1591 HB2 SER A 936 18.288 -10.191 20.833 1.00 22.06 H +ATOM 1592 HG SER A 936 17.134 -7.662 21.178 1.00 23.89 H +ATOM 1593 N LEU A 937 21.111 -9.471 21.894 1.00 21.78 N +ATOM 1594 CA LEU A 937 22.429 -9.043 21.419 1.00 22.11 C +ATOM 1595 C LEU A 937 22.345 -8.036 20.260 1.00 23.01 C +ATOM 1596 O LEU A 937 23.230 -7.191 20.153 1.00 20.70 O +ATOM 1597 CB LEU A 937 23.274 -10.297 21.080 1.00 18.66 C +ATOM 1598 CG LEU A 937 24.702 -10.055 20.529 1.00 20.40 C +ATOM 1599 CD1 LEU A 937 25.596 -9.254 21.500 1.00 18.25 C +ATOM 1600 CD2 LEU A 937 25.355 -11.385 20.102 1.00 20.89 C +ATOM 1601 H LEU A 937 20.897 -10.453 21.761 1.00 21.78 H +ATOM 1602 HA LEU A 937 22.912 -8.520 22.243 1.00 22.11 H +ATOM 1603 HB3 LEU A 937 22.725 -10.894 20.353 1.00 18.66 H +ATOM 1604 HB2 LEU A 937 23.346 -10.919 21.973 1.00 18.66 H +ATOM 1605 HG LEU A 937 24.613 -9.471 19.612 1.00 20.40 H +ATOM 1606 HD11 LEU A 937 26.573 -9.713 21.639 1.00 18.25 H +ATOM 1607 HD12 LEU A 937 25.770 -8.246 21.121 1.00 18.25 H +ATOM 1608 HD13 LEU A 937 25.148 -9.157 22.489 1.00 18.25 H +ATOM 1609 HD21 LEU A 937 25.834 -11.292 19.128 1.00 20.89 H +ATOM 1610 HD22 LEU A 937 26.111 -11.727 20.810 1.00 20.89 H +ATOM 1611 HD23 LEU A 937 24.621 -12.183 20.010 1.00 20.89 H +ATOM 1612 N ARG A 938 21.261 -8.100 19.464 1.00 24.41 N +ATOM 1613 CA ARG A 938 20.936 -7.127 18.428 1.00 26.12 C +ATOM 1614 C ARG A 938 20.687 -5.725 19.009 1.00 25.66 C +ATOM 1615 O ARG A 938 21.393 -4.790 18.643 1.00 28.23 O +ATOM 1616 CB ARG A 938 19.730 -7.619 17.601 1.00 23.02 C +ATOM 1617 CG ARG A 938 19.459 -6.738 16.374 1.00 23.75 C +ATOM 1618 CD ARG A 938 18.293 -7.224 15.507 1.00 28.71 C +ATOM 1619 NE ARG A 938 18.003 -6.268 14.426 1.00 39.63 N +ATOM 1620 CZ ARG A 938 17.319 -5.112 14.527 1.00 53.66 C +ATOM 1621 NH1 ARG A 938 16.769 -4.695 15.680 1.00 44.68 N +ATOM 1622 NH2 ARG A 938 17.186 -4.347 13.436 1.00 37.82 N1+ +ATOM 1623 H ARG A 938 20.581 -8.832 19.619 1.00 24.41 H +ATOM 1624 HA ARG A 938 21.801 -7.078 17.765 1.00 26.12 H +ATOM 1625 HB3 ARG A 938 18.835 -7.662 18.223 1.00 23.02 H +ATOM 1626 HB2 ARG A 938 19.905 -8.636 17.265 1.00 23.02 H +ATOM 1627 HG3 ARG A 938 20.365 -6.797 15.770 1.00 23.75 H +ATOM 1628 HG2 ARG A 938 19.334 -5.688 16.637 1.00 23.75 H +ATOM 1629 HD3 ARG A 938 17.415 -7.495 16.095 1.00 28.71 H +ATOM 1630 HD2 ARG A 938 18.611 -8.129 14.988 1.00 28.71 H +ATOM 1631 HE ARG A 938 18.438 -6.484 13.541 1.00 39.63 H +ATOM 1632 HH12 ARG A 938 16.299 -3.803 15.740 1.00 44.68 H +ATOM 1633 HH11 ARG A 938 16.886 -5.233 16.530 1.00 44.68 H +ATOM 1634 HH22 ARG A 938 16.675 -3.478 13.483 1.00 37.82 H +ATOM 1635 HH21 ARG A 938 17.601 -4.630 12.560 1.00 37.82 H +ATOM 1636 N ASP A 939 19.686 -5.615 19.897 1.00 27.28 N +ATOM 1637 CA ASP A 939 19.215 -4.353 20.480 1.00 28.82 C +ATOM 1638 C ASP A 939 20.236 -3.721 21.444 1.00 27.12 C +ATOM 1639 O ASP A 939 20.371 -2.498 21.454 1.00 25.98 O +ATOM 1640 CB ASP A 939 17.833 -4.493 21.167 1.00 28.19 C +ATOM 1641 CG ASP A 939 16.717 -5.157 20.333 1.00 32.84 C +ATOM 1642 OD1 ASP A 939 16.769 -5.098 19.082 1.00 38.06 O +ATOM 1643 OD2 ASP A 939 15.757 -5.637 20.975 1.00 43.67 O1- +ATOM 1644 H ASP A 939 19.160 -6.440 20.150 1.00 27.28 H +ATOM 1645 HA ASP A 939 19.096 -3.649 19.653 1.00 28.82 H +ATOM 1646 HB3 ASP A 939 17.470 -3.506 21.457 1.00 28.19 H +ATOM 1647 HB2 ASP A 939 17.950 -5.071 22.086 1.00 28.19 H +ATOM 1648 N TYR A 940 20.960 -4.569 22.196 1.00 24.30 N +ATOM 1649 CA TYR A 940 22.085 -4.207 23.061 1.00 27.72 C +ATOM 1650 C TYR A 940 23.246 -3.564 22.279 1.00 36.18 C +ATOM 1651 O TYR A 940 23.732 -2.507 22.683 1.00 27.06 O +ATOM 1652 CB TYR A 940 22.520 -5.468 23.843 1.00 23.60 C +ATOM 1653 CG TYR A 940 23.817 -5.384 24.631 1.00 27.80 C +ATOM 1654 CD1 TYR A 940 23.845 -4.767 25.899 1.00 27.54 C +ATOM 1655 CD2 TYR A 940 24.998 -5.946 24.101 1.00 23.98 C +ATOM 1656 CE1 TYR A 940 25.050 -4.706 26.628 1.00 26.38 C +ATOM 1657 CE2 TYR A 940 26.197 -5.894 24.833 1.00 27.99 C +ATOM 1658 CZ TYR A 940 26.226 -5.269 26.095 1.00 27.56 C +ATOM 1659 OH TYR A 940 27.395 -5.210 26.795 1.00 32.36 O +ATOM 1660 H TYR A 940 20.758 -5.559 22.138 1.00 24.30 H +ATOM 1661 HA TYR A 940 21.719 -3.472 23.780 1.00 27.72 H +ATOM 1662 HB3 TYR A 940 22.634 -6.292 23.138 1.00 23.60 H +ATOM 1663 HB2 TYR A 940 21.721 -5.774 24.520 1.00 23.60 H +ATOM 1664 HD1 TYR A 940 22.943 -4.342 26.314 1.00 27.54 H +ATOM 1665 HD2 TYR A 940 24.987 -6.423 23.131 1.00 23.98 H +ATOM 1666 HE1 TYR A 940 25.071 -4.228 27.597 1.00 26.38 H +ATOM 1667 HE2 TYR A 940 27.094 -6.329 24.418 1.00 27.99 H +ATOM 1668 HH TYR A 940 28.120 -5.649 26.343 1.00 32.36 H +ATOM 1669 N LEU A 941 23.647 -4.207 21.169 1.00 32.30 N +ATOM 1670 CA LEU A 941 24.735 -3.752 20.306 1.00 33.48 C +ATOM 1671 C LEU A 941 24.354 -2.542 19.438 1.00 34.65 C +ATOM 1672 O LEU A 941 25.226 -1.727 19.156 1.00 33.52 O +ATOM 1673 CB LEU A 941 25.229 -4.939 19.454 1.00 32.33 C +ATOM 1674 CG LEU A 941 26.485 -4.671 18.601 1.00 45.57 C +ATOM 1675 CD1 LEU A 941 27.690 -4.267 19.472 1.00 56.79 C +ATOM 1676 CD2 LEU A 941 26.800 -5.893 17.722 1.00 37.11 C +ATOM 1677 H LEU A 941 23.193 -5.067 20.894 1.00 32.30 H +ATOM 1678 HA LEU A 941 25.550 -3.439 20.958 1.00 33.48 H +ATOM 1679 HB3 LEU A 941 24.418 -5.257 18.797 1.00 32.33 H +ATOM 1680 HB2 LEU A 941 25.438 -5.783 20.113 1.00 32.33 H +ATOM 1681 HG LEU A 941 26.281 -3.847 17.918 1.00 45.57 H +ATOM 1682 HD11 LEU A 941 28.642 -4.537 19.018 1.00 56.79 H +ATOM 1683 HD12 LEU A 941 27.709 -3.188 19.629 1.00 56.79 H +ATOM 1684 HD13 LEU A 941 27.653 -4.744 20.450 1.00 56.79 H +ATOM 1685 HD21 LEU A 941 27.808 -6.267 17.892 1.00 37.11 H +ATOM 1686 HD22 LEU A 941 26.117 -6.723 17.906 1.00 37.11 H +ATOM 1687 HD23 LEU A 941 26.717 -5.644 16.664 1.00 37.11 H +ATOM 1688 N GLN A 942 23.073 -2.423 19.052 1.00 34.92 N +ATOM 1689 CA GLN A 942 22.544 -1.297 18.281 1.00 39.07 C +ATOM 1690 C GLN A 942 22.513 0.012 19.095 1.00 49.99 C +ATOM 1691 O GLN A 942 22.745 1.076 18.522 1.00 44.16 O +ATOM 1692 CB GLN A 942 21.152 -1.680 17.737 1.00 37.82 C +ATOM 1693 CG GLN A 942 20.544 -0.657 16.759 1.00 40.25 C +ATOM 1694 CD GLN A 942 19.345 -1.226 15.997 1.00 63.36 C +ATOM 1695 OE1 GLN A 942 18.451 -1.831 16.584 1.00 65.37 O +ATOM 1696 NE2 GLN A 942 19.310 -1.014 14.679 1.00 57.93 N +ATOM 1697 H GLN A 942 22.412 -3.151 19.292 1.00 34.92 H +ATOM 1698 HA GLN A 942 23.208 -1.141 17.429 1.00 39.07 H +ATOM 1699 HB3 GLN A 942 20.463 -1.855 18.564 1.00 37.82 H +ATOM 1700 HB2 GLN A 942 21.237 -2.634 17.219 1.00 37.82 H +ATOM 1701 HG3 GLN A 942 21.307 -0.339 16.047 1.00 40.25 H +ATOM 1702 HG2 GLN A 942 20.224 0.239 17.292 1.00 40.25 H +ATOM 1703 HE22 GLN A 942 18.533 -1.352 14.132 1.00 57.93 H +ATOM 1704 HE21 GLN A 942 20.073 -0.536 14.222 1.00 57.93 H +ATOM 1705 N LYS A 943 22.247 -0.101 20.409 1.00 44.40 N +ATOM 1706 CA LYS A 943 22.169 1.013 21.352 1.00 45.73 C +ATOM 1707 C LYS A 943 23.558 1.551 21.735 1.00 48.31 C +ATOM 1708 O LYS A 943 23.796 2.749 21.585 1.00 52.30 O +ATOM 1709 CB LYS A 943 21.323 0.570 22.570 1.00 42.20 C +ATOM 1710 CG LYS A 943 20.997 1.662 23.612 1.00 50.42 C +ATOM 1711 CD LYS A 943 22.042 1.829 24.729 1.00 71.14 C +ATOM 1712 CE LYS A 943 21.582 2.813 25.816 1.00 72.78 C +ATOM 1713 NZ LYS A 943 22.598 2.976 26.871 1.00 62.25 N1+ +ATOM 1714 H LYS A 943 22.060 -1.017 20.793 1.00 44.40 H +ATOM 1715 HA LYS A 943 21.630 1.825 20.859 1.00 45.73 H +ATOM 1716 HB3 LYS A 943 21.771 -0.296 23.060 1.00 42.20 H +ATOM 1717 HB2 LYS A 943 20.368 0.217 22.178 1.00 42.20 H +ATOM 1718 HG3 LYS A 943 20.038 1.416 24.070 1.00 50.42 H +ATOM 1719 HG2 LYS A 943 20.844 2.616 23.106 1.00 50.42 H +ATOM 1720 HD3 LYS A 943 22.985 2.182 24.314 1.00 71.14 H +ATOM 1721 HD2 LYS A 943 22.248 0.854 25.172 1.00 71.14 H +ATOM 1722 HE3 LYS A 943 20.658 2.461 26.275 1.00 72.78 H +ATOM 1723 HE2 LYS A 943 21.373 3.790 25.379 1.00 72.78 H +ATOM 1724 HZ1 LYS A 943 23.444 3.352 26.468 1.00 62.25 H +ATOM 1725 HZ2 LYS A 943 22.253 3.609 27.580 1.00 62.25 H +ATOM 1726 HZ3 LYS A 943 22.800 2.078 27.289 1.00 62.25 H +ATOM 1727 N HIS A 944 24.437 0.665 22.237 1.00 41.64 N +ATOM 1728 CA HIS A 944 25.785 1.017 22.703 1.00 37.99 C +ATOM 1729 C HIS A 944 26.786 1.259 21.560 1.00 43.67 C +ATOM 1730 O HIS A 944 27.682 2.089 21.718 1.00 42.39 O +ATOM 1731 CB HIS A 944 26.297 -0.072 23.661 1.00 33.75 C +ATOM 1732 CG HIS A 944 25.496 -0.200 24.933 1.00 38.81 C +ATOM 1733 ND1 HIS A 944 24.727 -1.311 25.231 1.00 39.40 N +ATOM 1734 CD2 HIS A 944 25.353 0.647 26.010 1.00 41.79 C +ATOM 1735 CE1 HIS A 944 24.158 -1.093 26.420 1.00 47.51 C +ATOM 1736 NE2 HIS A 944 24.485 0.082 26.948 1.00 40.26 N +ATOM 1737 H HIS A 944 24.169 -0.305 22.334 1.00 41.64 H +ATOM 1738 HA HIS A 944 25.719 1.950 23.266 1.00 37.99 H +ATOM 1739 HB3 HIS A 944 27.334 0.125 23.939 1.00 33.75 H +ATOM 1740 HB2 HIS A 944 26.293 -1.032 23.147 1.00 33.75 H +ATOM 1741 HD1 HIS A 944 24.602 -2.127 24.648 1.00 39.40 H +ATOM 1742 HD2 HIS A 944 25.795 1.618 26.175 1.00 41.79 H +ATOM 1743 HE1 HIS A 944 23.492 -1.796 26.898 1.00 47.51 H +ATOM 1744 N LYS A 945 26.593 0.555 20.431 1.00 39.77 N +ATOM 1745 CA LYS A 945 27.318 0.693 19.166 1.00 45.98 C +ATOM 1746 C LYS A 945 28.826 0.393 19.330 1.00 51.69 C +ATOM 1747 O LYS A 945 29.169 -0.633 19.920 1.00 44.79 O +ATOM 1748 CB LYS A 945 26.958 2.053 18.503 1.00 49.94 C +ATOM 1749 CG LYS A 945 26.944 2.021 16.961 1.00 61.83 C +ATOM 1750 CD LYS A 945 25.639 1.419 16.394 1.00 59.20 C +ATOM 1751 CE LYS A 945 25.605 1.249 14.861 1.00 78.13 C +ATOM 1752 NZ LYS A 945 25.662 2.532 14.136 1.00 63.51 N1+ +ATOM 1753 H LYS A 945 25.839 -0.118 20.407 1.00 39.77 H +ATOM 1754 HA LYS A 945 26.958 -0.099 18.513 1.00 45.98 H +ATOM 1755 HB3 LYS A 945 27.610 2.847 18.871 1.00 49.94 H +ATOM 1756 HB2 LYS A 945 25.959 2.358 18.819 1.00 49.94 H +ATOM 1757 HG3 LYS A 945 27.799 1.454 16.591 1.00 61.83 H +ATOM 1758 HG2 LYS A 945 27.071 3.039 16.592 1.00 61.83 H +ATOM 1759 HD3 LYS A 945 24.795 2.039 16.703 1.00 59.20 H +ATOM 1760 HD2 LYS A 945 25.457 0.448 16.854 1.00 59.20 H +ATOM 1761 HE3 LYS A 945 24.688 0.735 14.571 1.00 78.13 H +ATOM 1762 HE2 LYS A 945 26.432 0.627 14.525 1.00 78.13 H +ATOM 1763 HZ1 LYS A 945 25.633 2.359 13.141 1.00 63.51 H +ATOM 1764 HZ2 LYS A 945 24.875 3.106 14.401 1.00 63.51 H +ATOM 1765 HZ3 LYS A 945 26.521 3.013 14.363 1.00 63.51 H +ATOM 1766 N GLU A 946 29.688 1.276 18.801 1.00 56.23 N +ATOM 1767 CA GLU A 946 31.149 1.156 18.768 1.00 61.36 C +ATOM 1768 C GLU A 946 31.857 1.250 20.137 1.00 52.92 C +ATOM 1769 O GLU A 946 33.048 0.946 20.197 1.00 43.39 O +ATOM 1770 CB GLU A 946 31.711 2.195 17.776 1.00 58.73 C +ATOM 1771 CG GLU A 946 31.158 2.029 16.340 1.00 56.84 C +ATOM 1772 CD GLU A 946 31.658 3.045 15.301 1.00 80.82 C +ATOM 1773 OE1 GLU A 946 32.571 3.842 15.615 1.00 91.97 O +ATOM 1774 OE2 GLU A 946 31.094 3.009 14.185 1.00 73.90 O1- +ATOM 1775 H GLU A 946 29.317 2.088 18.331 1.00 56.23 H +ATOM 1776 HA GLU A 946 31.383 0.164 18.378 1.00 61.36 H +ATOM 1777 HB3 GLU A 946 32.800 2.121 17.752 1.00 58.73 H +ATOM 1778 HB2 GLU A 946 31.481 3.198 18.137 1.00 58.73 H +ATOM 1779 HG3 GLU A 946 30.069 2.083 16.349 1.00 56.84 H +ATOM 1780 HG2 GLU A 946 31.411 1.033 15.979 1.00 56.84 H +ATOM 1781 N ARG A 947 31.133 1.624 21.211 1.00 40.94 N +ATOM 1782 CA ARG A 947 31.634 1.607 22.593 1.00 47.02 C +ATOM 1783 C ARG A 947 31.911 0.189 23.128 1.00 39.51 C +ATOM 1784 O ARG A 947 32.749 0.045 24.018 1.00 44.48 O +ATOM 1785 CB ARG A 947 30.661 2.350 23.530 1.00 40.57 C +ATOM 1786 CG ARG A 947 30.429 3.822 23.134 0.50 57.73 C +ATOM 1787 CD ARG A 947 29.674 4.652 24.190 0.50 71.68 C +ATOM 1788 NE ARG A 947 30.490 4.900 25.397 0.50 71.48 N +ATOM 1789 CZ ARG A 947 30.375 5.905 26.287 0.50 84.10 C +ATOM 1790 NH1 ARG A 947 29.449 6.869 26.168 0.50 78.21 N +ATOM 1791 NH2 ARG A 947 31.217 5.942 27.327 0.50 73.46 N1+ +ATOM 1792 H ARG A 947 30.158 1.859 21.093 1.00 40.94 H +ATOM 1793 HA ARG A 947 32.587 2.141 22.606 1.00 47.02 H +ATOM 1794 HB3 ARG A 947 31.059 2.306 24.545 1.00 40.57 H +ATOM 1795 HB2 ARG A 947 29.705 1.826 23.562 1.00 40.57 H +ATOM 1796 HG3 ARG A 947 29.947 3.921 22.161 1.00 57.73 H +ATOM 1797 HG2 ARG A 947 31.420 4.262 23.009 1.00 57.73 H +ATOM 1798 HD3 ARG A 947 28.831 4.060 24.549 1.00 71.68 H +ATOM 1799 HD2 ARG A 947 29.249 5.553 23.749 1.00 71.68 H +ATOM 1800 HE ARG A 947 31.213 4.215 25.562 1.00 71.48 H +ATOM 1801 HH12 ARG A 947 29.390 7.615 26.846 1.00 78.21 H +ATOM 1802 HH11 ARG A 947 28.811 6.859 25.385 1.00 78.21 H +ATOM 1803 HH22 ARG A 947 31.158 6.683 28.010 1.00 73.46 H +ATOM 1804 HH21 ARG A 947 31.922 5.228 27.439 1.00 73.46 H +ATOM 1805 N ILE A 948 31.242 -0.824 22.553 1.00 37.42 N +ATOM 1806 CA ILE A 948 31.555 -2.236 22.742 1.00 35.23 C +ATOM 1807 C ILE A 948 32.735 -2.579 21.809 1.00 35.66 C +ATOM 1808 O ILE A 948 32.559 -2.608 20.592 1.00 40.53 O +ATOM 1809 CB ILE A 948 30.314 -3.128 22.425 1.00 38.05 C +ATOM 1810 CG1 ILE A 948 29.175 -2.846 23.438 1.00 33.34 C +ATOM 1811 CG2 ILE A 948 30.619 -4.640 22.397 1.00 29.32 C +ATOM 1812 CD1 ILE A 948 27.798 -3.364 23.007 1.00 39.86 C +ATOM 1813 H ILE A 948 30.575 -0.621 21.821 1.00 37.42 H +ATOM 1814 HA ILE A 948 31.851 -2.413 23.779 1.00 35.23 H +ATOM 1815 HB ILE A 948 29.952 -2.853 21.433 1.00 38.05 H +ATOM 1816 HG13 ILE A 948 29.073 -1.774 23.606 1.00 33.34 H +ATOM 1817 HG12 ILE A 948 29.431 -3.268 24.411 1.00 33.34 H +ATOM 1818 HG21 ILE A 948 29.752 -5.217 22.081 1.00 29.32 H +ATOM 1819 HG22 ILE A 948 31.424 -4.907 21.714 1.00 29.32 H +ATOM 1820 HG23 ILE A 948 30.896 -4.980 23.393 1.00 29.32 H +ATOM 1821 HD11 ILE A 948 27.052 -3.162 23.775 1.00 39.86 H +ATOM 1822 HD12 ILE A 948 27.475 -2.870 22.092 1.00 39.86 H +ATOM 1823 HD13 ILE A 948 27.795 -4.439 22.835 1.00 39.86 H +ATOM 1824 N ASP A 949 33.924 -2.776 22.400 1.00 36.60 N +ATOM 1825 CA ASP A 949 35.186 -3.020 21.688 1.00 40.11 C +ATOM 1826 C ASP A 949 35.249 -4.424 21.052 1.00 29.56 C +ATOM 1827 O ASP A 949 34.433 -5.288 21.375 1.00 30.05 O +ATOM 1828 CB ASP A 949 36.434 -2.746 22.578 1.00 49.58 C +ATOM 1829 CG ASP A 949 36.634 -3.569 23.870 1.00 44.99 C +ATOM 1830 OD1 ASP A 949 37.713 -3.386 24.474 1.00 53.62 O +ATOM 1831 OD2 ASP A 949 35.727 -4.329 24.275 1.00 38.72 O1- +ATOM 1832 H ASP A 949 33.992 -2.748 23.407 1.00 36.60 H +ATOM 1833 HA ASP A 949 35.225 -2.305 20.864 1.00 40.11 H +ATOM 1834 HB3 ASP A 949 36.379 -1.704 22.897 1.00 49.58 H +ATOM 1835 HB2 ASP A 949 37.340 -2.806 21.973 1.00 49.58 H +ATOM 1836 N HIS A 950 36.260 -4.632 20.189 1.00 37.95 N +ATOM 1837 CA HIS A 950 36.556 -5.914 19.535 1.00 34.80 C +ATOM 1838 C HIS A 950 36.868 -7.072 20.504 1.00 31.87 C +ATOM 1839 O HIS A 950 36.652 -8.221 20.126 1.00 38.95 O +ATOM 1840 CB HIS A 950 37.697 -5.744 18.507 1.00 27.69 C +ATOM 1841 CG HIS A 950 37.393 -4.895 17.292 1.00 29.12 C +ATOM 1842 ND1 HIS A 950 36.117 -4.401 16.990 1.00 35.55 N +ATOM 1843 CD2 HIS A 950 38.262 -4.499 16.295 1.00 24.51 C +ATOM 1844 CE1 HIS A 950 36.261 -3.744 15.847 1.00 28.34 C +ATOM 1845 NE2 HIS A 950 37.512 -3.770 15.389 1.00 25.60 N +ATOM 1846 H HIS A 950 36.884 -3.871 19.967 1.00 37.95 H +ATOM 1847 HA HIS A 950 35.660 -6.209 18.990 1.00 34.80 H +ATOM 1848 HB3 HIS A 950 38.004 -6.722 18.132 1.00 27.69 H +ATOM 1849 HB2 HIS A 950 38.575 -5.324 18.999 1.00 27.69 H +ATOM 1850 HD2 HIS A 950 39.317 -4.682 16.155 1.00 24.51 H +ATOM 1851 HE1 HIS A 950 35.449 -3.251 15.333 1.00 28.34 H +ATOM 1852 HE2 HIS A 950 37.840 -3.349 14.529 1.00 25.60 H +ATOM 1853 N ILE A 951 37.323 -6.767 21.733 1.00 32.98 N +ATOM 1854 CA ILE A 951 37.541 -7.751 22.798 1.00 35.89 C +ATOM 1855 C ILE A 951 36.209 -8.361 23.289 1.00 28.90 C +ATOM 1856 O ILE A 951 36.134 -9.582 23.427 1.00 23.49 O +ATOM 1857 CB ILE A 951 38.297 -7.142 24.018 1.00 36.26 C +ATOM 1858 CG1 ILE A 951 39.619 -6.447 23.612 1.00 51.73 C +ATOM 1859 CG2 ILE A 951 38.542 -8.144 25.169 1.00 34.27 C +ATOM 1860 CD1 ILE A 951 40.631 -7.340 22.879 1.00 56.77 C +ATOM 1861 H ILE A 951 37.469 -5.800 21.986 1.00 32.98 H +ATOM 1862 HA ILE A 951 38.143 -8.563 22.386 1.00 35.89 H +ATOM 1863 HB ILE A 951 37.668 -6.356 24.437 1.00 36.26 H +ATOM 1864 HG13 ILE A 951 40.091 -6.019 24.497 1.00 51.73 H +ATOM 1865 HG12 ILE A 951 39.394 -5.591 22.976 1.00 51.73 H +ATOM 1866 HG21 ILE A 951 39.139 -7.691 25.961 1.00 34.27 H +ATOM 1867 HG22 ILE A 951 37.613 -8.475 25.634 1.00 34.27 H +ATOM 1868 HG23 ILE A 951 39.071 -9.031 24.823 1.00 34.27 H +ATOM 1869 HD11 ILE A 951 41.623 -6.889 22.906 1.00 56.77 H +ATOM 1870 HD12 ILE A 951 40.712 -8.330 23.326 1.00 56.77 H +ATOM 1871 HD13 ILE A 951 40.357 -7.467 21.831 1.00 56.77 H +ATOM 1872 N LYS A 952 35.181 -7.514 23.491 1.00 25.11 N +ATOM 1873 CA LYS A 952 33.811 -7.936 23.792 1.00 28.81 C +ATOM 1874 C LYS A 952 33.119 -8.650 22.622 1.00 28.21 C +ATOM 1875 O LYS A 952 32.456 -9.653 22.873 1.00 29.51 O +ATOM 1876 CB LYS A 952 32.956 -6.751 24.294 1.00 33.43 C +ATOM 1877 CG LYS A 952 32.729 -6.724 25.814 1.00 31.54 C +ATOM 1878 CD LYS A 952 33.986 -6.468 26.654 1.00 50.66 C +ATOM 1879 CE LYS A 952 33.660 -6.459 28.155 1.00 54.35 C +ATOM 1880 NZ LYS A 952 34.857 -6.217 28.977 1.00 68.51 N1+ +ATOM 1881 H LYS A 952 35.321 -6.519 23.369 1.00 25.11 H +ATOM 1882 HA LYS A 952 33.882 -8.662 24.603 1.00 28.81 H +ATOM 1883 HB3 LYS A 952 31.956 -6.842 23.871 1.00 33.43 H +ATOM 1884 HB2 LYS A 952 33.334 -5.797 23.927 1.00 33.43 H +ATOM 1885 HG3 LYS A 952 32.279 -7.670 26.116 1.00 31.54 H +ATOM 1886 HG2 LYS A 952 31.987 -5.958 26.040 1.00 31.54 H +ATOM 1887 HD3 LYS A 952 34.420 -5.510 26.365 1.00 50.66 H +ATOM 1888 HD2 LYS A 952 34.738 -7.228 26.437 1.00 50.66 H +ATOM 1889 HE3 LYS A 952 33.222 -7.413 28.445 1.00 54.35 H +ATOM 1890 HE2 LYS A 952 32.921 -5.688 28.378 1.00 54.35 H +ATOM 1891 HZ1 LYS A 952 34.599 -6.225 29.953 1.00 68.51 H +ATOM 1892 HZ2 LYS A 952 35.540 -6.941 28.804 1.00 68.51 H +ATOM 1893 HZ3 LYS A 952 35.252 -5.317 28.740 1.00 68.51 H +ATOM 1894 N LEU A 953 33.284 -8.150 21.383 1.00 25.19 N +ATOM 1895 CA LEU A 953 32.687 -8.745 20.180 1.00 24.00 C +ATOM 1896 C LEU A 953 33.169 -10.179 19.923 1.00 20.38 C +ATOM 1897 O LEU A 953 32.345 -11.026 19.585 1.00 27.80 O +ATOM 1898 CB LEU A 953 32.974 -7.881 18.934 1.00 24.28 C +ATOM 1899 CG LEU A 953 32.291 -6.499 18.922 1.00 26.81 C +ATOM 1900 CD1 LEU A 953 32.837 -5.634 17.767 1.00 24.29 C +ATOM 1901 CD2 LEU A 953 30.753 -6.608 18.907 1.00 25.36 C +ATOM 1902 H LEU A 953 33.830 -7.308 21.251 1.00 25.19 H +ATOM 1903 HA LEU A 953 31.609 -8.794 20.342 1.00 24.00 H +ATOM 1904 HB3 LEU A 953 32.660 -8.418 18.036 1.00 24.28 H +ATOM 1905 HB2 LEU A 953 34.052 -7.762 18.837 1.00 24.28 H +ATOM 1906 HG LEU A 953 32.557 -5.985 19.844 1.00 26.81 H +ATOM 1907 HD11 LEU A 953 32.068 -5.330 17.058 1.00 24.29 H +ATOM 1908 HD12 LEU A 953 33.298 -4.730 18.162 1.00 24.29 H +ATOM 1909 HD13 LEU A 953 33.603 -6.153 17.190 1.00 24.29 H +ATOM 1910 HD21 LEU A 953 30.294 -5.961 18.162 1.00 25.36 H +ATOM 1911 HD22 LEU A 953 30.421 -7.623 18.696 1.00 25.36 H +ATOM 1912 HD23 LEU A 953 30.334 -6.325 19.873 1.00 25.36 H +ATOM 1913 N LEU A 954 34.475 -10.425 20.115 1.00 21.36 N +ATOM 1914 CA LEU A 954 35.101 -11.734 19.929 1.00 26.46 C +ATOM 1915 C LEU A 954 34.906 -12.671 21.128 1.00 19.94 C +ATOM 1916 O LEU A 954 34.907 -13.884 20.929 1.00 25.34 O +ATOM 1917 CB LEU A 954 36.582 -11.553 19.554 1.00 30.11 C +ATOM 1918 CG LEU A 954 36.769 -10.825 18.204 1.00 31.20 C +ATOM 1919 CD1 LEU A 954 38.244 -10.470 17.955 1.00 28.69 C +ATOM 1920 CD2 LEU A 954 36.146 -11.594 17.025 1.00 35.08 C +ATOM 1921 H LEU A 954 35.092 -9.669 20.381 1.00 21.36 H +ATOM 1922 HA LEU A 954 34.606 -12.222 19.095 1.00 26.46 H +ATOM 1923 HB3 LEU A 954 37.078 -12.524 19.506 1.00 30.11 H +ATOM 1924 HB2 LEU A 954 37.086 -10.997 20.346 1.00 30.11 H +ATOM 1925 HG LEU A 954 36.237 -9.877 18.253 1.00 31.20 H +ATOM 1926 HD11 LEU A 954 38.368 -9.388 17.909 1.00 28.69 H +ATOM 1927 HD12 LEU A 954 38.895 -10.837 18.749 1.00 28.69 H +ATOM 1928 HD13 LEU A 954 38.618 -10.877 17.017 1.00 28.69 H +ATOM 1929 HD21 LEU A 954 36.472 -11.183 16.073 1.00 35.08 H +ATOM 1930 HD22 LEU A 954 36.402 -12.653 17.047 1.00 35.08 H +ATOM 1931 HD23 LEU A 954 35.059 -11.512 17.025 1.00 35.08 H +ATOM 1932 N GLN A 955 34.663 -12.111 22.326 1.00 21.37 N +ATOM 1933 CA GLN A 955 34.150 -12.846 23.483 1.00 27.11 C +ATOM 1934 C GLN A 955 32.738 -13.401 23.226 1.00 26.59 C +ATOM 1935 O GLN A 955 32.503 -14.572 23.511 1.00 22.60 O +ATOM 1936 CB GLN A 955 34.251 -11.960 24.742 1.00 24.13 C +ATOM 1937 CG GLN A 955 33.584 -12.522 26.015 1.00 32.05 C +ATOM 1938 CD GLN A 955 33.948 -11.715 27.263 1.00 36.65 C +ATOM 1939 OE1 GLN A 955 34.424 -12.276 28.247 1.00 49.65 O +ATOM 1940 NE2 GLN A 955 33.730 -10.398 27.234 1.00 36.00 N +ATOM 1941 H GLN A 955 34.701 -11.106 22.421 1.00 21.37 H +ATOM 1942 HA GLN A 955 34.805 -13.705 23.639 1.00 27.11 H +ATOM 1943 HB3 GLN A 955 33.823 -10.983 24.531 1.00 24.13 H +ATOM 1944 HB2 GLN A 955 35.308 -11.779 24.942 1.00 24.13 H +ATOM 1945 HG3 GLN A 955 33.890 -13.558 26.167 1.00 32.05 H +ATOM 1946 HG2 GLN A 955 32.498 -12.528 25.914 1.00 32.05 H +ATOM 1947 HE22 GLN A 955 33.941 -9.838 28.047 1.00 36.00 H +ATOM 1948 HE21 GLN A 955 33.332 -9.962 26.415 1.00 36.00 H +ATOM 1949 N TYR A 956 31.855 -12.575 22.633 1.00 20.51 N +ATOM 1950 CA TYR A 956 30.506 -12.968 22.220 1.00 20.48 C +ATOM 1951 C TYR A 956 30.520 -13.977 21.058 1.00 23.03 C +ATOM 1952 O TYR A 956 29.718 -14.906 21.085 1.00 19.65 O +ATOM 1953 CB TYR A 956 29.656 -11.730 21.852 1.00 18.49 C +ATOM 1954 CG TYR A 956 29.545 -10.612 22.883 1.00 26.30 C +ATOM 1955 CD1 TYR A 956 29.261 -9.303 22.439 1.00 25.16 C +ATOM 1956 CD2 TYR A 956 29.729 -10.847 24.265 1.00 26.29 C +ATOM 1957 CE1 TYR A 956 29.176 -8.240 23.359 1.00 31.66 C +ATOM 1958 CE2 TYR A 956 29.653 -9.783 25.184 1.00 29.36 C +ATOM 1959 CZ TYR A 956 29.381 -8.477 24.731 1.00 31.34 C +ATOM 1960 OH TYR A 956 29.322 -7.441 25.617 1.00 35.27 O +ATOM 1961 H TYR A 956 32.116 -11.615 22.446 1.00 20.51 H +ATOM 1962 HA TYR A 956 30.033 -13.467 23.066 1.00 20.48 H +ATOM 1963 HB3 TYR A 956 28.642 -12.044 21.602 1.00 18.49 H +ATOM 1964 HB2 TYR A 956 30.057 -11.286 20.940 1.00 18.49 H +ATOM 1965 HD1 TYR A 956 29.115 -9.106 21.387 1.00 25.16 H +ATOM 1966 HD2 TYR A 956 29.938 -11.839 24.638 1.00 26.29 H +ATOM 1967 HE1 TYR A 956 28.963 -7.242 23.007 1.00 31.66 H +ATOM 1968 HE2 TYR A 956 29.804 -9.978 26.235 1.00 29.36 H +ATOM 1969 HH TYR A 956 29.597 -7.703 26.502 1.00 35.27 H +ATOM 1970 N THR A 957 31.449 -13.811 20.097 1.00 21.83 N +ATOM 1971 CA THR A 957 31.658 -14.721 18.963 1.00 21.00 C +ATOM 1972 C THR A 957 32.097 -16.128 19.417 1.00 20.50 C +ATOM 1973 O THR A 957 31.530 -17.105 18.935 1.00 24.14 O +ATOM 1974 CB THR A 957 32.731 -14.187 17.973 1.00 21.55 C +ATOM 1975 OG1 THR A 957 32.354 -12.910 17.502 1.00 23.05 O +ATOM 1976 CG2 THR A 957 32.982 -15.046 16.723 1.00 18.19 C +ATOM 1977 H THR A 957 32.065 -13.012 20.146 1.00 21.83 H +ATOM 1978 HA THR A 957 30.710 -14.815 18.431 1.00 21.00 H +ATOM 1979 HB THR A 957 33.677 -14.084 18.498 1.00 21.55 H +ATOM 1980 HG1 THR A 957 32.314 -12.298 18.244 1.00 23.05 H +ATOM 1981 HG21 THR A 957 33.789 -14.627 16.122 1.00 18.19 H +ATOM 1982 HG22 THR A 957 33.265 -16.070 16.964 1.00 18.19 H +ATOM 1983 HG23 THR A 957 32.094 -15.080 16.094 1.00 18.19 H +ATOM 1984 N SER A 958 33.048 -16.194 20.368 1.00 18.09 N +ATOM 1985 CA SER A 958 33.522 -17.417 21.023 1.00 18.94 C +ATOM 1986 C SER A 958 32.405 -18.171 21.766 1.00 19.69 C +ATOM 1987 O SER A 958 32.317 -19.391 21.649 1.00 19.72 O +ATOM 1988 CB SER A 958 34.681 -17.050 21.976 1.00 19.33 C +ATOM 1989 OG SER A 958 35.102 -18.147 22.760 1.00 23.43 O +ATOM 1990 H SER A 958 33.465 -15.335 20.701 1.00 18.09 H +ATOM 1991 HA SER A 958 33.912 -18.081 20.249 1.00 18.94 H +ATOM 1992 HB3 SER A 958 34.386 -16.248 22.652 1.00 19.33 H +ATOM 1993 HB2 SER A 958 35.537 -16.685 21.412 1.00 19.33 H +ATOM 1994 HG SER A 958 36.057 -18.249 22.653 1.00 23.43 H +ATOM 1995 N GLN A 959 31.572 -17.421 22.500 1.00 22.23 N +ATOM 1996 CA GLN A 959 30.436 -17.929 23.264 1.00 21.00 C +ATOM 1997 C GLN A 959 29.308 -18.481 22.378 1.00 21.97 C +ATOM 1998 O GLN A 959 28.760 -19.536 22.696 1.00 17.13 O +ATOM 1999 CB GLN A 959 29.967 -16.820 24.219 1.00 18.23 C +ATOM 2000 CG GLN A 959 30.957 -16.643 25.391 1.00 20.27 C +ATOM 2001 CD GLN A 959 30.743 -15.368 26.203 1.00 24.78 C +ATOM 2002 OE1 GLN A 959 30.088 -14.427 25.760 1.00 29.97 O +ATOM 2003 NE2 GLN A 959 31.341 -15.322 27.394 1.00 22.22 N +ATOM 2004 H GLN A 959 31.724 -16.422 22.551 1.00 22.23 H +ATOM 2005 HA GLN A 959 30.794 -18.767 23.867 1.00 21.00 H +ATOM 2006 HB3 GLN A 959 28.971 -17.033 24.607 1.00 18.23 H +ATOM 2007 HB2 GLN A 959 29.869 -15.891 23.656 1.00 18.23 H +ATOM 2008 HG3 GLN A 959 31.982 -16.615 25.022 1.00 20.27 H +ATOM 2009 HG2 GLN A 959 30.908 -17.509 26.051 1.00 20.27 H +ATOM 2010 HE22 GLN A 959 31.267 -14.490 27.968 1.00 22.22 H +ATOM 2011 HE21 GLN A 959 31.892 -16.101 27.724 1.00 22.22 H +ATOM 2012 N ILE A 960 29.039 -17.805 21.248 1.00 23.56 N +ATOM 2013 CA ILE A 960 28.137 -18.276 20.195 1.00 21.42 C +ATOM 2014 C ILE A 960 28.665 -19.556 19.513 1.00 21.91 C +ATOM 2015 O ILE A 960 27.870 -20.463 19.286 1.00 19.31 O +ATOM 2016 CB ILE A 960 27.862 -17.163 19.136 1.00 25.29 C +ATOM 2017 CG1 ILE A 960 27.049 -16.005 19.763 1.00 18.94 C +ATOM 2018 CG2 ILE A 960 27.168 -17.638 17.837 1.00 25.35 C +ATOM 2019 CD1 ILE A 960 27.209 -14.665 19.027 1.00 18.84 C +ATOM 2020 H ILE A 960 29.519 -16.934 21.065 1.00 23.56 H +ATOM 2021 HA ILE A 960 27.187 -18.530 20.669 1.00 21.42 H +ATOM 2022 HB ILE A 960 28.832 -16.759 18.844 1.00 25.29 H +ATOM 2023 HG13 ILE A 960 27.336 -15.848 20.802 1.00 18.94 H +ATOM 2024 HG12 ILE A 960 25.996 -16.280 19.810 1.00 18.94 H +ATOM 2025 HG21 ILE A 960 26.971 -16.803 17.165 1.00 25.35 H +ATOM 2026 HG22 ILE A 960 27.776 -18.345 17.274 1.00 25.35 H +ATOM 2027 HG23 ILE A 960 26.212 -18.118 18.052 1.00 25.35 H +ATOM 2028 HD11 ILE A 960 26.927 -13.836 19.674 1.00 18.84 H +ATOM 2029 HD12 ILE A 960 28.238 -14.496 18.710 1.00 18.84 H +ATOM 2030 HD13 ILE A 960 26.579 -14.621 18.140 1.00 18.84 H +ATOM 2031 N CYS A 961 29.987 -19.638 19.263 0.50 16.52 N +ATOM 2032 CA CYS A 961 30.653 -20.818 18.698 0.50 18.41 C +ATOM 2033 C CYS A 961 30.540 -22.052 19.603 0.50 22.72 C +ATOM 2034 O CYS A 961 30.243 -23.127 19.094 0.50 18.52 O +ATOM 2035 CB CYS A 961 32.143 -20.592 18.378 0.50 15.09 C +ATOM 2036 SG CYS A 961 32.345 -19.433 17.012 0.50 14.69 S +ATOM 2037 H CYS A 961 30.583 -18.847 19.473 1.00 16.52 H +ATOM 2038 HA CYS A 961 30.135 -21.052 17.767 1.00 18.41 H +ATOM 2039 HB3 CYS A 961 32.617 -21.525 18.073 1.00 15.09 H +ATOM 2040 HB2 CYS A 961 32.694 -20.223 19.242 1.00 15.09 H +ATOM 2041 HG CYS A 961 31.923 -18.355 17.685 1.00 14.69 H +ATOM 2042 N LYS A 962 30.770 -21.874 20.913 1.00 20.29 N +ATOM 2043 CA LYS A 962 30.748 -22.939 21.918 1.00 21.56 C +ATOM 2044 C LYS A 962 29.333 -23.448 22.245 1.00 21.69 C +ATOM 2045 O LYS A 962 29.183 -24.639 22.519 1.00 20.47 O +ATOM 2046 CB LYS A 962 31.494 -22.449 23.175 1.00 19.21 C +ATOM 2047 CG LYS A 962 33.012 -22.331 22.939 1.00 20.76 C +ATOM 2048 CD LYS A 962 33.749 -21.586 24.060 1.00 21.42 C +ATOM 2049 CE LYS A 962 35.248 -21.439 23.753 1.00 30.73 C +ATOM 2050 NZ LYS A 962 35.958 -20.690 24.803 1.00 32.52 N1+ +ATOM 2051 H LYS A 962 31.019 -20.953 21.250 1.00 20.29 H +ATOM 2052 HA LYS A 962 31.302 -23.788 21.510 1.00 21.56 H +ATOM 2053 HB3 LYS A 962 31.330 -23.139 24.004 1.00 19.21 H +ATOM 2054 HB2 LYS A 962 31.081 -21.490 23.492 1.00 19.21 H +ATOM 2055 HG3 LYS A 962 33.207 -21.825 21.994 1.00 20.76 H +ATOM 2056 HG2 LYS A 962 33.434 -23.331 22.830 1.00 20.76 H +ATOM 2057 HD3 LYS A 962 33.608 -22.121 25.001 1.00 21.42 H +ATOM 2058 HD2 LYS A 962 33.297 -20.601 24.191 1.00 21.42 H +ATOM 2059 HE3 LYS A 962 35.389 -20.913 22.808 1.00 30.73 H +ATOM 2060 HE2 LYS A 962 35.715 -22.418 23.644 1.00 30.73 H +ATOM 2061 HZ1 LYS A 962 35.895 -21.180 25.683 1.00 32.52 H +ATOM 2062 HZ2 LYS A 962 36.930 -20.599 24.529 1.00 32.52 H +ATOM 2063 HZ3 LYS A 962 35.553 -19.769 24.887 1.00 32.52 H +ATOM 2064 N GLY A 963 28.323 -22.562 22.170 1.00 21.63 N +ATOM 2065 CA GLY A 963 26.912 -22.918 22.329 1.00 26.06 C +ATOM 2066 C GLY A 963 26.397 -23.685 21.100 1.00 22.88 C +ATOM 2067 O GLY A 963 25.623 -24.627 21.259 1.00 20.34 O +ATOM 2068 H GLY A 963 28.529 -21.594 21.959 1.00 21.63 H +ATOM 2069 HA3 GLY A 963 26.328 -22.005 22.453 1.00 26.06 H +ATOM 2070 HA2 GLY A 963 26.767 -23.514 23.231 1.00 26.06 H +ATOM 2071 N MET A 964 26.854 -23.307 19.892 1.00 18.77 N +ATOM 2072 CA MET A 964 26.533 -23.967 18.623 1.00 19.50 C +ATOM 2073 C MET A 964 27.303 -25.280 18.393 1.00 17.39 C +ATOM 2074 O MET A 964 26.782 -26.147 17.691 1.00 17.32 O +ATOM 2075 CB MET A 964 26.787 -22.993 17.458 1.00 21.62 C +ATOM 2076 CG MET A 964 25.757 -21.858 17.318 1.00 18.00 C +ATOM 2077 SD MET A 964 24.035 -22.339 17.007 1.00 22.59 S +ATOM 2078 CE MET A 964 24.250 -23.484 15.624 1.00 21.12 C +ATOM 2079 H MET A 964 27.476 -22.513 19.827 1.00 18.77 H +ATOM 2080 HA MET A 964 25.474 -24.228 18.632 1.00 19.50 H +ATOM 2081 HB3 MET A 964 26.815 -23.545 16.520 1.00 21.62 H +ATOM 2082 HB2 MET A 964 27.783 -22.561 17.557 1.00 21.62 H +ATOM 2083 HG3 MET A 964 26.071 -21.203 16.505 1.00 18.00 H +ATOM 2084 HG2 MET A 964 25.749 -21.240 18.213 1.00 18.00 H +ATOM 2085 HE1 MET A 964 23.288 -23.689 15.159 1.00 21.12 H +ATOM 2086 HE2 MET A 964 24.916 -23.055 14.878 1.00 21.12 H +ATOM 2087 HE3 MET A 964 24.672 -24.430 15.966 1.00 21.12 H +ATOM 2088 N GLU A 965 28.501 -25.427 18.990 1.00 19.05 N +ATOM 2089 CA GLU A 965 29.284 -26.668 18.975 1.00 22.20 C +ATOM 2090 C GLU A 965 28.570 -27.747 19.800 1.00 23.76 C +ATOM 2091 O GLU A 965 28.389 -28.858 19.306 1.00 27.18 O +ATOM 2092 CB GLU A 965 30.730 -26.397 19.464 1.00 22.44 C +ATOM 2093 CG GLU A 965 31.739 -27.552 19.227 1.00 26.34 C +ATOM 2094 CD GLU A 965 31.867 -28.648 20.302 1.00 30.45 C +ATOM 2095 OE1 GLU A 965 31.380 -28.455 21.439 1.00 31.13 O +ATOM 2096 OE2 GLU A 965 32.491 -29.678 19.963 1.00 34.03 O1- +ATOM 2097 H GLU A 965 28.896 -24.656 19.512 1.00 19.05 H +ATOM 2098 HA GLU A 965 29.335 -27.010 17.940 1.00 22.20 H +ATOM 2099 HB3 GLU A 965 30.722 -26.092 20.511 1.00 22.44 H +ATOM 2100 HB2 GLU A 965 31.121 -25.530 18.938 1.00 22.44 H +ATOM 2101 HG3 GLU A 965 32.730 -27.107 19.140 1.00 26.34 H +ATOM 2102 HG2 GLU A 965 31.540 -28.014 18.259 1.00 26.34 H +ATOM 2103 N TYR A 966 28.130 -27.360 21.012 1.00 26.08 N +ATOM 2104 CA TYR A 966 27.331 -28.164 21.934 1.00 24.07 C +ATOM 2105 C TYR A 966 25.951 -28.554 21.366 1.00 23.53 C +ATOM 2106 O TYR A 966 25.493 -29.663 21.638 1.00 19.61 O +ATOM 2107 CB TYR A 966 27.229 -27.412 23.276 1.00 20.20 C +ATOM 2108 CG TYR A 966 26.420 -28.112 24.354 1.00 23.43 C +ATOM 2109 CD1 TYR A 966 27.010 -29.124 25.140 1.00 20.88 C +ATOM 2110 CD2 TYR A 966 25.075 -27.754 24.572 1.00 20.08 C +ATOM 2111 CE1 TYR A 966 26.258 -29.770 26.140 1.00 23.11 C +ATOM 2112 CE2 TYR A 966 24.328 -28.395 25.576 1.00 21.92 C +ATOM 2113 CZ TYR A 966 24.915 -29.406 26.359 1.00 21.11 C +ATOM 2114 OH TYR A 966 24.182 -30.028 27.328 1.00 23.29 O +ATOM 2115 H TYR A 966 28.345 -26.423 21.327 1.00 26.08 H +ATOM 2116 HA TYR A 966 27.884 -29.087 22.114 1.00 24.07 H +ATOM 2117 HB3 TYR A 966 26.800 -26.421 23.113 1.00 20.20 H +ATOM 2118 HB2 TYR A 966 28.231 -27.234 23.669 1.00 20.20 H +ATOM 2119 HD1 TYR A 966 28.039 -29.406 24.976 1.00 20.88 H +ATOM 2120 HD2 TYR A 966 24.617 -26.983 23.972 1.00 20.08 H +ATOM 2121 HE1 TYR A 966 26.718 -30.545 26.737 1.00 23.11 H +ATOM 2122 HE2 TYR A 966 23.311 -28.089 25.752 1.00 21.92 H +ATOM 2123 HH TYR A 966 24.722 -30.569 27.909 1.00 23.29 H +ATOM 2124 N LEU A 967 25.340 -27.670 20.556 1.00 21.80 N +ATOM 2125 CA LEU A 967 24.098 -27.931 19.820 1.00 26.59 C +ATOM 2126 C LEU A 967 24.260 -29.054 18.771 1.00 25.40 C +ATOM 2127 O LEU A 967 23.330 -29.837 18.578 1.00 27.03 O +ATOM 2128 CB LEU A 967 23.609 -26.611 19.170 1.00 28.44 C +ATOM 2129 CG LEU A 967 22.155 -26.638 18.649 1.00 32.45 C +ATOM 2130 CD1 LEU A 967 21.154 -26.709 19.811 1.00 26.89 C +ATOM 2131 CD2 LEU A 967 21.848 -25.446 17.725 1.00 30.58 C +ATOM 2132 H LEU A 967 25.768 -26.768 20.395 1.00 21.80 H +ATOM 2133 HA LEU A 967 23.362 -28.261 20.554 1.00 26.59 H +ATOM 2134 HB3 LEU A 967 24.273 -26.365 18.343 1.00 28.44 H +ATOM 2135 HB2 LEU A 967 23.705 -25.789 19.880 1.00 28.44 H +ATOM 2136 HG LEU A 967 22.025 -27.527 18.041 1.00 32.45 H +ATOM 2137 HD11 LEU A 967 20.141 -26.453 19.499 1.00 26.89 H +ATOM 2138 HD12 LEU A 967 21.120 -27.712 20.228 1.00 26.89 H +ATOM 2139 HD13 LEU A 967 21.443 -26.030 20.613 1.00 26.89 H +ATOM 2140 HD21 LEU A 967 20.955 -24.900 18.028 1.00 30.58 H +ATOM 2141 HD22 LEU A 967 22.668 -24.733 17.710 1.00 30.58 H +ATOM 2142 HD23 LEU A 967 21.689 -25.782 16.699 1.00 30.58 H +ATOM 2143 N GLY A 968 25.453 -29.133 18.153 1.00 25.48 N +ATOM 2144 CA GLY A 968 25.818 -30.146 17.165 1.00 23.31 C +ATOM 2145 C GLY A 968 26.079 -31.523 17.799 1.00 21.28 C +ATOM 2146 O GLY A 968 25.863 -32.528 17.122 1.00 21.16 O +ATOM 2147 H GLY A 968 26.163 -28.449 18.379 1.00 25.48 H +ATOM 2148 HA3 GLY A 968 26.722 -29.819 16.651 1.00 23.31 H +ATOM 2149 HA2 GLY A 968 25.035 -30.227 16.409 1.00 23.31 H +ATOM 2150 N THR A 969 26.493 -31.590 19.082 1.00 20.63 N +ATOM 2151 CA THR A 969 26.649 -32.851 19.827 1.00 24.47 C +ATOM 2152 C THR A 969 25.297 -33.517 20.172 1.00 28.32 C +ATOM 2153 O THR A 969 25.246 -34.743 20.270 1.00 28.44 O +ATOM 2154 CB THR A 969 27.476 -32.697 21.139 1.00 21.26 C +ATOM 2155 OG1 THR A 969 26.748 -32.170 22.236 1.00 26.36 O +ATOM 2156 CG2 THR A 969 28.796 -31.931 20.974 1.00 22.18 C +ATOM 2157 H THR A 969 26.672 -30.738 19.594 1.00 20.63 H +ATOM 2158 HA THR A 969 27.192 -33.546 19.183 1.00 24.47 H +ATOM 2159 HB THR A 969 27.752 -33.707 21.449 1.00 21.26 H +ATOM 2160 HG1 THR A 969 26.467 -31.274 22.024 1.00 26.36 H +ATOM 2161 HG21 THR A 969 29.390 -31.972 21.887 1.00 22.18 H +ATOM 2162 HG22 THR A 969 29.398 -32.353 20.169 1.00 22.18 H +ATOM 2163 HG23 THR A 969 28.624 -30.883 20.748 1.00 22.18 H +ATOM 2164 N LYS A 970 24.232 -32.706 20.299 1.00 25.05 N +ATOM 2165 CA LYS A 970 22.849 -33.160 20.459 1.00 29.29 C +ATOM 2166 C LYS A 970 22.190 -33.546 19.119 1.00 24.16 C +ATOM 2167 O LYS A 970 21.097 -34.108 19.144 1.00 30.64 O +ATOM 2168 CB LYS A 970 22.025 -32.043 21.135 1.00 34.88 C +ATOM 2169 CG LYS A 970 22.518 -31.596 22.521 1.00 36.97 C +ATOM 2170 CD LYS A 970 22.420 -32.668 23.613 1.00 41.09 C +ATOM 2171 CE LYS A 970 22.842 -32.110 24.981 1.00 45.06 C +ATOM 2172 NZ LYS A 970 22.672 -33.100 26.057 1.00 55.04 N1+ +ATOM 2173 H LYS A 970 24.360 -31.708 20.210 1.00 25.05 H +ATOM 2174 HA LYS A 970 22.830 -34.048 21.093 1.00 29.29 H +ATOM 2175 HB3 LYS A 970 20.989 -32.368 21.232 1.00 34.88 H +ATOM 2176 HB2 LYS A 970 22.000 -31.169 20.483 1.00 34.88 H +ATOM 2177 HG3 LYS A 970 21.918 -30.744 22.830 1.00 36.97 H +ATOM 2178 HG2 LYS A 970 23.542 -31.231 22.457 1.00 36.97 H +ATOM 2179 HD3 LYS A 970 23.053 -33.517 23.353 1.00 41.09 H +ATOM 2180 HD2 LYS A 970 21.395 -33.043 23.657 1.00 41.09 H +ATOM 2181 HE3 LYS A 970 22.250 -31.228 25.228 1.00 45.06 H +ATOM 2182 HE2 LYS A 970 23.886 -31.797 24.951 1.00 45.06 H +ATOM 2183 HZ1 LYS A 970 23.239 -33.914 25.866 1.00 55.04 H +ATOM 2184 HZ2 LYS A 970 22.952 -32.688 26.935 1.00 55.04 H +ATOM 2185 HZ3 LYS A 970 21.700 -33.368 26.114 1.00 55.04 H +ATOM 2186 N ARG A 971 22.846 -33.218 17.987 1.00 22.04 N +ATOM 2187 CA ARG A 971 22.358 -33.361 16.611 1.00 21.37 C +ATOM 2188 C ARG A 971 21.129 -32.474 16.321 1.00 22.25 C +ATOM 2189 O ARG A 971 20.227 -32.892 15.596 1.00 21.54 O +ATOM 2190 CB ARG A 971 22.130 -34.844 16.233 1.00 23.18 C +ATOM 2191 CG ARG A 971 23.384 -35.733 16.315 1.00 25.07 C +ATOM 2192 CD ARG A 971 23.115 -37.208 15.944 1.00 26.60 C +ATOM 2193 NE ARG A 971 22.731 -37.403 14.530 1.00 28.02 N +ATOM 2194 CZ ARG A 971 23.542 -37.480 13.457 1.00 25.12 C +ATOM 2195 NH1 ARG A 971 24.875 -37.381 13.559 1.00 30.83 N +ATOM 2196 NH2 ARG A 971 23.005 -37.663 12.245 1.00 27.11 N1+ +ATOM 2197 H ARG A 971 23.752 -32.778 18.073 1.00 22.04 H +ATOM 2198 HA ARG A 971 23.153 -32.976 15.971 1.00 21.37 H +ATOM 2199 HB3 ARG A 971 21.782 -34.881 15.206 1.00 23.18 H +ATOM 2200 HB2 ARG A 971 21.328 -35.274 16.834 1.00 23.18 H +ATOM 2201 HG3 ARG A 971 23.875 -35.676 17.287 1.00 25.07 H +ATOM 2202 HG2 ARG A 971 24.098 -35.318 15.603 1.00 25.07 H +ATOM 2203 HD3 ARG A 971 22.241 -37.540 16.505 1.00 26.60 H +ATOM 2204 HD2 ARG A 971 23.928 -37.862 16.258 1.00 26.60 H +ATOM 2205 HE ARG A 971 21.736 -37.451 14.361 1.00 28.02 H +ATOM 2206 HH12 ARG A 971 25.449 -37.398 12.722 1.00 30.83 H +ATOM 2207 HH11 ARG A 971 25.311 -37.249 14.459 1.00 30.83 H +ATOM 2208 HH22 ARG A 971 23.612 -37.746 11.437 1.00 27.11 H +ATOM 2209 HH21 ARG A 971 22.005 -37.754 12.117 1.00 27.11 H +ATOM 2210 N TYR A 972 21.121 -31.260 16.896 1.00 20.27 N +ATOM 2211 CA TYR A 972 20.085 -30.249 16.690 1.00 18.01 C +ATOM 2212 C TYR A 972 20.623 -29.179 15.729 1.00 20.58 C +ATOM 2213 O TYR A 972 21.790 -28.798 15.828 1.00 23.82 O +ATOM 2214 CB TYR A 972 19.697 -29.624 18.048 1.00 21.46 C +ATOM 2215 CG TYR A 972 19.117 -30.531 19.128 1.00 21.88 C +ATOM 2216 CD1 TYR A 972 19.081 -30.065 20.460 1.00 20.83 C +ATOM 2217 CD2 TYR A 972 18.608 -31.816 18.839 1.00 28.44 C +ATOM 2218 CE1 TYR A 972 18.558 -30.871 21.488 1.00 20.50 C +ATOM 2219 CE2 TYR A 972 18.088 -32.626 19.867 1.00 24.21 C +ATOM 2220 CZ TYR A 972 18.063 -32.155 21.192 1.00 23.70 C +ATOM 2221 OH TYR A 972 17.561 -32.946 22.183 1.00 24.74 O +ATOM 2222 H TYR A 972 21.899 -30.977 17.476 1.00 20.27 H +ATOM 2223 HA TYR A 972 19.193 -30.688 16.242 1.00 18.01 H +ATOM 2224 HB3 TYR A 972 18.979 -28.820 17.887 1.00 21.46 H +ATOM 2225 HB2 TYR A 972 20.582 -29.160 18.479 1.00 21.46 H +ATOM 2226 HD1 TYR A 972 19.449 -29.081 20.702 1.00 20.83 H +ATOM 2227 HD2 TYR A 972 18.611 -32.201 17.832 1.00 28.44 H +ATOM 2228 HE1 TYR A 972 18.542 -30.495 22.500 1.00 20.50 H +ATOM 2229 HE2 TYR A 972 17.708 -33.610 19.634 1.00 24.21 H +ATOM 2230 HH TYR A 972 17.635 -32.551 23.058 1.00 24.74 H +ATOM 2231 N ILE A 973 19.755 -28.726 14.812 1.00 18.23 N +ATOM 2232 CA ILE A 973 20.069 -27.745 13.776 1.00 17.29 C +ATOM 2233 C ILE A 973 19.160 -26.528 13.993 1.00 17.31 C +ATOM 2234 O ILE A 973 17.940 -26.682 13.972 1.00 14.90 O +ATOM 2235 CB ILE A 973 19.780 -28.305 12.352 1.00 19.10 C +ATOM 2236 CG1 ILE A 973 20.446 -29.673 12.094 1.00 16.62 C +ATOM 2237 CG2 ILE A 973 20.154 -27.314 11.237 1.00 19.18 C +ATOM 2238 CD1 ILE A 973 21.946 -29.759 12.419 1.00 14.88 C +ATOM 2239 H ILE A 973 18.813 -29.096 14.787 1.00 18.23 H +ATOM 2240 HA ILE A 973 21.110 -27.429 13.840 1.00 17.29 H +ATOM 2241 HB ILE A 973 18.707 -28.482 12.258 1.00 19.10 H +ATOM 2242 HG13 ILE A 973 20.280 -29.963 11.057 1.00 16.62 H +ATOM 2243 HG12 ILE A 973 19.922 -30.420 12.689 1.00 16.62 H +ATOM 2244 HG21 ILE A 973 19.970 -27.759 10.264 1.00 19.18 H +ATOM 2245 HG22 ILE A 973 19.579 -26.390 11.284 1.00 19.18 H +ATOM 2246 HG23 ILE A 973 21.208 -27.048 11.281 1.00 19.18 H +ATOM 2247 HD11 ILE A 973 22.463 -30.380 11.688 1.00 14.88 H +ATOM 2248 HD12 ILE A 973 22.427 -28.782 12.423 1.00 14.88 H +ATOM 2249 HD13 ILE A 973 22.111 -30.214 13.395 1.00 14.88 H +ATOM 2250 N HIS A 974 19.775 -25.357 14.215 1.00 14.81 N +ATOM 2251 CA HIS A 974 19.111 -24.119 14.624 1.00 13.20 C +ATOM 2252 C HIS A 974 18.162 -23.533 13.561 1.00 17.23 C +ATOM 2253 O HIS A 974 17.011 -23.243 13.886 1.00 18.23 O +ATOM 2254 CB HIS A 974 20.179 -23.100 15.074 1.00 17.25 C +ATOM 2255 CG HIS A 974 19.677 -22.059 16.042 1.00 19.41 C +ATOM 2256 ND1 HIS A 974 18.771 -21.061 15.670 1.00 21.90 N +ATOM 2257 CD2 HIS A 974 19.976 -21.909 17.380 1.00 16.61 C +ATOM 2258 CE1 HIS A 974 18.553 -20.364 16.775 1.00 14.65 C +ATOM 2259 NE2 HIS A 974 19.240 -20.824 17.819 1.00 21.65 N +ATOM 2260 H HIS A 974 20.785 -25.313 14.139 1.00 14.81 H +ATOM 2261 HA HIS A 974 18.517 -24.380 15.500 1.00 13.20 H +ATOM 2262 HB3 HIS A 974 20.634 -22.600 14.217 1.00 17.25 H +ATOM 2263 HB2 HIS A 974 20.993 -23.622 15.575 1.00 17.25 H +ATOM 2264 HD2 HIS A 974 20.624 -22.472 18.035 1.00 16.61 H +ATOM 2265 HE1 HIS A 974 17.881 -19.519 16.826 1.00 14.65 H +ATOM 2266 HE2 HIS A 974 19.202 -20.460 18.761 1.00 21.65 H +ATOM 2267 N ARG A 975 18.671 -23.367 12.327 1.00 15.30 N +ATOM 2268 CA ARG A 975 18.018 -22.755 11.156 1.00 21.20 C +ATOM 2269 C ARG A 975 17.734 -21.236 11.250 1.00 28.10 C +ATOM 2270 O ARG A 975 17.284 -20.668 10.255 1.00 32.82 O +ATOM 2271 CB ARG A 975 16.715 -23.489 10.743 1.00 17.30 C +ATOM 2272 CG ARG A 975 16.754 -25.030 10.747 1.00 22.72 C +ATOM 2273 CD ARG A 975 15.608 -25.701 9.961 1.00 23.90 C +ATOM 2274 NE ARG A 975 14.263 -25.231 10.340 1.00 28.58 N +ATOM 2275 CZ ARG A 975 13.492 -24.333 9.696 1.00 28.08 C +ATOM 2276 NH1 ARG A 975 13.884 -23.722 8.567 1.00 25.57 N +ATOM 2277 NH2 ARG A 975 12.289 -24.034 10.202 1.00 30.19 N1+ +ATOM 2278 H ARG A 975 19.630 -23.655 12.167 1.00 15.30 H +ATOM 2279 HA ARG A 975 18.736 -22.883 10.345 1.00 21.20 H +ATOM 2280 HB3 ARG A 975 16.442 -23.152 9.742 1.00 17.30 H +ATOM 2281 HB2 ARG A 975 15.902 -23.170 11.397 1.00 17.30 H +ATOM 2282 HG3 ARG A 975 16.850 -25.457 11.746 1.00 22.72 H +ATOM 2283 HG2 ARG A 975 17.676 -25.291 10.226 1.00 22.72 H +ATOM 2284 HD3 ARG A 975 15.593 -26.750 10.257 1.00 23.90 H +ATOM 2285 HD2 ARG A 975 15.774 -25.707 8.889 1.00 23.90 H +ATOM 2286 HE ARG A 975 13.948 -25.546 11.249 1.00 28.58 H +ATOM 2287 HH12 ARG A 975 13.306 -23.019 8.127 1.00 25.57 H +ATOM 2288 HH11 ARG A 975 14.790 -23.928 8.172 1.00 25.57 H +ATOM 2289 HH22 ARG A 975 11.698 -23.352 9.749 1.00 30.19 H +ATOM 2290 HH21 ARG A 975 11.984 -24.454 11.068 1.00 30.19 H +ATOM 2291 N ASP A 976 17.957 -20.611 12.418 1.00 22.22 N +ATOM 2292 CA ASP A 976 17.486 -19.260 12.744 1.00 22.71 C +ATOM 2293 C ASP A 976 18.546 -18.514 13.584 1.00 17.45 C +ATOM 2294 O ASP A 976 18.196 -17.692 14.432 1.00 21.98 O +ATOM 2295 CB ASP A 976 16.093 -19.354 13.433 1.00 21.65 C +ATOM 2296 CG ASP A 976 15.228 -18.083 13.543 1.00 26.13 C +ATOM 2297 OD1 ASP A 976 15.483 -17.104 12.805 1.00 30.57 O +ATOM 2298 OD2 ASP A 976 14.242 -18.147 14.310 1.00 30.34 O1- +ATOM 2299 H ASP A 976 18.332 -21.138 13.195 1.00 22.22 H +ATOM 2300 HA ASP A 976 17.394 -18.688 11.820 1.00 22.71 H +ATOM 2301 HB3 ASP A 976 16.213 -19.793 14.425 1.00 21.65 H +ATOM 2302 HB2 ASP A 976 15.502 -20.083 12.884 1.00 21.65 H +ATOM 2303 N LEU A 977 19.834 -18.830 13.359 1.00 16.95 N +ATOM 2304 CA LEU A 977 20.959 -18.251 14.091 1.00 20.23 C +ATOM 2305 C LEU A 977 21.205 -16.801 13.634 1.00 22.20 C +ATOM 2306 O LEU A 977 21.668 -16.578 12.515 1.00 34.56 O +ATOM 2307 CB LEU A 977 22.191 -19.171 13.938 1.00 21.63 C +ATOM 2308 CG LEU A 977 23.432 -18.744 14.753 1.00 25.24 C +ATOM 2309 CD1 LEU A 977 23.187 -18.772 16.277 1.00 25.50 C +ATOM 2310 CD2 LEU A 977 24.647 -19.596 14.359 1.00 23.36 C +ATOM 2311 H LEU A 977 20.062 -19.509 12.648 1.00 16.95 H +ATOM 2312 HA LEU A 977 20.686 -18.241 15.148 1.00 20.23 H +ATOM 2313 HB3 LEU A 977 22.461 -19.228 12.884 1.00 21.63 H +ATOM 2314 HB2 LEU A 977 21.917 -20.188 14.225 1.00 21.63 H +ATOM 2315 HG LEU A 977 23.688 -17.720 14.489 1.00 25.24 H +ATOM 2316 HD11 LEU A 977 24.000 -19.257 16.817 1.00 25.50 H +ATOM 2317 HD12 LEU A 977 23.100 -17.759 16.673 1.00 25.50 H +ATOM 2318 HD13 LEU A 977 22.273 -19.306 16.536 1.00 25.50 H +ATOM 2319 HD21 LEU A 977 25.490 -19.428 15.029 1.00 23.36 H +ATOM 2320 HD22 LEU A 977 24.412 -20.660 14.369 1.00 23.36 H +ATOM 2321 HD23 LEU A 977 24.976 -19.345 13.352 1.00 23.36 H +ATOM 2322 N ALA A 978 20.860 -15.860 14.523 1.00 21.51 N +ATOM 2323 CA ALA A 978 20.927 -14.414 14.331 1.00 17.34 C +ATOM 2324 C ALA A 978 21.069 -13.740 15.702 1.00 17.64 C +ATOM 2325 O ALA A 978 20.666 -14.327 16.708 1.00 16.86 O +ATOM 2326 CB ALA A 978 19.662 -13.937 13.598 1.00 15.50 C +ATOM 2327 H ALA A 978 20.489 -16.148 15.418 1.00 21.51 H +ATOM 2328 HA ALA A 978 21.798 -14.157 13.729 1.00 17.34 H +ATOM 2329 HB1 ALA A 978 19.680 -12.858 13.438 1.00 15.50 H +ATOM 2330 HB2 ALA A 978 19.575 -14.407 12.617 1.00 15.50 H +ATOM 2331 HB3 ALA A 978 18.759 -14.181 14.160 1.00 15.50 H +ATOM 2332 N THR A 979 21.617 -12.511 15.723 1.00 16.54 N +ATOM 2333 CA THR A 979 21.833 -11.721 16.947 1.00 20.37 C +ATOM 2334 C THR A 979 20.537 -11.351 17.713 1.00 20.62 C +ATOM 2335 O THR A 979 20.616 -11.113 18.917 1.00 18.15 O +ATOM 2336 CB THR A 979 22.617 -10.410 16.664 1.00 16.29 C +ATOM 2337 OG1 THR A 979 21.893 -9.520 15.834 1.00 22.68 O +ATOM 2338 CG2 THR A 979 24.008 -10.643 16.057 1.00 14.45 C +ATOM 2339 H THR A 979 21.924 -12.087 14.857 1.00 16.54 H +ATOM 2340 HA THR A 979 22.436 -12.332 17.621 1.00 20.37 H +ATOM 2341 HB THR A 979 22.770 -9.888 17.610 1.00 16.29 H +ATOM 2342 HG1 THR A 979 21.948 -9.817 14.920 1.00 22.68 H +ATOM 2343 HG21 THR A 979 24.535 -9.700 15.910 1.00 14.45 H +ATOM 2344 HG22 THR A 979 24.622 -11.252 16.721 1.00 14.45 H +ATOM 2345 HG23 THR A 979 23.956 -11.147 15.092 1.00 14.45 H +ATOM 2346 N ARG A 980 19.371 -11.351 17.039 1.00 22.89 N +ATOM 2347 CA ARG A 980 18.055 -11.172 17.669 1.00 21.83 C +ATOM 2348 C ARG A 980 17.612 -12.386 18.513 1.00 23.64 C +ATOM 2349 O ARG A 980 16.861 -12.202 19.470 1.00 15.71 O +ATOM 2350 CB ARG A 980 17.001 -10.824 16.594 1.00 22.55 C +ATOM 2351 CG ARG A 980 16.811 -11.873 15.473 1.00 25.44 C +ATOM 2352 CD ARG A 980 15.591 -11.650 14.561 1.00 31.67 C +ATOM 2353 NE ARG A 980 15.578 -10.331 13.900 1.00 50.38 N +ATOM 2354 CZ ARG A 980 14.885 -9.235 14.267 1.00 57.73 C +ATOM 2355 NH1 ARG A 980 14.090 -9.211 15.348 1.00 51.99 N +ATOM 2356 NH2 ARG A 980 14.991 -8.127 13.523 1.00 52.34 N1+ +ATOM 2357 H ARG A 980 19.374 -11.546 16.049 1.00 22.89 H +ATOM 2358 HA ARG A 980 18.123 -10.318 18.346 1.00 21.83 H +ATOM 2359 HB3 ARG A 980 17.280 -9.875 16.139 1.00 22.55 H +ATOM 2360 HB2 ARG A 980 16.045 -10.645 17.087 1.00 22.55 H +ATOM 2361 HG3 ARG A 980 16.614 -12.818 15.974 1.00 25.44 H +ATOM 2362 HG2 ARG A 980 17.716 -12.041 14.889 1.00 25.44 H +ATOM 2363 HD3 ARG A 980 14.653 -11.921 15.045 1.00 31.67 H +ATOM 2364 HD2 ARG A 980 15.690 -12.344 13.725 1.00 31.67 H +ATOM 2365 HE ARG A 980 16.171 -10.262 13.085 1.00 50.38 H +ATOM 2366 HH12 ARG A 980 13.581 -8.377 15.600 1.00 51.99 H +ATOM 2367 HH11 ARG A 980 13.990 -10.041 15.916 1.00 51.99 H +ATOM 2368 HH22 ARG A 980 14.479 -7.293 13.773 1.00 52.34 H +ATOM 2369 HH21 ARG A 980 15.568 -8.122 12.695 1.00 52.34 H +ATOM 2370 N ASN A 981 18.091 -13.587 18.147 1.00 18.41 N +ATOM 2371 CA ASN A 981 17.800 -14.871 18.797 1.00 17.82 C +ATOM 2372 C ASN A 981 18.952 -15.308 19.721 1.00 18.99 C +ATOM 2373 O ASN A 981 19.037 -16.486 20.066 1.00 22.05 O +ATOM 2374 CB ASN A 981 17.494 -15.928 17.709 1.00 16.38 C +ATOM 2375 CG ASN A 981 16.227 -15.604 16.910 1.00 21.71 C +ATOM 2376 OD1 ASN A 981 15.198 -15.244 17.476 1.00 23.85 O +ATOM 2377 ND2 ASN A 981 16.297 -15.735 15.588 1.00 15.00 N +ATOM 2378 H ASN A 981 18.734 -13.637 17.369 1.00 18.41 H +ATOM 2379 HA ASN A 981 16.919 -14.762 19.433 1.00 17.82 H +ATOM 2380 HB3 ASN A 981 17.338 -16.908 18.159 1.00 16.38 H +ATOM 2381 HB2 ASN A 981 18.346 -16.034 17.036 1.00 16.38 H +ATOM 2382 HD22 ASN A 981 15.476 -15.590 15.017 1.00 15.00 H +ATOM 2383 HD21 ASN A 981 17.134 -16.097 15.148 1.00 15.00 H +ATOM 2384 N ILE A 982 19.801 -14.349 20.121 1.00 16.81 N +ATOM 2385 CA ILE A 982 20.836 -14.489 21.137 1.00 16.59 C +ATOM 2386 C ILE A 982 20.575 -13.376 22.167 1.00 19.65 C +ATOM 2387 O ILE A 982 20.452 -12.215 21.783 1.00 20.65 O +ATOM 2388 CB ILE A 982 22.266 -14.336 20.530 1.00 15.82 C +ATOM 2389 CG1 ILE A 982 22.578 -15.469 19.519 1.00 15.62 C +ATOM 2390 CG2 ILE A 982 23.391 -14.264 21.590 1.00 15.41 C +ATOM 2391 CD1 ILE A 982 23.645 -15.107 18.475 1.00 22.35 C +ATOM 2392 H ILE A 982 19.660 -13.407 19.783 1.00 16.81 H +ATOM 2393 HA ILE A 982 20.759 -15.455 21.636 1.00 16.59 H +ATOM 2394 HB ILE A 982 22.284 -13.396 19.976 1.00 15.82 H +ATOM 2395 HG13 ILE A 982 21.682 -15.745 18.966 1.00 15.62 H +ATOM 2396 HG12 ILE A 982 22.871 -16.374 20.053 1.00 15.62 H +ATOM 2397 HG21 ILE A 982 24.377 -14.209 21.130 1.00 15.41 H +ATOM 2398 HG22 ILE A 982 23.299 -13.392 22.236 1.00 15.41 H +ATOM 2399 HG23 ILE A 982 23.391 -15.149 22.224 1.00 15.41 H +ATOM 2400 HD11 ILE A 982 24.280 -15.965 18.253 1.00 22.35 H +ATOM 2401 HD12 ILE A 982 23.188 -14.799 17.536 1.00 22.35 H +ATOM 2402 HD13 ILE A 982 24.286 -14.291 18.804 1.00 22.35 H +ATOM 2403 N LEU A 983 20.471 -13.761 23.446 1.00 17.29 N +ATOM 2404 CA LEU A 983 20.229 -12.885 24.592 1.00 20.99 C +ATOM 2405 C LEU A 983 21.545 -12.551 25.310 1.00 24.83 C +ATOM 2406 O LEU A 983 22.522 -13.290 25.188 1.00 24.89 O +ATOM 2407 CB LEU A 983 19.248 -13.590 25.554 1.00 17.29 C +ATOM 2408 CG LEU A 983 17.791 -13.657 25.045 1.00 18.90 C +ATOM 2409 CD1 LEU A 983 16.950 -14.630 25.901 1.00 20.58 C +ATOM 2410 CD2 LEU A 983 17.142 -12.261 24.946 1.00 19.78 C +ATOM 2411 H LEU A 983 20.638 -14.732 23.677 1.00 17.29 H +ATOM 2412 HA LEU A 983 19.792 -11.945 24.263 1.00 20.99 H +ATOM 2413 HB3 LEU A 983 19.240 -13.078 26.517 1.00 17.29 H +ATOM 2414 HB2 LEU A 983 19.620 -14.597 25.750 1.00 17.29 H +ATOM 2415 HG LEU A 983 17.812 -14.067 24.036 1.00 18.90 H +ATOM 2416 HD11 LEU A 983 16.419 -15.344 25.270 1.00 20.58 H +ATOM 2417 HD12 LEU A 983 17.563 -15.210 26.590 1.00 20.58 H +ATOM 2418 HD13 LEU A 983 16.202 -14.117 26.506 1.00 20.58 H +ATOM 2419 HD21 LEU A 983 16.116 -12.246 25.312 1.00 19.78 H +ATOM 2420 HD22 LEU A 983 17.696 -11.517 25.517 1.00 19.78 H +ATOM 2421 HD23 LEU A 983 17.114 -11.922 23.909 1.00 19.78 H +ATOM 2422 N VAL A 984 21.531 -11.438 26.056 1.00 22.47 N +ATOM 2423 CA VAL A 984 22.670 -10.920 26.808 1.00 24.46 C +ATOM 2424 C VAL A 984 22.320 -10.967 28.305 1.00 20.24 C +ATOM 2425 O VAL A 984 21.373 -10.303 28.731 1.00 22.07 O +ATOM 2426 CB VAL A 984 22.975 -9.444 26.415 1.00 19.43 C +ATOM 2427 CG1 VAL A 984 24.188 -8.845 27.156 1.00 21.11 C +ATOM 2428 CG2 VAL A 984 23.175 -9.284 24.901 1.00 18.52 C +ATOM 2429 H VAL A 984 20.691 -10.873 26.095 1.00 22.47 H +ATOM 2430 HA VAL A 984 23.565 -11.519 26.631 1.00 24.46 H +ATOM 2431 HB VAL A 984 22.105 -8.833 26.657 1.00 19.43 H +ATOM 2432 HG11 VAL A 984 24.371 -7.817 26.842 1.00 21.11 H +ATOM 2433 HG12 VAL A 984 24.050 -8.823 28.237 1.00 21.11 H +ATOM 2434 HG13 VAL A 984 25.092 -9.417 26.948 1.00 21.11 H +ATOM 2435 HG21 VAL A 984 23.400 -8.251 24.642 1.00 18.52 H +ATOM 2436 HG22 VAL A 984 23.984 -9.906 24.525 1.00 18.52 H +ATOM 2437 HG23 VAL A 984 22.271 -9.557 24.360 1.00 18.52 H +ATOM 2438 N GLU A 985 23.094 -11.752 29.074 1.00 25.86 N +ATOM 2439 CA GLU A 985 22.992 -11.825 30.535 1.00 28.53 C +ATOM 2440 C GLU A 985 23.740 -10.664 31.211 1.00 28.17 C +ATOM 2441 O GLU A 985 23.260 -10.148 32.220 1.00 38.69 O +ATOM 2442 CB GLU A 985 23.521 -13.194 31.014 1.00 25.20 C +ATOM 2443 CG GLU A 985 23.464 -13.416 32.549 1.00 32.58 C +ATOM 2444 CD GLU A 985 24.088 -14.742 32.998 1.00 37.72 C +ATOM 2445 OE1 GLU A 985 25.231 -15.017 32.574 1.00 49.07 O +ATOM 2446 OE2 GLU A 985 23.425 -15.472 33.767 1.00 40.31 O1- +ATOM 2447 H GLU A 985 23.855 -12.270 28.656 1.00 25.86 H +ATOM 2448 HA GLU A 985 21.942 -11.754 30.824 1.00 28.53 H +ATOM 2449 HB3 GLU A 985 24.544 -13.316 30.655 1.00 25.20 H +ATOM 2450 HB2 GLU A 985 22.944 -13.980 30.525 1.00 25.20 H +ATOM 2451 HG3 GLU A 985 22.432 -13.351 32.894 1.00 32.58 H +ATOM 2452 HG2 GLU A 985 23.999 -12.629 33.078 1.00 32.58 H +ATOM 2453 N ASN A 986 24.901 -10.298 30.645 1.00 27.87 N +ATOM 2454 CA ASN A 986 25.811 -9.261 31.131 1.00 33.11 C +ATOM 2455 C ASN A 986 26.842 -8.917 30.041 1.00 32.18 C +ATOM 2456 O ASN A 986 26.859 -9.547 28.981 1.00 28.62 O +ATOM 2457 CB ASN A 986 26.456 -9.668 32.489 1.00 25.87 C +ATOM 2458 CG ASN A 986 27.338 -10.923 32.442 1.00 28.73 C +ATOM 2459 OD1 ASN A 986 28.516 -10.844 32.107 1.00 31.93 O +ATOM 2460 ND2 ASN A 986 26.779 -12.082 32.794 1.00 31.02 N +ATOM 2461 H ASN A 986 25.211 -10.777 29.810 1.00 27.87 H +ATOM 2462 HA ASN A 986 25.224 -8.356 31.288 1.00 33.11 H +ATOM 2463 HB3 ASN A 986 25.683 -9.810 33.246 1.00 25.87 H +ATOM 2464 HB2 ASN A 986 27.067 -8.846 32.866 1.00 25.87 H +ATOM 2465 HD22 ASN A 986 27.319 -12.934 32.783 1.00 31.02 H +ATOM 2466 HD21 ASN A 986 25.807 -12.122 33.066 1.00 31.02 H +ATOM 2467 N GLU A 987 27.701 -7.928 30.336 1.00 35.29 N +ATOM 2468 CA GLU A 987 28.773 -7.435 29.462 1.00 40.30 C +ATOM 2469 C GLU A 987 29.839 -8.475 29.063 1.00 36.57 C +ATOM 2470 O GLU A 987 30.559 -8.228 28.096 1.00 42.92 O +ATOM 2471 CB GLU A 987 29.471 -6.236 30.136 1.00 43.79 C +ATOM 2472 CG GLU A 987 28.535 -5.049 30.464 1.00 50.01 C +ATOM 2473 CD GLU A 987 29.229 -3.819 31.077 1.00 71.10 C +ATOM 2474 OE1 GLU A 987 30.459 -3.862 31.310 1.00 65.03 O +ATOM 2475 OE2 GLU A 987 28.497 -2.832 31.309 1.00 67.84 O1- +ATOM 2476 H GLU A 987 27.618 -7.454 31.224 1.00 35.29 H +ATOM 2477 HA GLU A 987 28.303 -7.090 28.541 1.00 40.30 H +ATOM 2478 HB3 GLU A 987 30.276 -5.883 29.489 1.00 43.79 H +ATOM 2479 HB2 GLU A 987 29.952 -6.577 31.055 1.00 43.79 H +ATOM 2480 HG3 GLU A 987 27.757 -5.369 31.158 1.00 50.01 H +ATOM 2481 HG2 GLU A 987 28.024 -4.734 29.554 1.00 50.01 H +ATOM 2482 N ASN A 988 29.938 -9.590 29.806 1.00 31.34 N +ATOM 2483 CA ASN A 988 30.956 -10.628 29.628 1.00 35.76 C +ATOM 2484 C ASN A 988 30.365 -11.995 29.242 1.00 37.83 C +ATOM 2485 O ASN A 988 31.161 -12.910 29.030 1.00 39.36 O +ATOM 2486 CB ASN A 988 31.813 -10.749 30.913 1.00 37.24 C +ATOM 2487 CG ASN A 988 32.570 -9.464 31.262 1.00 50.76 C +ATOM 2488 OD1 ASN A 988 33.431 -9.022 30.504 1.00 46.73 O +ATOM 2489 ND2 ASN A 988 32.260 -8.866 32.414 1.00 49.77 N +ATOM 2490 H ASN A 988 29.304 -9.728 30.582 1.00 31.34 H +ATOM 2491 HA ASN A 988 31.616 -10.357 28.806 1.00 35.76 H +ATOM 2492 HB3 ASN A 988 32.567 -11.527 30.786 1.00 37.24 H +ATOM 2493 HB2 ASN A 988 31.195 -11.062 31.756 1.00 37.24 H +ATOM 2494 HD22 ASN A 988 32.734 -8.019 32.690 1.00 49.77 H +ATOM 2495 HD21 ASN A 988 31.549 -9.254 33.017 1.00 49.77 H +ATOM 2496 N ARG A 989 29.029 -12.139 29.127 1.00 31.04 N +ATOM 2497 CA ARG A 989 28.412 -13.397 28.697 1.00 29.86 C +ATOM 2498 C ARG A 989 27.077 -13.193 27.970 1.00 23.84 C +ATOM 2499 O ARG A 989 26.167 -12.564 28.512 1.00 26.49 O +ATOM 2500 CB ARG A 989 28.342 -14.424 29.855 1.00 31.41 C +ATOM 2501 CG ARG A 989 27.868 -15.826 29.406 1.00 39.26 C +ATOM 2502 CD ARG A 989 28.261 -16.973 30.359 1.00 41.93 C +ATOM 2503 NE ARG A 989 27.539 -16.931 31.641 1.00 57.56 N +ATOM 2504 CZ ARG A 989 27.701 -17.740 32.706 1.00 68.49 C +ATOM 2505 NH1 ARG A 989 28.603 -18.733 32.725 1.00 58.10 N +ATOM 2506 NH2 ARG A 989 26.932 -17.542 33.783 1.00 48.40 N1+ +ATOM 2507 H ARG A 989 28.408 -11.359 29.293 1.00 31.04 H +ATOM 2508 HA ARG A 989 29.082 -13.825 27.957 1.00 29.86 H +ATOM 2509 HB3 ARG A 989 27.686 -14.051 30.644 1.00 31.41 H +ATOM 2510 HB2 ARG A 989 29.330 -14.516 30.306 1.00 31.41 H +ATOM 2511 HG3 ARG A 989 28.210 -16.065 28.399 1.00 39.26 H +ATOM 2512 HG2 ARG A 989 26.779 -15.787 29.336 1.00 39.26 H +ATOM 2513 HD3 ARG A 989 29.313 -16.853 30.618 1.00 41.93 H +ATOM 2514 HD2 ARG A 989 28.180 -17.942 29.867 1.00 41.93 H +ATOM 2515 HE ARG A 989 26.839 -16.201 31.723 1.00 57.56 H +ATOM 2516 HH12 ARG A 989 28.692 -19.340 33.528 1.00 58.10 H +ATOM 2517 HH11 ARG A 989 29.185 -18.904 31.918 1.00 58.10 H +ATOM 2518 HH22 ARG A 989 27.034 -18.120 34.605 1.00 48.40 H +ATOM 2519 HH21 ARG A 989 26.258 -16.785 33.785 1.00 48.40 H +ATOM 2520 N VAL A 990 26.995 -13.796 26.772 1.00 22.85 N +ATOM 2521 CA VAL A 990 25.788 -13.934 25.957 1.00 18.41 C +ATOM 2522 C VAL A 990 25.421 -15.425 25.828 1.00 20.13 C +ATOM 2523 O VAL A 990 26.283 -16.292 25.993 1.00 19.17 O +ATOM 2524 CB VAL A 990 25.988 -13.348 24.528 1.00 17.26 C +ATOM 2525 CG1 VAL A 990 26.299 -11.846 24.593 1.00 14.43 C +ATOM 2526 CG2 VAL A 990 27.011 -14.085 23.636 1.00 15.69 C +ATOM 2527 H VAL A 990 27.807 -14.278 26.412 1.00 22.85 H +ATOM 2528 HA VAL A 990 24.952 -13.426 26.439 1.00 18.41 H +ATOM 2529 HB VAL A 990 25.029 -13.423 24.016 1.00 17.26 H +ATOM 2530 HG11 VAL A 990 26.313 -11.396 23.600 1.00 14.43 H +ATOM 2531 HG12 VAL A 990 25.555 -11.322 25.190 1.00 14.43 H +ATOM 2532 HG13 VAL A 990 27.266 -11.661 25.057 1.00 14.43 H +ATOM 2533 HG21 VAL A 990 27.121 -13.584 22.674 1.00 15.69 H +ATOM 2534 HG22 VAL A 990 27.994 -14.118 24.104 1.00 15.69 H +ATOM 2535 HG23 VAL A 990 26.711 -15.110 23.419 1.00 15.69 H +ATOM 2536 N LYS A 991 24.133 -15.683 25.551 1.00 17.58 N +ATOM 2537 CA LYS A 991 23.558 -17.024 25.457 1.00 19.74 C +ATOM 2538 C LYS A 991 22.549 -17.082 24.306 1.00 19.39 C +ATOM 2539 O LYS A 991 21.798 -16.128 24.126 1.00 22.91 O +ATOM 2540 CB LYS A 991 22.832 -17.385 26.771 1.00 17.06 C +ATOM 2541 CG LYS A 991 23.647 -17.166 28.054 1.00 23.57 C +ATOM 2542 CD LYS A 991 23.050 -17.898 29.258 1.00 21.19 C +ATOM 2543 CE LYS A 991 23.659 -17.401 30.574 1.00 27.33 C +ATOM 2544 NZ LYS A 991 23.180 -18.172 31.730 1.00 25.78 N1+ +ATOM 2545 H LYS A 991 23.486 -14.916 25.410 1.00 17.58 H +ATOM 2546 HA LYS A 991 24.346 -17.745 25.251 1.00 19.74 H +ATOM 2547 HB3 LYS A 991 22.532 -18.429 26.712 1.00 17.06 H +ATOM 2548 HB2 LYS A 991 21.906 -16.815 26.863 1.00 17.06 H +ATOM 2549 HG3 LYS A 991 23.690 -16.097 28.267 1.00 23.57 H +ATOM 2550 HG2 LYS A 991 24.677 -17.487 27.913 1.00 23.57 H +ATOM 2551 HD3 LYS A 991 23.226 -18.969 29.145 1.00 21.19 H +ATOM 2552 HD2 LYS A 991 21.969 -17.763 29.266 1.00 21.19 H +ATOM 2553 HE3 LYS A 991 23.392 -16.356 30.718 1.00 27.33 H +ATOM 2554 HE2 LYS A 991 24.747 -17.455 30.544 1.00 27.33 H +ATOM 2555 HZ1 LYS A 991 22.166 -18.147 31.745 1.00 25.78 H +ATOM 2556 HZ2 LYS A 991 23.492 -19.129 31.653 1.00 25.78 H +ATOM 2557 HZ3 LYS A 991 23.533 -17.752 32.579 1.00 25.78 H +ATOM 2558 N ILE A 992 22.497 -18.216 23.587 1.00 15.24 N +ATOM 2559 CA ILE A 992 21.512 -18.475 22.530 1.00 18.17 C +ATOM 2560 C ILE A 992 20.097 -18.572 23.150 1.00 20.81 C +ATOM 2561 O ILE A 992 19.886 -19.384 24.050 1.00 18.07 O +ATOM 2562 CB ILE A 992 21.833 -19.775 21.739 1.00 18.11 C +ATOM 2563 CG1 ILE A 992 23.253 -19.730 21.120 1.00 23.86 C +ATOM 2564 CG2 ILE A 992 20.796 -20.075 20.634 1.00 16.14 C +ATOM 2565 CD1 ILE A 992 23.783 -21.099 20.674 1.00 24.80 C +ATOM 2566 H ILE A 992 23.138 -18.971 23.795 1.00 15.24 H +ATOM 2567 HA ILE A 992 21.542 -17.639 21.829 1.00 18.17 H +ATOM 2568 HB ILE A 992 21.811 -20.603 22.448 1.00 18.11 H +ATOM 2569 HG13 ILE A 992 23.976 -19.327 21.829 1.00 23.86 H +ATOM 2570 HG12 ILE A 992 23.264 -19.041 20.274 1.00 23.86 H +ATOM 2571 HG21 ILE A 992 21.031 -21.004 20.115 1.00 16.14 H +ATOM 2572 HG22 ILE A 992 19.783 -20.188 21.020 1.00 16.14 H +ATOM 2573 HG23 ILE A 992 20.774 -19.278 19.891 1.00 16.14 H +ATOM 2574 HD11 ILE A 992 24.851 -21.045 20.466 1.00 24.80 H +ATOM 2575 HD12 ILE A 992 23.636 -21.856 21.444 1.00 24.80 H +ATOM 2576 HD13 ILE A 992 23.289 -21.442 19.766 1.00 24.80 H +ATOM 2577 N GLY A 993 19.199 -17.681 22.703 1.00 20.26 N +ATOM 2578 CA GLY A 993 17.996 -17.297 23.439 1.00 23.77 C +ATOM 2579 C GLY A 993 16.681 -17.825 22.850 1.00 22.77 C +ATOM 2580 O GLY A 993 15.648 -17.629 23.489 1.00 22.64 O +ATOM 2581 H GLY A 993 19.436 -17.101 21.909 1.00 20.26 H +ATOM 2582 HA3 GLY A 993 17.949 -16.211 23.413 1.00 23.77 H +ATOM 2583 HA2 GLY A 993 18.064 -17.571 24.490 1.00 23.77 H +ATOM 2584 N ASP A 994 16.687 -18.460 21.665 1.00 22.60 N +ATOM 2585 CA ASP A 994 15.471 -18.931 20.991 1.00 19.81 C +ATOM 2586 C ASP A 994 15.802 -20.205 20.199 1.00 25.05 C +ATOM 2587 O ASP A 994 16.881 -20.288 19.612 1.00 29.22 O +ATOM 2588 CB ASP A 994 14.862 -17.828 20.084 1.00 24.45 C +ATOM 2589 CG ASP A 994 13.383 -18.042 19.731 1.00 26.75 C +ATOM 2590 OD1 ASP A 994 12.534 -17.641 20.559 1.00 25.22 O +ATOM 2591 OD2 ASP A 994 13.114 -18.735 18.726 1.00 25.32 O1- +ATOM 2592 H ASP A 994 17.557 -18.610 21.174 1.00 22.60 H +ATOM 2593 HA ASP A 994 14.737 -19.212 21.750 1.00 19.81 H +ATOM 2594 HB3 ASP A 994 15.440 -17.741 19.163 1.00 24.45 H +ATOM 2595 HB2 ASP A 994 14.970 -16.853 20.562 1.00 24.45 H +ATOM 2596 N PHE A 995 14.862 -21.167 20.203 1.00 18.69 N +ATOM 2597 CA PHE A 995 14.982 -22.470 19.539 1.00 17.07 C +ATOM 2598 C PHE A 995 13.676 -22.861 18.813 1.00 19.25 C +ATOM 2599 O PHE A 995 13.397 -24.051 18.660 1.00 20.57 O +ATOM 2600 CB PHE A 995 15.447 -23.550 20.555 1.00 17.59 C +ATOM 2601 CG PHE A 995 16.852 -23.372 21.105 1.00 22.98 C +ATOM 2602 CD1 PHE A 995 17.966 -23.871 20.396 1.00 20.80 C +ATOM 2603 CD2 PHE A 995 17.072 -22.560 22.238 1.00 15.75 C +ATOM 2604 CE1 PHE A 995 19.251 -23.615 20.852 1.00 19.03 C +ATOM 2605 CE2 PHE A 995 18.365 -22.308 22.671 1.00 19.84 C +ATOM 2606 CZ PHE A 995 19.449 -22.848 21.992 1.00 18.85 C +ATOM 2607 H PHE A 995 13.996 -21.010 20.702 1.00 18.69 H +ATOM 2608 HA PHE A 995 15.732 -22.398 18.751 1.00 17.07 H +ATOM 2609 HB3 PHE A 995 15.405 -24.542 20.103 1.00 17.59 H +ATOM 2610 HB2 PHE A 995 14.756 -23.578 21.399 1.00 17.59 H +ATOM 2611 HD1 PHE A 995 17.826 -24.456 19.501 1.00 20.80 H +ATOM 2612 HD2 PHE A 995 16.236 -22.124 22.766 1.00 15.75 H +ATOM 2613 HE1 PHE A 995 20.102 -24.005 20.313 1.00 19.03 H +ATOM 2614 HE2 PHE A 995 18.523 -21.683 23.537 1.00 19.84 H +ATOM 2615 HZ PHE A 995 20.452 -22.650 22.337 1.00 18.85 H +ATOM 2616 N GLY A 996 12.881 -21.862 18.390 1.00 15.45 N +ATOM 2617 CA GLY A 996 11.525 -22.056 17.872 1.00 18.20 C +ATOM 2618 C GLY A 996 11.462 -22.581 16.430 1.00 25.44 C +ATOM 2619 O GLY A 996 10.406 -23.073 16.032 1.00 23.73 O +ATOM 2620 H GLY A 996 13.173 -20.904 18.539 1.00 15.45 H +ATOM 2621 HA3 GLY A 996 11.000 -21.106 17.931 1.00 18.20 H +ATOM 2622 HA2 GLY A 996 10.981 -22.752 18.509 1.00 18.20 H +ATOM 2623 N LEU A 997 12.567 -22.514 15.669 1.00 16.63 N +ATOM 2624 CA LEU A 997 12.698 -23.140 14.350 1.00 22.16 C +ATOM 2625 C LEU A 997 13.643 -24.357 14.376 1.00 22.81 C +ATOM 2626 O LEU A 997 13.819 -24.970 13.325 1.00 22.12 O +ATOM 2627 CB LEU A 997 13.180 -22.099 13.308 1.00 20.88 C +ATOM 2628 CG LEU A 997 12.209 -20.931 13.002 1.00 28.45 C +ATOM 2629 CD1 LEU A 997 12.711 -20.098 11.803 1.00 29.03 C +ATOM 2630 CD2 LEU A 997 10.748 -21.371 12.786 1.00 26.69 C +ATOM 2631 H LEU A 997 13.397 -22.074 16.039 1.00 16.63 H +ATOM 2632 HA LEU A 997 11.742 -23.546 14.022 1.00 22.16 H +ATOM 2633 HB3 LEU A 997 13.386 -22.609 12.368 1.00 20.88 H +ATOM 2634 HB2 LEU A 997 14.140 -21.696 13.633 1.00 20.88 H +ATOM 2635 HG LEU A 997 12.217 -20.275 13.872 1.00 28.45 H +ATOM 2636 HD11 LEU A 997 12.721 -19.035 12.042 1.00 29.03 H +ATOM 2637 HD12 LEU A 997 13.721 -20.373 11.501 1.00 29.03 H +ATOM 2638 HD13 LEU A 997 12.084 -20.223 10.921 1.00 29.03 H +ATOM 2639 HD21 LEU A 997 10.220 -20.720 12.088 1.00 26.69 H +ATOM 2640 HD22 LEU A 997 10.674 -22.386 12.397 1.00 26.69 H +ATOM 2641 HD23 LEU A 997 10.197 -21.331 13.726 1.00 26.69 H +ATOM 2642 N THR A 998 14.232 -24.697 15.538 1.00 21.01 N +ATOM 2643 CA THR A 998 15.223 -25.768 15.676 1.00 22.09 C +ATOM 2644 C THR A 998 14.626 -27.170 15.433 1.00 23.95 C +ATOM 2645 O THR A 998 13.607 -27.511 16.035 1.00 23.94 O +ATOM 2646 CB THR A 998 15.896 -25.743 17.075 1.00 18.46 C +ATOM 2647 OG1 THR A 998 16.453 -24.459 17.273 1.00 21.18 O +ATOM 2648 CG2 THR A 998 17.021 -26.771 17.302 1.00 19.57 C +ATOM 2649 H THR A 998 14.029 -24.175 16.378 1.00 21.01 H +ATOM 2650 HA THR A 998 15.985 -25.572 14.925 1.00 22.09 H +ATOM 2651 HB THR A 998 15.137 -25.894 17.844 1.00 18.46 H +ATOM 2652 HG1 THR A 998 17.109 -24.299 16.592 1.00 21.18 H +ATOM 2653 HG21 THR A 998 17.443 -26.667 18.302 1.00 19.57 H +ATOM 2654 HG22 THR A 998 16.672 -27.798 17.209 1.00 19.57 H +ATOM 2655 HG23 THR A 998 17.839 -26.634 16.597 1.00 19.57 H +ATOM 2656 N LYS A 999 15.278 -27.937 14.543 1.00 27.15 N +ATOM 2657 CA LYS A 999 14.878 -29.285 14.134 1.00 23.48 C +ATOM 2658 C LYS A 999 16.016 -30.271 14.423 1.00 26.10 C +ATOM 2659 O LYS A 999 17.186 -29.925 14.260 1.00 22.77 O +ATOM 2660 CB LYS A 999 14.545 -29.302 12.623 1.00 20.96 C +ATOM 2661 CG LYS A 999 13.423 -28.342 12.183 1.00 23.23 C +ATOM 2662 CD LYS A 999 12.050 -28.619 12.817 1.00 22.52 C +ATOM 2663 CE LYS A 999 10.985 -27.610 12.356 1.00 27.54 C +ATOM 2664 NZ LYS A 999 9.685 -27.842 13.012 1.00 30.43 N1+ +ATOM 2665 H LYS A 999 16.127 -27.585 14.119 1.00 27.15 H +ATOM 2666 HA LYS A 999 14.005 -29.614 14.701 1.00 23.48 H +ATOM 2667 HB3 LYS A 999 14.270 -30.315 12.326 1.00 20.96 H +ATOM 2668 HB2 LYS A 999 15.444 -29.057 12.052 1.00 20.96 H +ATOM 2669 HG3 LYS A 999 13.331 -28.383 11.098 1.00 23.23 H +ATOM 2670 HG2 LYS A 999 13.723 -27.322 12.405 1.00 23.23 H +ATOM 2671 HD3 LYS A 999 12.132 -28.582 13.904 1.00 22.52 H +ATOM 2672 HD2 LYS A 999 11.739 -29.635 12.566 1.00 22.52 H +ATOM 2673 HE3 LYS A 999 10.850 -27.669 11.275 1.00 27.54 H +ATOM 2674 HE2 LYS A 999 11.307 -26.594 12.587 1.00 27.54 H +ATOM 2675 HZ1 LYS A 999 9.785 -27.754 14.013 1.00 30.43 H +ATOM 2676 HZ2 LYS A 999 9.007 -27.162 12.693 1.00 30.43 H +ATOM 2677 HZ3 LYS A 999 9.344 -28.767 12.794 1.00 30.43 H +ATOM 2678 N VAL A1000 15.640 -31.496 14.817 1.00 25.81 N +ATOM 2679 CA VAL A1000 16.562 -32.588 15.124 1.00 27.07 C +ATOM 2680 C VAL A1000 16.886 -33.371 13.834 1.00 22.75 C +ATOM 2681 O VAL A1000 15.980 -33.623 13.038 1.00 29.27 O +ATOM 2682 CB VAL A1000 15.926 -33.571 16.151 1.00 32.75 C +ATOM 2683 CG1 VAL A1000 16.891 -34.684 16.609 1.00 22.72 C +ATOM 2684 CG2 VAL A1000 15.358 -32.833 17.382 1.00 24.70 C +ATOM 2685 H VAL A1000 14.658 -31.713 14.901 1.00 25.81 H +ATOM 2686 HA VAL A1000 17.485 -32.185 15.546 1.00 27.07 H +ATOM 2687 HB VAL A1000 15.078 -34.071 15.679 1.00 32.75 H +ATOM 2688 HG11 VAL A1000 16.446 -35.295 17.395 1.00 22.72 H +ATOM 2689 HG12 VAL A1000 17.147 -35.362 15.797 1.00 22.72 H +ATOM 2690 HG13 VAL A1000 17.820 -34.270 17.001 1.00 22.72 H +ATOM 2691 HG21 VAL A1000 15.032 -33.531 18.153 1.00 24.70 H +ATOM 2692 HG22 VAL A1000 16.097 -32.168 17.825 1.00 24.70 H +ATOM 2693 HG23 VAL A1000 14.492 -32.225 17.120 1.00 24.70 H +ATOM 2694 N LEU A1001 18.164 -33.750 13.656 1.00 21.08 N +ATOM 2695 CA LEU A1001 18.643 -34.549 12.523 1.00 24.32 C +ATOM 2696 C LEU A1001 18.084 -35.987 12.557 1.00 25.55 C +ATOM 2697 O LEU A1001 18.036 -36.574 13.640 1.00 33.30 O +ATOM 2698 CB LEU A1001 20.184 -34.646 12.572 1.00 20.03 C +ATOM 2699 CG LEU A1001 20.926 -33.330 12.274 1.00 22.91 C +ATOM 2700 CD1 LEU A1001 22.444 -33.473 12.519 1.00 13.87 C +ATOM 2701 CD2 LEU A1001 20.620 -32.837 10.849 1.00 18.84 C +ATOM 2702 H LEU A1001 18.858 -33.506 14.352 1.00 21.08 H +ATOM 2703 HA LEU A1001 18.344 -34.019 11.624 1.00 24.32 H +ATOM 2704 HB3 LEU A1001 20.529 -35.393 11.854 1.00 20.03 H +ATOM 2705 HB2 LEU A1001 20.473 -35.030 13.547 1.00 20.03 H +ATOM 2706 HG LEU A1001 20.568 -32.576 12.972 1.00 22.91 H +ATOM 2707 HD11 LEU A1001 23.031 -33.298 11.617 1.00 13.87 H +ATOM 2708 HD12 LEU A1001 22.783 -32.760 13.271 1.00 13.87 H +ATOM 2709 HD13 LEU A1001 22.710 -34.468 12.877 1.00 13.87 H +ATOM 2710 HD21 LEU A1001 21.432 -32.244 10.430 1.00 18.84 H +ATOM 2711 HD22 LEU A1001 20.440 -33.675 10.177 1.00 18.84 H +ATOM 2712 HD23 LEU A1001 19.726 -32.215 10.835 1.00 18.84 H +ATOM 2713 N PRO A1002 17.760 -36.565 11.376 1.00 27.16 N +ATOM 2714 CA PRO A1002 17.595 -38.026 11.221 1.00 31.14 C +ATOM 2715 C PRO A1002 18.831 -38.833 11.668 1.00 35.47 C +ATOM 2716 O PRO A1002 19.955 -38.339 11.568 1.00 28.49 O +ATOM 2717 CB PRO A1002 17.336 -38.209 9.714 1.00 27.53 C +ATOM 2718 CG PRO A1002 16.839 -36.861 9.229 1.00 29.34 C +ATOM 2719 CD PRO A1002 17.624 -35.886 10.087 1.00 32.32 C +ATOM 2720 HA PRO A1002 16.715 -38.326 11.792 1.00 31.14 H +ATOM 2721 HB3 PRO A1002 16.620 -39.005 9.508 1.00 27.53 H +ATOM 2722 HB2 PRO A1002 18.259 -38.456 9.189 1.00 27.53 H +ATOM 2723 HG3 PRO A1002 15.775 -36.765 9.452 1.00 29.34 H +ATOM 2724 HG2 PRO A1002 16.976 -36.704 8.162 1.00 29.34 H +ATOM 2725 HD2 PRO A1002 18.618 -35.709 9.674 1.00 32.32 H +ATOM 2726 HD3 PRO A1002 17.095 -34.937 10.146 1.00 32.32 H +ATOM 2727 N GLN A1003 18.598 -40.063 12.149 1.00 46.84 N +ATOM 2728 CA GLN A1003 19.651 -40.994 12.570 1.00 44.15 C +ATOM 2729 C GLN A1003 20.584 -41.430 11.418 1.00 39.18 C +ATOM 2730 O GLN A1003 21.760 -41.692 11.666 1.00 47.14 O +ATOM 2731 CB GLN A1003 18.980 -42.193 13.276 1.00 54.66 C +ATOM 2732 CG GLN A1003 19.954 -43.244 13.853 1.00 75.82 C +ATOM 2733 CD GLN A1003 19.241 -44.322 14.672 1.00 82.89 C +ATOM 2734 OE1 GLN A1003 18.147 -44.761 14.323 1.00 80.52 O +ATOM 2735 NE2 GLN A1003 19.872 -44.778 15.756 1.00 63.49 N +ATOM 2736 H GLN A1003 17.650 -40.405 12.208 1.00 46.84 H +ATOM 2737 HA GLN A1003 20.268 -40.476 13.307 1.00 44.15 H +ATOM 2738 HB3 GLN A1003 18.289 -42.679 12.584 1.00 54.66 H +ATOM 2739 HB2 GLN A1003 18.366 -41.808 14.092 1.00 54.66 H +ATOM 2740 HG3 GLN A1003 20.698 -42.746 14.478 1.00 75.82 H +ATOM 2741 HG2 GLN A1003 20.499 -43.745 13.052 1.00 75.82 H +ATOM 2742 HE22 GLN A1003 19.446 -45.498 16.321 1.00 63.49 H +ATOM 2743 HE21 GLN A1003 20.775 -44.410 16.017 1.00 63.49 H +ATOM 2744 N ASP A1004 20.040 -41.480 10.190 1.00 44.12 N +ATOM 2745 CA ASP A1004 20.708 -41.923 8.964 1.00 46.13 C +ATOM 2746 C ASP A1004 21.347 -40.778 8.148 1.00 42.68 C +ATOM 2747 O ASP A1004 22.201 -41.078 7.314 1.00 41.31 O +ATOM 2748 CB ASP A1004 19.779 -42.778 8.051 1.00 62.32 C +ATOM 2749 CG ASP A1004 18.383 -42.237 7.663 1.00 76.56 C +ATOM 2750 OD1 ASP A1004 17.966 -41.160 8.147 1.00 58.24 O +ATOM 2751 OD2 ASP A1004 17.723 -42.949 6.875 1.00 75.10 O1- +ATOM 2752 H ASP A1004 19.068 -41.229 10.072 1.00 44.12 H +ATOM 2753 HA ASP A1004 21.534 -42.575 9.255 1.00 46.13 H +ATOM 2754 HB3 ASP A1004 19.607 -43.726 8.562 1.00 62.32 H +ATOM 2755 HB2 ASP A1004 20.311 -43.046 7.136 1.00 62.32 H +ATOM 2756 N LYS A1005 20.926 -39.515 8.360 1.00 41.14 N +ATOM 2757 CA LYS A1005 21.342 -38.370 7.540 1.00 38.85 C +ATOM 2758 C LYS A1005 21.831 -37.205 8.408 1.00 30.05 C +ATOM 2759 O LYS A1005 21.189 -36.856 9.398 1.00 31.79 O +ATOM 2760 CB LYS A1005 20.179 -37.910 6.633 1.00 43.70 C +ATOM 2761 CG LYS A1005 19.767 -38.963 5.588 1.00 57.59 C +ATOM 2762 CD LYS A1005 18.753 -38.492 4.530 1.00 76.70 C +ATOM 2763 CE LYS A1005 17.407 -37.984 5.085 1.00 81.80 C +ATOM 2764 NZ LYS A1005 17.413 -36.532 5.344 1.00 50.07 N1+ +ATOM 2765 H LYS A1005 20.238 -39.330 9.076 1.00 41.14 H +ATOM 2766 HA LYS A1005 22.174 -38.656 6.893 1.00 38.85 H +ATOM 2767 HB3 LYS A1005 20.481 -37.005 6.103 1.00 43.70 H +ATOM 2768 HB2 LYS A1005 19.322 -37.632 7.247 1.00 43.70 H +ATOM 2769 HG3 LYS A1005 19.357 -39.836 6.093 1.00 57.59 H +ATOM 2770 HG2 LYS A1005 20.661 -39.317 5.072 1.00 57.59 H +ATOM 2771 HD3 LYS A1005 18.547 -39.337 3.872 1.00 76.70 H +ATOM 2772 HD2 LYS A1005 19.219 -37.745 3.888 1.00 76.70 H +ATOM 2773 HE3 LYS A1005 17.125 -38.529 5.987 1.00 81.80 H +ATOM 2774 HE2 LYS A1005 16.625 -38.170 4.348 1.00 81.80 H +ATOM 2775 HZ1 LYS A1005 18.106 -36.311 6.046 1.00 50.07 H +ATOM 2776 HZ2 LYS A1005 17.636 -36.038 4.492 1.00 50.07 H +ATOM 2777 HZ3 LYS A1005 16.502 -36.245 5.673 1.00 50.07 H +ATOM 2778 N GLU A1006 22.929 -36.580 7.954 1.00 28.55 N +ATOM 2779 CA GLU A1006 23.565 -35.407 8.562 1.00 31.35 C +ATOM 2780 C GLU A1006 22.849 -34.075 8.255 1.00 33.53 C +ATOM 2781 O GLU A1006 23.349 -33.029 8.668 1.00 27.17 O +ATOM 2782 CB GLU A1006 25.048 -35.357 8.118 1.00 31.56 C +ATOM 2783 CG GLU A1006 25.866 -36.639 8.409 1.00 31.87 C +ATOM 2784 CD GLU A1006 25.883 -37.055 9.888 1.00 40.80 C +ATOM 2785 OE1 GLU A1006 25.585 -38.239 10.157 1.00 47.77 O +ATOM 2786 OE2 GLU A1006 26.176 -36.185 10.737 1.00 35.45 O1- +ATOM 2787 H GLU A1006 23.388 -36.941 7.130 1.00 28.55 H +ATOM 2788 HA GLU A1006 23.527 -35.522 9.646 1.00 31.35 H +ATOM 2789 HB3 GLU A1006 25.547 -34.508 8.590 1.00 31.56 H +ATOM 2790 HB2 GLU A1006 25.096 -35.158 7.047 1.00 31.56 H +ATOM 2791 HG3 GLU A1006 26.898 -36.484 8.094 1.00 31.87 H +ATOM 2792 HG2 GLU A1006 25.494 -37.462 7.795 1.00 31.87 H +ATOM 2793 N TYR A1007 21.700 -34.128 7.559 1.00 26.43 N +ATOM 2794 CA TYR A1007 20.853 -32.981 7.253 1.00 25.78 C +ATOM 2795 C TYR A1007 19.378 -33.343 7.488 1.00 25.36 C +ATOM 2796 O TYR A1007 18.971 -34.482 7.252 1.00 25.72 O +ATOM 2797 CB TYR A1007 21.118 -32.501 5.804 1.00 0.00 C +ATOM 2798 CG TYR A1007 20.581 -33.387 4.690 1.00 0.00 C +ATOM 2799 CD1 TYR A1007 21.325 -34.502 4.253 1.00 0.00 C +ATOM 2800 CD2 TYR A1007 19.329 -33.108 4.100 1.00 0.00 C +ATOM 2801 CE1 TYR A1007 20.820 -35.337 3.238 1.00 0.00 C +ATOM 2802 CE2 TYR A1007 18.823 -33.946 3.088 1.00 0.00 C +ATOM 2803 CZ TYR A1007 19.568 -35.059 2.656 1.00 0.00 C +ATOM 2804 OH TYR A1007 19.069 -35.869 1.679 1.00 0.00 O +ATOM 2805 H TYR A1007 21.338 -35.027 7.274 1.00 26.43 H +ATOM 2806 HA TYR A1007 21.102 -32.166 7.934 1.00 25.78 H +ATOM 2807 HB3 TYR A1007 22.187 -32.348 5.651 1.00 0.00 H +ATOM 2808 HB2 TYR A1007 20.670 -31.514 5.678 1.00 0.00 H +ATOM 2809 HD1 TYR A1007 22.283 -34.725 4.702 1.00 0.00 H +ATOM 2810 HD2 TYR A1007 18.750 -32.257 4.429 1.00 0.00 H +ATOM 2811 HE1 TYR A1007 21.395 -36.192 2.914 1.00 0.00 H +ATOM 2812 HE2 TYR A1007 17.865 -33.733 2.639 1.00 0.00 H +ATOM 2813 HH TYR A1007 19.664 -36.583 1.434 1.00 0.00 H +HETATM 2814 N PTR A1008 18.610 -32.327 7.904 1.00 25.05 N +HETATM 2815 CA PTR A1008 17.155 -32.331 7.976 1.00 27.78 C +HETATM 2816 C PTR A1008 16.644 -31.423 6.849 1.00 30.94 C +HETATM 2817 O PTR A1008 16.966 -30.234 6.845 1.00 25.41 O +HETATM 2818 CB PTR A1008 16.715 -31.818 9.367 1.00 28.72 C +HETATM 2819 CG PTR A1008 15.211 -31.794 9.596 1.00 33.58 C +HETATM 2820 CD1 PTR A1008 14.445 -30.668 9.223 1.00 31.91 C +HETATM 2821 CD2 PTR A1008 14.569 -32.907 10.176 1.00 39.96 C +HETATM 2822 CE1 PTR A1008 13.049 -30.666 9.414 1.00 35.54 C +HETATM 2823 CE2 PTR A1008 13.177 -32.896 10.386 1.00 32.91 C +HETATM 2824 CZ PTR A1008 12.415 -31.776 10.002 1.00 37.84 C +HETATM 2825 OH PTR A1008 11.065 -31.768 10.199 1.00 48.90 O +HETATM 2826 H PTR A1008 19.043 -31.424 8.054 1.00 25.05 H +HETATM 2827 HA PTR A1008 16.762 -33.341 7.837 1.00 27.78 H +HETATM 2828 HB3 PTR A1008 17.107 -30.814 9.540 1.00 28.72 H +HETATM 2829 HB2 PTR A1008 17.165 -32.440 10.141 1.00 28.72 H +HETATM 2830 HD1 PTR A1008 14.923 -29.807 8.779 1.00 31.91 H +HETATM 2831 HD2 PTR A1008 15.140 -33.775 10.469 1.00 39.96 H +HETATM 2832 HE1 PTR A1008 12.467 -29.809 9.117 1.00 35.54 H +HETATM 2833 HE2 PTR A1008 12.695 -33.751 10.837 1.00 32.91 H +HETATM 2834 HH PTR A1008 10.635 -30.984 9.851 1.00 48.90 H +ATOM 2835 N LYS A1009 15.851 -31.992 5.928 1.00 30.71 N +ATOM 2836 CA LYS A1009 15.189 -31.240 4.865 1.00 34.77 C +ATOM 2837 C LYS A1009 13.770 -30.849 5.298 1.00 32.70 C +ATOM 2838 O LYS A1009 12.965 -31.722 5.625 1.00 28.51 O +ATOM 2839 CB LYS A1009 15.237 -32.039 3.545 1.00 35.59 C +ATOM 2840 CG LYS A1009 14.439 -31.407 2.387 1.00 43.74 C +ATOM 2841 CD LYS A1009 14.863 -31.936 1.010 1.00 52.74 C +ATOM 2842 CE LYS A1009 13.888 -31.515 -0.104 1.00 74.45 C +ATOM 2843 NZ LYS A1009 14.462 -31.728 -1.444 1.00 59.64 N1+ +ATOM 2844 H LYS A1009 15.608 -32.968 6.003 1.00 30.71 H +ATOM 2845 HA LYS A1009 15.748 -30.324 4.681 1.00 34.77 H +ATOM 2846 HB3 LYS A1009 14.879 -33.057 3.704 1.00 35.59 H +ATOM 2847 HB2 LYS A1009 16.283 -32.126 3.251 1.00 35.59 H +ATOM 2848 HG3 LYS A1009 14.563 -30.323 2.399 1.00 43.74 H +ATOM 2849 HG2 LYS A1009 13.374 -31.594 2.537 1.00 43.74 H +ATOM 2850 HD3 LYS A1009 14.942 -33.024 1.041 1.00 52.74 H +ATOM 2851 HD2 LYS A1009 15.865 -31.564 0.792 1.00 52.74 H +ATOM 2852 HE3 LYS A1009 13.627 -30.462 -0.007 1.00 74.45 H +ATOM 2853 HE2 LYS A1009 12.956 -32.074 -0.017 1.00 74.45 H +ATOM 2854 HZ1 LYS A1009 14.688 -32.704 -1.571 1.00 59.64 H +ATOM 2855 HZ2 LYS A1009 13.795 -31.443 -2.147 1.00 59.64 H +ATOM 2856 HZ3 LYS A1009 15.302 -31.173 -1.540 1.00 59.64 H +ATOM 2857 N VAL A1010 13.501 -29.536 5.256 1.00 26.86 N +ATOM 2858 CA VAL A1010 12.192 -28.940 5.495 1.00 29.37 C +ATOM 2859 C VAL A1010 11.395 -28.983 4.177 1.00 34.39 C +ATOM 2860 O VAL A1010 11.778 -28.321 3.212 1.00 41.97 O +ATOM 2861 CB VAL A1010 12.339 -27.464 5.968 1.00 28.25 C +ATOM 2862 CG1 VAL A1010 11.003 -26.706 6.086 1.00 31.15 C +ATOM 2863 CG2 VAL A1010 13.087 -27.372 7.310 1.00 23.75 C +ATOM 2864 H VAL A1010 14.223 -28.896 4.949 1.00 26.86 H +ATOM 2865 HA VAL A1010 11.664 -29.505 6.266 1.00 29.37 H +ATOM 2866 HB VAL A1010 12.947 -26.933 5.235 1.00 28.25 H +ATOM 2867 HG11 VAL A1010 11.157 -25.711 6.503 1.00 31.15 H +ATOM 2868 HG12 VAL A1010 10.525 -26.573 5.117 1.00 31.15 H +ATOM 2869 HG13 VAL A1010 10.302 -27.232 6.734 1.00 31.15 H +ATOM 2870 HG21 VAL A1010 13.283 -26.334 7.571 1.00 23.75 H +ATOM 2871 HG22 VAL A1010 12.501 -27.806 8.119 1.00 23.75 H +ATOM 2872 HG23 VAL A1010 14.050 -27.882 7.281 1.00 23.75 H +ATOM 2873 N LYS A1011 10.325 -29.793 4.156 1.00 39.43 N +ATOM 2874 CA LYS A1011 9.501 -30.035 2.968 1.00 39.84 C +ATOM 2875 C LYS A1011 8.578 -28.860 2.598 1.00 40.74 C +ATOM 2876 O LYS A1011 8.320 -28.671 1.410 1.00 39.55 O +ATOM 2877 CB LYS A1011 8.683 -31.327 3.162 1.00 45.10 C +ATOM 2878 CG LYS A1011 9.551 -32.600 3.199 1.00 49.04 C +ATOM 2879 CD LYS A1011 8.753 -33.898 3.439 1.00 56.84 C +ATOM 2880 CE LYS A1011 7.685 -34.245 2.381 1.00 82.95 C +ATOM 2881 NZ LYS A1011 8.260 -34.484 1.044 1.00 59.29 N1+ +ATOM 2882 H LYS A1011 10.082 -30.321 4.982 1.00 39.43 H +ATOM 2883 HA LYS A1011 10.175 -30.188 2.122 1.00 39.84 H +ATOM 2884 HB3 LYS A1011 7.973 -31.417 2.340 1.00 45.10 H +ATOM 2885 HB2 LYS A1011 8.086 -31.256 4.072 1.00 45.10 H +ATOM 2886 HG3 LYS A1011 10.295 -32.508 3.991 1.00 49.04 H +ATOM 2887 HG2 LYS A1011 10.123 -32.678 2.273 1.00 49.04 H +ATOM 2888 HD3 LYS A1011 8.265 -33.828 4.412 1.00 56.84 H +ATOM 2889 HD2 LYS A1011 9.453 -34.729 3.533 1.00 56.84 H +ATOM 2890 HE3 LYS A1011 6.934 -33.457 2.312 1.00 82.95 H +ATOM 2891 HE2 LYS A1011 7.155 -35.148 2.686 1.00 82.95 H +ATOM 2892 HZ1 LYS A1011 8.922 -35.246 1.092 1.00 59.29 H +ATOM 2893 HZ2 LYS A1011 7.521 -34.721 0.398 1.00 59.29 H +ATOM 2894 HZ3 LYS A1011 8.729 -33.648 0.725 1.00 59.29 H +ATOM 2895 N GLU A1012 8.104 -28.105 3.604 1.00 36.78 N +ATOM 2896 CA GLU A1012 7.196 -26.967 3.443 1.00 39.84 C +ATOM 2897 C GLU A1012 7.670 -25.815 4.354 1.00 27.26 C +ATOM 2898 O GLU A1012 7.206 -25.731 5.493 1.00 28.83 O +ATOM 2899 CB GLU A1012 5.738 -27.399 3.736 1.00 52.31 C +ATOM 2900 CG GLU A1012 5.194 -28.474 2.763 1.00 51.41 C +ATOM 2901 CD GLU A1012 3.713 -28.853 2.934 1.00 72.64 C +ATOM 2902 OE1 GLU A1012 3.269 -29.705 2.132 1.00 67.45 O +ATOM 2903 OE2 GLU A1012 3.042 -28.314 3.842 1.00 74.52 O1- +ATOM 2904 H GLU A1012 8.365 -28.326 4.554 1.00 36.78 H +ATOM 2905 HA GLU A1012 7.208 -26.609 2.413 1.00 39.84 H +ATOM 2906 HB3 GLU A1012 5.097 -26.516 3.695 1.00 52.31 H +ATOM 2907 HB2 GLU A1012 5.665 -27.777 4.757 1.00 52.31 H +ATOM 2908 HG3 GLU A1012 5.773 -29.391 2.871 1.00 51.41 H +ATOM 2909 HG2 GLU A1012 5.341 -28.135 1.736 1.00 51.41 H +ATOM 2910 N PRO A1013 8.613 -24.969 3.868 1.00 29.52 N +ATOM 2911 CA PRO A1013 9.140 -23.818 4.632 1.00 33.93 C +ATOM 2912 C PRO A1013 8.083 -22.772 5.027 1.00 29.96 C +ATOM 2913 O PRO A1013 7.328 -22.310 4.171 1.00 28.39 O +ATOM 2914 CB PRO A1013 10.213 -23.212 3.707 1.00 32.22 C +ATOM 2915 CG PRO A1013 10.620 -24.346 2.786 1.00 31.58 C +ATOM 2916 CD PRO A1013 9.318 -25.107 2.591 1.00 28.59 C +ATOM 2917 HA PRO A1013 9.622 -24.213 5.526 1.00 33.93 H +ATOM 2918 HB3 PRO A1013 11.062 -22.809 4.259 1.00 32.22 H +ATOM 2919 HB2 PRO A1013 9.801 -22.399 3.106 1.00 32.22 H +ATOM 2920 HG3 PRO A1013 11.343 -24.987 3.294 1.00 31.58 H +ATOM 2921 HG2 PRO A1013 11.067 -24.007 1.852 1.00 31.58 H +ATOM 2922 HD2 PRO A1013 8.715 -24.647 1.806 1.00 28.59 H +ATOM 2923 HD3 PRO A1013 9.528 -26.136 2.304 1.00 28.59 H +ATOM 2924 N GLY A1014 8.086 -22.407 6.320 1.00 36.20 N +ATOM 2925 CA GLY A1014 7.295 -21.314 6.884 1.00 42.18 C +ATOM 2926 C GLY A1014 8.102 -20.011 6.783 1.00 42.76 C +ATOM 2927 O GLY A1014 8.747 -19.750 5.764 1.00 37.44 O +ATOM 2928 H GLY A1014 8.733 -22.859 6.948 1.00 36.20 H +ATOM 2929 HA3 GLY A1014 7.069 -21.544 7.926 1.00 42.18 H +ATOM 2930 HA2 GLY A1014 6.343 -21.199 6.364 1.00 42.18 H +ATOM 2931 N GLU A1015 8.049 -19.185 7.845 1.00 45.52 N +ATOM 2932 CA GLU A1015 8.824 -17.947 7.985 1.00 47.84 C +ATOM 2933 C GLU A1015 10.338 -18.235 7.960 1.00 42.83 C +ATOM 2934 O GLU A1015 10.837 -18.936 8.840 1.00 40.32 O +ATOM 2935 CB GLU A1015 8.367 -17.197 9.255 1.00 39.22 C +ATOM 2936 CG GLU A1015 9.112 -15.864 9.514 1.00 53.84 C +ATOM 2937 CD GLU A1015 8.593 -15.029 10.698 1.00 64.25 C +ATOM 2938 OE1 GLU A1015 7.667 -15.481 11.408 1.00 55.72 O +ATOM 2939 OE2 GLU A1015 9.148 -13.922 10.878 1.00 51.85 O1- +ATOM 2940 H GLU A1015 7.491 -19.443 8.646 1.00 45.52 H +ATOM 2941 HA GLU A1015 8.579 -17.314 7.129 1.00 47.84 H +ATOM 2942 HB3 GLU A1015 8.478 -17.850 10.123 1.00 39.22 H +ATOM 2943 HB2 GLU A1015 7.298 -16.995 9.165 1.00 39.22 H +ATOM 2944 HG3 GLU A1015 9.061 -15.247 8.615 1.00 53.84 H +ATOM 2945 HG2 GLU A1015 10.171 -16.058 9.693 1.00 53.84 H +ATOM 2946 N SER A1016 11.005 -17.734 6.910 1.00 34.08 N +ATOM 2947 CA SER A1016 12.351 -18.140 6.519 1.00 32.52 C +ATOM 2948 C SER A1016 13.291 -16.918 6.502 1.00 27.75 C +ATOM 2949 O SER A1016 13.076 -16.039 5.665 1.00 25.10 O +ATOM 2950 CB SER A1016 12.253 -18.752 5.104 1.00 27.17 C +ATOM 2951 OG SER A1016 11.760 -20.076 5.169 1.00 30.68 O +ATOM 2952 H SER A1016 10.517 -17.148 6.248 1.00 34.08 H +ATOM 2953 HA SER A1016 12.723 -18.914 7.185 1.00 32.52 H +ATOM 2954 HB3 SER A1016 13.234 -18.790 4.630 1.00 27.17 H +ATOM 2955 HB2 SER A1016 11.615 -18.155 4.449 1.00 27.17 H +ATOM 2956 HG SER A1016 10.818 -20.036 5.367 1.00 30.68 H +ATOM 2957 N PRO A1017 14.321 -16.872 7.384 1.00 25.21 N +ATOM 2958 CA PRO A1017 15.379 -15.844 7.313 1.00 22.40 C +ATOM 2959 C PRO A1017 16.382 -16.129 6.171 1.00 20.79 C +ATOM 2960 O PRO A1017 17.492 -16.597 6.423 1.00 19.33 O +ATOM 2961 CB PRO A1017 16.002 -15.894 8.720 1.00 21.07 C +ATOM 2962 CG PRO A1017 15.865 -17.347 9.136 1.00 21.83 C +ATOM 2963 CD PRO A1017 14.517 -17.748 8.547 1.00 21.94 C +ATOM 2964 HA PRO A1017 14.953 -14.852 7.151 1.00 22.40 H +ATOM 2965 HB3 PRO A1017 15.419 -15.266 9.396 1.00 21.07 H +ATOM 2966 HB2 PRO A1017 17.034 -15.544 8.770 1.00 21.07 H +ATOM 2967 HG3 PRO A1017 15.929 -17.505 10.209 1.00 21.83 H +ATOM 2968 HG2 PRO A1017 16.659 -17.932 8.672 1.00 21.83 H +ATOM 2969 HD2 PRO A1017 14.521 -18.810 8.310 1.00 21.94 H +ATOM 2970 HD3 PRO A1017 13.717 -17.561 9.265 1.00 21.94 H +ATOM 2971 N ILE A1018 15.955 -15.852 4.927 1.00 17.67 N +ATOM 2972 CA ILE A1018 16.668 -16.158 3.681 1.00 18.19 C +ATOM 2973 C ILE A1018 18.038 -15.466 3.504 1.00 19.82 C +ATOM 2974 O ILE A1018 18.875 -15.989 2.770 1.00 17.78 O +ATOM 2975 CB ILE A1018 15.792 -15.844 2.435 1.00 22.41 C +ATOM 2976 CG1 ILE A1018 15.337 -14.366 2.344 1.00 19.50 C +ATOM 2977 CG2 ILE A1018 14.601 -16.818 2.351 1.00 21.88 C +ATOM 2978 CD1 ILE A1018 14.666 -14.001 1.013 1.00 19.65 C +ATOM 2979 H ILE A1018 15.021 -15.482 4.811 1.00 17.67 H +ATOM 2980 HA ILE A1018 16.864 -17.230 3.695 1.00 18.19 H +ATOM 2981 HB ILE A1018 16.402 -16.035 1.551 1.00 22.41 H +ATOM 2982 HG13 ILE A1018 16.184 -13.694 2.478 1.00 19.50 H +ATOM 2983 HG12 ILE A1018 14.648 -14.142 3.159 1.00 19.50 H +ATOM 2984 HG21 ILE A1018 14.063 -16.714 1.409 1.00 21.88 H +ATOM 2985 HG22 ILE A1018 14.932 -17.855 2.415 1.00 21.88 H +ATOM 2986 HG23 ILE A1018 13.887 -16.649 3.156 1.00 21.88 H +ATOM 2987 HD11 ILE A1018 14.641 -12.919 0.886 1.00 19.65 H +ATOM 2988 HD12 ILE A1018 15.203 -14.423 0.163 1.00 19.65 H +ATOM 2989 HD13 ILE A1018 13.637 -14.358 0.976 1.00 19.65 H +ATOM 2990 N PHE A1019 18.254 -14.336 4.197 1.00 17.57 N +ATOM 2991 CA PHE A1019 19.509 -13.581 4.190 1.00 18.06 C +ATOM 2992 C PHE A1019 20.574 -14.165 5.145 1.00 20.02 C +ATOM 2993 O PHE A1019 21.730 -13.752 5.067 1.00 18.30 O +ATOM 2994 CB PHE A1019 19.198 -12.104 4.505 1.00 16.39 C +ATOM 2995 CG PHE A1019 18.187 -11.472 3.560 1.00 20.55 C +ATOM 2996 CD1 PHE A1019 16.900 -11.117 4.018 1.00 19.03 C +ATOM 2997 CD2 PHE A1019 18.494 -11.309 2.193 1.00 19.14 C +ATOM 2998 CE1 PHE A1019 15.977 -10.569 3.137 1.00 22.10 C +ATOM 2999 CE2 PHE A1019 17.557 -10.759 1.328 1.00 21.63 C +ATOM 3000 CZ PHE A1019 16.307 -10.383 1.800 1.00 18.84 C +ATOM 3001 H PHE A1019 17.515 -13.967 4.779 1.00 17.57 H +ATOM 3002 HA PHE A1019 19.936 -13.626 3.187 1.00 18.06 H +ATOM 3003 HB3 PHE A1019 20.115 -11.515 4.466 1.00 16.39 H +ATOM 3004 HB2 PHE A1019 18.833 -12.005 5.527 1.00 16.39 H +ATOM 3005 HD1 PHE A1019 16.629 -11.262 5.054 1.00 19.03 H +ATOM 3006 HD2 PHE A1019 19.456 -11.618 1.815 1.00 19.14 H +ATOM 3007 HE1 PHE A1019 14.997 -10.287 3.493 1.00 22.10 H +ATOM 3008 HE2 PHE A1019 17.800 -10.627 0.283 1.00 21.63 H +ATOM 3009 HZ PHE A1019 15.584 -9.954 1.123 1.00 18.84 H +ATOM 3010 N TRP A1020 20.172 -15.129 5.994 1.00 20.37 N +ATOM 3011 CA TRP A1020 21.040 -15.947 6.843 1.00 21.97 C +ATOM 3012 C TRP A1020 21.190 -17.382 6.301 1.00 21.14 C +ATOM 3013 O TRP A1020 22.098 -18.078 6.751 1.00 23.70 O +ATOM 3014 CB TRP A1020 20.493 -15.965 8.288 1.00 17.11 C +ATOM 3015 CG TRP A1020 20.552 -14.664 9.039 1.00 17.26 C +ATOM 3016 CD1 TRP A1020 21.485 -14.350 9.967 1.00 17.44 C +ATOM 3017 CD2 TRP A1020 19.702 -13.478 8.914 1.00 17.59 C +ATOM 3018 NE1 TRP A1020 21.268 -13.071 10.431 1.00 13.01 N +ATOM 3019 CE2 TRP A1020 20.191 -12.478 9.809 1.00 15.18 C +ATOM 3020 CE3 TRP A1020 18.570 -13.137 8.136 1.00 20.30 C +ATOM 3021 CZ2 TRP A1020 19.598 -11.208 9.918 1.00 17.22 C +ATOM 3022 CZ3 TRP A1020 17.966 -11.867 8.235 1.00 20.54 C +ATOM 3023 CH2 TRP A1020 18.480 -10.902 9.121 1.00 18.82 C +ATOM 3024 H TRP A1020 19.196 -15.393 6.001 1.00 20.37 H +ATOM 3025 HA TRP A1020 22.045 -15.526 6.874 1.00 21.97 H +ATOM 3026 HB3 TRP A1020 21.045 -16.697 8.881 1.00 17.11 H +ATOM 3027 HB2 TRP A1020 19.457 -16.306 8.292 1.00 17.11 H +ATOM 3028 HD1 TRP A1020 22.277 -15.012 10.288 1.00 17.44 H +ATOM 3029 HE1 TRP A1020 21.851 -12.632 11.137 1.00 13.01 H +ATOM 3030 HE3 TRP A1020 18.162 -13.861 7.448 1.00 20.30 H +ATOM 3031 HZ2 TRP A1020 19.998 -10.475 10.601 1.00 17.22 H +ATOM 3032 HZ3 TRP A1020 17.105 -11.634 7.626 1.00 20.54 H +ATOM 3033 HH2 TRP A1020 18.017 -9.929 9.191 1.00 18.82 H +ATOM 3034 N TYR A1021 20.326 -17.808 5.359 1.00 21.50 N +ATOM 3035 CA TYR A1021 20.361 -19.132 4.730 1.00 19.22 C +ATOM 3036 C TYR A1021 21.543 -19.302 3.762 1.00 19.27 C +ATOM 3037 O TYR A1021 21.911 -18.363 3.054 1.00 19.82 O +ATOM 3038 CB TYR A1021 19.049 -19.380 3.952 1.00 20.84 C +ATOM 3039 CG TYR A1021 17.790 -19.763 4.717 1.00 18.01 C +ATOM 3040 CD1 TYR A1021 17.723 -19.775 6.128 1.00 19.16 C +ATOM 3041 CD2 TYR A1021 16.657 -20.149 3.970 1.00 15.01 C +ATOM 3042 CE1 TYR A1021 16.540 -20.181 6.775 1.00 21.54 C +ATOM 3043 CE2 TYR A1021 15.472 -20.543 4.617 1.00 17.25 C +ATOM 3044 CZ TYR A1021 15.416 -20.567 6.022 1.00 22.53 C +ATOM 3045 OH TYR A1021 14.276 -20.978 6.649 1.00 24.53 O +ATOM 3046 H TYR A1021 19.606 -17.182 5.028 1.00 21.50 H +ATOM 3047 HA TYR A1021 20.460 -19.884 5.516 1.00 19.22 H +ATOM 3048 HB3 TYR A1021 19.204 -20.212 3.266 1.00 20.84 H +ATOM 3049 HB2 TYR A1021 18.830 -18.529 3.310 1.00 20.84 H +ATOM 3050 HD1 TYR A1021 18.568 -19.481 6.732 1.00 19.16 H +ATOM 3051 HD2 TYR A1021 16.696 -20.158 2.891 1.00 15.01 H +ATOM 3052 HE1 TYR A1021 16.499 -20.201 7.853 1.00 21.54 H +ATOM 3053 HE2 TYR A1021 14.616 -20.843 4.029 1.00 17.25 H +ATOM 3054 HH TYR A1021 13.525 -21.040 6.049 1.00 24.53 H +ATOM 3055 N ALA A1022 22.052 -20.544 3.714 1.00 16.96 N +ATOM 3056 CA ALA A1022 23.022 -21.041 2.740 1.00 19.34 C +ATOM 3057 C ALA A1022 22.366 -21.346 1.367 1.00 21.08 C +ATOM 3058 O ALA A1022 21.137 -21.339 1.281 1.00 21.81 O +ATOM 3059 CB ALA A1022 23.677 -22.287 3.359 1.00 14.88 C +ATOM 3060 H ALA A1022 21.676 -21.244 4.337 1.00 16.96 H +ATOM 3061 HA ALA A1022 23.774 -20.266 2.609 1.00 19.34 H +ATOM 3062 HB1 ALA A1022 24.536 -22.627 2.789 1.00 14.88 H +ATOM 3063 HB2 ALA A1022 24.033 -22.083 4.369 1.00 14.88 H +ATOM 3064 HB3 ALA A1022 22.968 -23.113 3.427 1.00 14.88 H +ATOM 3065 N PRO A1023 23.166 -21.638 0.312 1.00 22.93 N +ATOM 3066 CA PRO A1023 22.634 -21.974 -1.026 1.00 23.04 C +ATOM 3067 C PRO A1023 21.715 -23.211 -1.089 1.00 22.05 C +ATOM 3068 O PRO A1023 20.688 -23.142 -1.760 1.00 24.43 O +ATOM 3069 CB PRO A1023 23.887 -22.133 -1.906 1.00 22.57 C +ATOM 3070 CG PRO A1023 24.951 -21.309 -1.203 1.00 24.10 C +ATOM 3071 CD PRO A1023 24.623 -21.533 0.266 1.00 18.86 C +ATOM 3072 HA PRO A1023 22.073 -21.102 -1.370 1.00 23.04 H +ATOM 3073 HB3 PRO A1023 23.724 -21.803 -2.933 1.00 22.57 H +ATOM 3074 HB2 PRO A1023 24.206 -23.176 -1.942 1.00 22.57 H +ATOM 3075 HG3 PRO A1023 24.817 -20.255 -1.447 1.00 24.10 H +ATOM 3076 HG2 PRO A1023 25.969 -21.592 -1.469 1.00 24.10 H +ATOM 3077 HD2 PRO A1023 25.053 -22.476 0.599 1.00 18.86 H +ATOM 3078 HD3 PRO A1023 25.023 -20.730 0.878 1.00 18.86 H +ATOM 3079 N GLU A1024 22.065 -24.295 -0.373 1.00 21.40 N +ATOM 3080 CA GLU A1024 21.260 -25.518 -0.263 1.00 23.24 C +ATOM 3081 C GLU A1024 20.027 -25.344 0.647 1.00 22.31 C +ATOM 3082 O GLU A1024 19.061 -26.083 0.473 1.00 22.06 O +ATOM 3083 CB GLU A1024 22.145 -26.726 0.145 1.00 19.55 C +ATOM 3084 CG GLU A1024 22.522 -26.894 1.642 1.00 19.29 C +ATOM 3085 CD GLU A1024 23.554 -25.914 2.225 1.00 23.83 C +ATOM 3086 OE1 GLU A1024 24.210 -25.178 1.455 1.00 20.26 O +ATOM 3087 OE2 GLU A1024 23.695 -25.929 3.466 1.00 28.85 O1- +ATOM 3088 H GLU A1024 22.927 -24.295 0.161 1.00 21.40 H +ATOM 3089 HA GLU A1024 20.883 -25.741 -1.262 1.00 23.24 H +ATOM 3090 HB3 GLU A1024 23.051 -26.730 -0.462 1.00 19.55 H +ATOM 3091 HB2 GLU A1024 21.618 -27.632 -0.160 1.00 19.55 H +ATOM 3092 HG3 GLU A1024 22.941 -27.894 1.769 1.00 19.29 H +ATOM 3093 HG2 GLU A1024 21.628 -26.882 2.264 1.00 19.29 H +ATOM 3094 N SER A1025 20.059 -24.362 1.566 1.00 17.97 N +ATOM 3095 CA SER A1025 18.920 -23.963 2.398 1.00 16.30 C +ATOM 3096 C SER A1025 17.878 -23.126 1.626 1.00 19.72 C +ATOM 3097 O SER A1025 16.742 -23.026 2.088 1.00 20.76 O +ATOM 3098 CB SER A1025 19.434 -23.176 3.618 1.00 15.62 C +ATOM 3099 OG SER A1025 20.214 -23.988 4.467 1.00 16.49 O +ATOM 3100 H SER A1025 20.896 -23.806 1.668 1.00 17.97 H +ATOM 3101 HA SER A1025 18.408 -24.858 2.755 1.00 16.30 H +ATOM 3102 HB3 SER A1025 18.604 -22.770 4.195 1.00 15.62 H +ATOM 3103 HB2 SER A1025 20.037 -22.329 3.309 1.00 15.62 H +ATOM 3104 HG SER A1025 19.715 -24.782 4.685 1.00 16.49 H +ATOM 3105 N LEU A1026 18.275 -22.552 0.476 1.00 17.42 N +ATOM 3106 CA LEU A1026 17.424 -21.761 -0.412 1.00 19.43 C +ATOM 3107 C LEU A1026 16.884 -22.611 -1.578 1.00 22.05 C +ATOM 3108 O LEU A1026 15.690 -22.528 -1.863 1.00 25.69 O +ATOM 3109 CB LEU A1026 18.233 -20.564 -0.962 1.00 16.24 C +ATOM 3110 CG LEU A1026 18.561 -19.454 0.059 1.00 18.41 C +ATOM 3111 CD1 LEU A1026 19.760 -18.595 -0.398 1.00 15.93 C +ATOM 3112 CD2 LEU A1026 17.323 -18.593 0.385 1.00 19.31 C +ATOM 3113 H LEU A1026 19.234 -22.666 0.180 1.00 17.42 H +ATOM 3114 HA LEU A1026 16.564 -21.379 0.141 1.00 19.43 H +ATOM 3115 HB3 LEU A1026 17.688 -20.104 -1.784 1.00 16.24 H +ATOM 3116 HB2 LEU A1026 19.159 -20.945 -1.394 1.00 16.24 H +ATOM 3117 HG LEU A1026 18.865 -19.942 0.984 1.00 18.41 H +ATOM 3118 HD11 LEU A1026 19.548 -17.527 -0.368 1.00 15.93 H +ATOM 3119 HD12 LEU A1026 20.620 -18.761 0.251 1.00 15.93 H +ATOM 3120 HD13 LEU A1026 20.074 -18.828 -1.416 1.00 15.93 H +ATOM 3121 HD21 LEU A1026 17.241 -18.424 1.457 1.00 19.31 H +ATOM 3122 HD22 LEU A1026 17.359 -17.615 -0.095 1.00 19.31 H +ATOM 3123 HD23 LEU A1026 16.394 -19.061 0.059 1.00 19.31 H +ATOM 3124 N THR A1027 17.764 -23.385 -2.241 1.00 23.27 N +ATOM 3125 CA THR A1027 17.443 -24.155 -3.449 1.00 21.86 C +ATOM 3126 C THR A1027 16.763 -25.510 -3.159 1.00 25.32 C +ATOM 3127 O THR A1027 15.899 -25.902 -3.944 1.00 25.43 O +ATOM 3128 CB THR A1027 18.707 -24.450 -4.306 1.00 24.51 C +ATOM 3129 OG1 THR A1027 19.680 -25.195 -3.600 1.00 37.24 O +ATOM 3130 CG2 THR A1027 19.380 -23.187 -4.857 1.00 22.75 C +ATOM 3131 H THR A1027 18.734 -23.390 -1.956 1.00 23.27 H +ATOM 3132 HA THR A1027 16.756 -23.564 -4.059 1.00 21.86 H +ATOM 3133 HB THR A1027 18.418 -25.060 -5.164 1.00 24.51 H +ATOM 3134 HG1 THR A1027 20.149 -24.600 -3.007 1.00 37.24 H +ATOM 3135 HG21 THR A1027 20.289 -23.431 -5.408 1.00 22.75 H +ATOM 3136 HG22 THR A1027 18.710 -22.680 -5.548 1.00 22.75 H +ATOM 3137 HG23 THR A1027 19.647 -22.483 -4.070 1.00 22.75 H +ATOM 3138 N GLU A1028 17.154 -26.195 -2.071 1.00 23.19 N +ATOM 3139 CA GLU A1028 16.671 -27.537 -1.723 1.00 25.34 C +ATOM 3140 C GLU A1028 15.972 -27.588 -0.354 1.00 25.77 C +ATOM 3141 O GLU A1028 15.375 -28.618 -0.045 1.00 29.58 O +ATOM 3142 CB GLU A1028 17.853 -28.529 -1.737 1.00 32.99 C +ATOM 3143 CG GLU A1028 18.535 -28.712 -3.107 1.00 36.33 C +ATOM 3144 CD GLU A1028 19.660 -29.752 -3.035 1.00 56.44 C +ATOM 3145 OE1 GLU A1028 19.346 -30.951 -3.207 1.00 56.88 O +ATOM 3146 OE2 GLU A1028 20.812 -29.343 -2.769 1.00 56.71 O1- +ATOM 3147 H GLU A1028 17.884 -25.819 -1.482 1.00 23.19 H +ATOM 3148 HA GLU A1028 15.935 -27.883 -2.451 1.00 25.34 H +ATOM 3149 HB3 GLU A1028 17.512 -29.504 -1.385 1.00 32.99 H +ATOM 3150 HB2 GLU A1028 18.600 -28.196 -1.016 1.00 32.99 H +ATOM 3151 HG3 GLU A1028 18.944 -27.767 -3.462 1.00 36.33 H +ATOM 3152 HG2 GLU A1028 17.799 -29.021 -3.851 1.00 36.33 H +ATOM 3153 N SER A1029 16.077 -26.514 0.449 1.00 26.47 N +ATOM 3154 CA SER A1029 15.594 -26.407 1.832 1.00 26.87 C +ATOM 3155 C SER A1029 16.207 -27.463 2.779 1.00 22.40 C +ATOM 3156 O SER A1029 15.526 -27.958 3.677 1.00 17.77 O +ATOM 3157 CB SER A1029 14.050 -26.346 1.876 1.00 27.56 C +ATOM 3158 OG SER A1029 13.605 -25.132 1.307 1.00 43.00 O +ATOM 3159 H SER A1029 16.575 -25.705 0.104 1.00 26.47 H +ATOM 3160 HA SER A1029 15.969 -25.461 2.216 1.00 26.87 H +ATOM 3161 HB3 SER A1029 13.685 -26.364 2.904 1.00 27.56 H +ATOM 3162 HB2 SER A1029 13.589 -27.188 1.360 1.00 27.56 H +ATOM 3163 HG SER A1029 13.916 -24.402 1.849 1.00 43.00 H +ATOM 3164 N LYS A1030 17.495 -27.774 2.557 1.00 25.45 N +ATOM 3165 CA LYS A1030 18.309 -28.675 3.370 1.00 24.37 C +ATOM 3166 C LYS A1030 19.051 -27.863 4.435 1.00 24.70 C +ATOM 3167 O LYS A1030 19.633 -26.829 4.108 1.00 20.80 O +ATOM 3168 CB LYS A1030 19.314 -29.403 2.460 1.00 28.11 C +ATOM 3169 CG LYS A1030 18.648 -30.415 1.514 1.00 39.79 C +ATOM 3170 CD LYS A1030 19.554 -30.845 0.354 1.00 47.68 C +ATOM 3171 CE LYS A1030 20.837 -31.588 0.751 1.00 45.69 C +ATOM 3172 NZ LYS A1030 21.642 -31.912 -0.442 1.00 43.94 N1+ +ATOM 3173 H LYS A1030 17.984 -27.308 1.803 1.00 25.45 H +ATOM 3174 HA LYS A1030 17.676 -29.419 3.857 1.00 24.37 H +ATOM 3175 HB3 LYS A1030 20.047 -29.934 3.070 1.00 28.11 H +ATOM 3176 HB2 LYS A1030 19.875 -28.667 1.882 1.00 28.11 H +ATOM 3177 HG3 LYS A1030 17.739 -29.985 1.093 1.00 39.79 H +ATOM 3178 HG2 LYS A1030 18.326 -31.289 2.077 1.00 39.79 H +ATOM 3179 HD3 LYS A1030 19.833 -29.947 -0.194 1.00 47.68 H +ATOM 3180 HD2 LYS A1030 18.968 -31.455 -0.335 1.00 47.68 H +ATOM 3181 HE3 LYS A1030 20.599 -32.510 1.280 1.00 45.69 H +ATOM 3182 HE2 LYS A1030 21.446 -30.976 1.417 1.00 45.69 H +ATOM 3183 HZ1 LYS A1030 21.865 -31.058 -0.937 1.00 43.94 H +ATOM 3184 HZ2 LYS A1030 22.495 -32.379 -0.169 1.00 43.94 H +ATOM 3185 HZ3 LYS A1030 21.108 -32.508 -1.059 1.00 43.94 H +ATOM 3186 N PHE A1031 19.017 -28.353 5.681 1.00 22.61 N +ATOM 3187 CA PHE A1031 19.617 -27.693 6.837 1.00 19.34 C +ATOM 3188 C PHE A1031 20.474 -28.701 7.607 1.00 23.49 C +ATOM 3189 O PHE A1031 20.040 -29.830 7.826 1.00 25.96 O +ATOM 3190 CB PHE A1031 18.510 -27.110 7.737 1.00 19.32 C +ATOM 3191 CG PHE A1031 17.673 -26.022 7.095 1.00 19.86 C +ATOM 3192 CD1 PHE A1031 16.531 -26.354 6.334 1.00 16.69 C +ATOM 3193 CD2 PHE A1031 18.110 -24.682 7.130 1.00 14.90 C +ATOM 3194 CE1 PHE A1031 15.821 -25.358 5.679 1.00 18.96 C +ATOM 3195 CE2 PHE A1031 17.379 -23.702 6.475 1.00 15.82 C +ATOM 3196 CZ PHE A1031 16.243 -24.039 5.750 1.00 19.67 C +ATOM 3197 H PHE A1031 18.508 -29.204 5.880 1.00 22.61 H +ATOM 3198 HA PHE A1031 20.265 -26.878 6.512 1.00 19.34 H +ATOM 3199 HB3 PHE A1031 18.962 -26.674 8.627 1.00 19.32 H +ATOM 3200 HB2 PHE A1031 17.848 -27.902 8.089 1.00 19.32 H +ATOM 3201 HD1 PHE A1031 16.210 -27.383 6.259 1.00 16.69 H +ATOM 3202 HD2 PHE A1031 19.006 -24.414 7.669 1.00 14.90 H +ATOM 3203 HE1 PHE A1031 14.945 -25.611 5.101 1.00 18.96 H +ATOM 3204 HE2 PHE A1031 17.712 -22.676 6.513 1.00 15.82 H +ATOM 3205 HZ PHE A1031 15.691 -23.275 5.225 1.00 19.67 H +ATOM 3206 N SER A1032 21.666 -28.257 8.020 1.00 19.60 N +ATOM 3207 CA SER A1032 22.677 -29.054 8.713 1.00 17.69 C +ATOM 3208 C SER A1032 23.511 -28.152 9.638 1.00 19.39 C +ATOM 3209 O SER A1032 23.299 -26.940 9.669 1.00 21.91 O +ATOM 3210 CB SER A1032 23.521 -29.814 7.662 1.00 19.16 C +ATOM 3211 OG SER A1032 24.324 -28.950 6.878 1.00 18.71 O +ATOM 3212 H SER A1032 21.923 -27.293 7.846 1.00 19.60 H +ATOM 3213 HA SER A1032 22.174 -29.783 9.349 1.00 17.69 H +ATOM 3214 HB3 SER A1032 22.880 -30.397 7.001 1.00 19.16 H +ATOM 3215 HB2 SER A1032 24.180 -30.527 8.155 1.00 19.16 H +ATOM 3216 HG SER A1032 25.085 -28.682 7.395 1.00 18.71 H +ATOM 3217 N VAL A1033 24.469 -28.749 10.371 1.00 18.39 N +ATOM 3218 CA VAL A1033 25.418 -28.013 11.218 1.00 19.75 C +ATOM 3219 C VAL A1033 26.280 -27.028 10.394 1.00 21.11 C +ATOM 3220 O VAL A1033 26.518 -25.914 10.852 1.00 22.65 O +ATOM 3221 CB VAL A1033 26.348 -28.972 12.019 1.00 20.93 C +ATOM 3222 CG1 VAL A1033 27.441 -28.261 12.850 1.00 20.11 C +ATOM 3223 CG2 VAL A1033 25.533 -29.895 12.946 1.00 17.43 C +ATOM 3224 H VAL A1033 24.586 -29.751 10.333 1.00 18.39 H +ATOM 3225 HA VAL A1033 24.834 -27.425 11.931 1.00 19.75 H +ATOM 3226 HB VAL A1033 26.864 -29.618 11.306 1.00 20.93 H +ATOM 3227 HG11 VAL A1033 27.995 -28.973 13.462 1.00 20.11 H +ATOM 3228 HG12 VAL A1033 28.175 -27.752 12.225 1.00 20.11 H +ATOM 3229 HG13 VAL A1033 27.002 -27.523 13.522 1.00 20.11 H +ATOM 3230 HG21 VAL A1033 26.183 -30.553 13.524 1.00 17.43 H +ATOM 3231 HG22 VAL A1033 24.935 -29.318 13.652 1.00 17.43 H +ATOM 3232 HG23 VAL A1033 24.856 -30.536 12.381 1.00 17.43 H +ATOM 3233 N ALA A1034 26.656 -27.437 9.168 1.00 19.15 N +ATOM 3234 CA ALA A1034 27.342 -26.615 8.173 1.00 19.64 C +ATOM 3235 C ALA A1034 26.495 -25.458 7.602 1.00 20.66 C +ATOM 3236 O ALA A1034 27.078 -24.436 7.243 1.00 23.52 O +ATOM 3237 CB ALA A1034 27.850 -27.524 7.046 1.00 20.50 C +ATOM 3238 H ALA A1034 26.433 -28.379 8.885 1.00 19.15 H +ATOM 3239 HA ALA A1034 28.213 -26.173 8.660 1.00 19.64 H +ATOM 3240 HB1 ALA A1034 28.375 -26.953 6.280 1.00 20.50 H +ATOM 3241 HB2 ALA A1034 28.549 -28.269 7.427 1.00 20.50 H +ATOM 3242 HB3 ALA A1034 27.031 -28.055 6.561 1.00 20.50 H +ATOM 3243 N SER A1035 25.156 -25.599 7.539 1.00 18.46 N +ATOM 3244 CA SER A1035 24.252 -24.504 7.156 1.00 17.69 C +ATOM 3245 C SER A1035 24.144 -23.434 8.260 1.00 22.40 C +ATOM 3246 O SER A1035 24.013 -22.255 7.936 1.00 26.17 O +ATOM 3247 CB SER A1035 22.881 -25.048 6.690 1.00 14.44 C +ATOM 3248 OG SER A1035 21.938 -25.226 7.729 1.00 24.47 O +ATOM 3249 H SER A1035 24.714 -26.450 7.859 1.00 18.46 H +ATOM 3250 HA SER A1035 24.695 -24.017 6.285 1.00 17.69 H +ATOM 3251 HB3 SER A1035 22.997 -25.993 6.158 1.00 14.44 H +ATOM 3252 HB2 SER A1035 22.447 -24.348 5.976 1.00 14.44 H +ATOM 3253 HG SER A1035 21.757 -24.373 8.133 1.00 24.47 H +ATOM 3254 N ASP A1036 24.252 -23.861 9.531 1.00 17.06 N +ATOM 3255 CA ASP A1036 24.345 -22.981 10.697 1.00 13.42 C +ATOM 3256 C ASP A1036 25.714 -22.284 10.802 1.00 12.94 C +ATOM 3257 O ASP A1036 25.759 -21.185 11.349 1.00 13.57 O +ATOM 3258 CB ASP A1036 24.020 -23.682 12.037 1.00 20.32 C +ATOM 3259 CG ASP A1036 22.697 -24.460 12.118 1.00 19.39 C +ATOM 3260 OD1 ASP A1036 21.721 -24.081 11.431 1.00 20.35 O +ATOM 3261 OD2 ASP A1036 22.636 -25.339 13.005 1.00 19.61 O1- +ATOM 3262 H ASP A1036 24.320 -24.853 9.718 1.00 17.06 H +ATOM 3263 HA ASP A1036 23.603 -22.192 10.561 1.00 13.42 H +ATOM 3264 HB3 ASP A1036 23.977 -22.922 12.817 1.00 20.32 H +ATOM 3265 HB2 ASP A1036 24.828 -24.367 12.294 1.00 20.32 H +ATOM 3266 N VAL A1037 26.791 -22.895 10.267 1.00 14.25 N +ATOM 3267 CA VAL A1037 28.110 -22.262 10.139 1.00 17.20 C +ATOM 3268 C VAL A1037 28.076 -21.067 9.163 1.00 21.13 C +ATOM 3269 O VAL A1037 28.640 -20.029 9.502 1.00 22.30 O +ATOM 3270 CB VAL A1037 29.237 -23.262 9.731 1.00 22.05 C +ATOM 3271 CG1 VAL A1037 30.547 -22.619 9.235 1.00 14.61 C +ATOM 3272 CG2 VAL A1037 29.576 -24.220 10.885 1.00 18.66 C +ATOM 3273 H VAL A1037 26.692 -23.817 9.866 1.00 14.25 H +ATOM 3274 HA VAL A1037 28.372 -21.869 11.122 1.00 17.20 H +ATOM 3275 HB VAL A1037 28.867 -23.873 8.911 1.00 22.05 H +ATOM 3276 HG11 VAL A1037 31.299 -23.379 9.037 1.00 14.61 H +ATOM 3277 HG12 VAL A1037 30.418 -22.065 8.306 1.00 14.61 H +ATOM 3278 HG13 VAL A1037 30.959 -21.943 9.984 1.00 14.61 H +ATOM 3279 HG21 VAL A1037 30.311 -24.965 10.578 1.00 18.66 H +ATOM 3280 HG22 VAL A1037 29.990 -23.681 11.738 1.00 18.66 H +ATOM 3281 HG23 VAL A1037 28.700 -24.759 11.234 1.00 18.66 H +ATOM 3282 N TRP A1038 27.358 -21.202 8.028 1.00 18.65 N +ATOM 3283 CA TRP A1038 27.063 -20.102 7.099 1.00 20.28 C +ATOM 3284 C TRP A1038 26.291 -18.959 7.787 1.00 18.80 C +ATOM 3285 O TRP A1038 26.670 -17.801 7.613 1.00 21.31 O +ATOM 3286 CB TRP A1038 26.339 -20.633 5.834 1.00 17.06 C +ATOM 3287 CG TRP A1038 25.959 -19.633 4.769 1.00 15.59 C +ATOM 3288 CD1 TRP A1038 25.040 -18.647 4.909 1.00 15.92 C +ATOM 3289 CD2 TRP A1038 26.451 -19.507 3.395 1.00 14.10 C +ATOM 3290 NE1 TRP A1038 24.982 -17.885 3.765 1.00 18.32 N +ATOM 3291 CE2 TRP A1038 25.831 -18.367 2.796 1.00 15.49 C +ATOM 3292 CE3 TRP A1038 27.354 -20.235 2.583 1.00 14.94 C +ATOM 3293 CZ2 TRP A1038 26.113 -17.954 1.484 1.00 18.25 C +ATOM 3294 CZ3 TRP A1038 27.629 -19.837 1.257 1.00 17.34 C +ATOM 3295 CH2 TRP A1038 27.019 -18.695 0.708 1.00 18.35 C +ATOM 3296 H TRP A1038 26.918 -22.088 7.823 1.00 18.65 H +ATOM 3297 HA TRP A1038 28.018 -19.686 6.775 1.00 20.28 H +ATOM 3298 HB3 TRP A1038 25.426 -21.150 6.124 1.00 17.06 H +ATOM 3299 HB2 TRP A1038 26.967 -21.390 5.362 1.00 17.06 H +ATOM 3300 HD1 TRP A1038 24.456 -18.474 5.798 1.00 15.92 H +ATOM 3301 HE1 TRP A1038 24.357 -17.097 3.667 1.00 18.32 H +ATOM 3302 HE3 TRP A1038 27.846 -21.104 2.989 1.00 14.94 H +ATOM 3303 HZ2 TRP A1038 25.626 -17.083 1.079 1.00 18.25 H +ATOM 3304 HZ3 TRP A1038 28.311 -20.407 0.649 1.00 17.34 H +ATOM 3305 HH2 TRP A1038 27.236 -18.399 -0.307 1.00 18.35 H +ATOM 3306 N SER A1039 25.252 -19.311 8.571 1.00 18.19 N +ATOM 3307 CA SER A1039 24.445 -18.370 9.356 1.00 18.60 C +ATOM 3308 C SER A1039 25.273 -17.634 10.423 1.00 15.66 C +ATOM 3309 O SER A1039 25.046 -16.445 10.625 1.00 19.22 O +ATOM 3310 CB SER A1039 23.259 -19.095 10.022 1.00 20.55 C +ATOM 3311 OG SER A1039 22.432 -19.724 9.066 1.00 35.89 O +ATOM 3312 H SER A1039 24.983 -20.284 8.639 1.00 18.19 H +ATOM 3313 HA SER A1039 24.050 -17.619 8.668 1.00 18.60 H +ATOM 3314 HB3 SER A1039 22.646 -18.383 10.576 1.00 20.55 H +ATOM 3315 HB2 SER A1039 23.600 -19.840 10.739 1.00 20.55 H +ATOM 3316 HG SER A1039 22.168 -19.074 8.407 1.00 35.89 H +ATOM 3317 N PHE A1040 26.247 -18.333 11.036 1.00 13.52 N +ATOM 3318 CA PHE A1040 27.251 -17.779 11.945 1.00 14.71 C +ATOM 3319 C PHE A1040 28.193 -16.746 11.297 1.00 15.33 C +ATOM 3320 O PHE A1040 28.590 -15.804 11.980 1.00 21.00 O +ATOM 3321 CB PHE A1040 27.991 -18.912 12.699 1.00 15.92 C +ATOM 3322 CG PHE A1040 29.308 -18.517 13.346 1.00 17.70 C +ATOM 3323 CD1 PHE A1040 29.309 -17.777 14.546 1.00 17.67 C +ATOM 3324 CD2 PHE A1040 30.518 -18.683 12.639 1.00 18.53 C +ATOM 3325 CE1 PHE A1040 30.497 -17.254 15.034 1.00 19.19 C +ATOM 3326 CE2 PHE A1040 31.695 -18.148 13.141 1.00 19.79 C +ATOM 3327 CZ PHE A1040 31.684 -17.435 14.331 1.00 23.04 C +ATOM 3328 H PHE A1040 26.345 -19.319 10.826 1.00 13.52 H +ATOM 3329 HA PHE A1040 26.699 -17.228 12.706 1.00 14.71 H +ATOM 3330 HB3 PHE A1040 28.177 -19.755 12.036 1.00 15.92 H +ATOM 3331 HB2 PHE A1040 27.342 -19.294 13.484 1.00 15.92 H +ATOM 3332 HD1 PHE A1040 28.383 -17.593 15.070 1.00 17.67 H +ATOM 3333 HD2 PHE A1040 30.522 -19.204 11.694 1.00 18.53 H +ATOM 3334 HE1 PHE A1040 30.492 -16.699 15.960 1.00 19.19 H +ATOM 3335 HE2 PHE A1040 32.619 -18.274 12.596 1.00 19.79 H +ATOM 3336 HZ PHE A1040 32.606 -17.023 14.711 1.00 23.04 H +ATOM 3337 N GLY A1041 28.509 -16.913 10.001 1.00 18.29 N +ATOM 3338 CA GLY A1041 29.278 -15.941 9.221 1.00 19.02 C +ATOM 3339 C GLY A1041 28.503 -14.621 9.067 1.00 21.95 C +ATOM 3340 O GLY A1041 29.119 -13.556 9.072 1.00 18.78 O +ATOM 3341 H GLY A1041 28.160 -17.724 9.509 1.00 18.29 H +ATOM 3342 HA3 GLY A1041 29.471 -16.352 8.230 1.00 19.02 H +ATOM 3343 HA2 GLY A1041 30.245 -15.761 9.693 1.00 19.02 H +ATOM 3344 N VAL A1042 27.161 -14.698 8.979 1.00 17.39 N +ATOM 3345 CA VAL A1042 26.257 -13.549 8.938 1.00 20.23 C +ATOM 3346 C VAL A1042 26.034 -12.931 10.341 1.00 21.93 C +ATOM 3347 O VAL A1042 25.882 -11.715 10.423 1.00 16.10 O +ATOM 3348 CB VAL A1042 24.887 -13.906 8.286 1.00 19.89 C +ATOM 3349 CG1 VAL A1042 23.923 -12.710 8.171 1.00 16.10 C +ATOM 3350 CG2 VAL A1042 25.076 -14.521 6.887 1.00 19.44 C +ATOM 3351 H VAL A1042 26.719 -15.607 8.995 1.00 17.39 H +ATOM 3352 HA VAL A1042 26.715 -12.785 8.312 1.00 20.23 H +ATOM 3353 HB VAL A1042 24.387 -14.654 8.900 1.00 19.89 H +ATOM 3354 HG11 VAL A1042 23.006 -12.989 7.651 1.00 16.10 H +ATOM 3355 HG12 VAL A1042 23.624 -12.323 9.144 1.00 16.10 H +ATOM 3356 HG13 VAL A1042 24.383 -11.895 7.614 1.00 16.10 H +ATOM 3357 HG21 VAL A1042 24.122 -14.689 6.388 1.00 19.44 H +ATOM 3358 HG22 VAL A1042 25.667 -13.867 6.245 1.00 19.44 H +ATOM 3359 HG23 VAL A1042 25.577 -15.486 6.937 1.00 19.44 H +ATOM 3360 N VAL A1043 26.085 -13.740 11.419 1.00 19.95 N +ATOM 3361 CA VAL A1043 26.042 -13.269 12.813 1.00 18.35 C +ATOM 3362 C VAL A1043 27.333 -12.526 13.215 1.00 17.31 C +ATOM 3363 O VAL A1043 27.252 -11.500 13.885 1.00 19.33 O +ATOM 3364 CB VAL A1043 25.796 -14.430 13.824 1.00 20.26 C +ATOM 3365 CG1 VAL A1043 25.864 -14.036 15.316 1.00 20.25 C +ATOM 3366 CG2 VAL A1043 24.457 -15.132 13.544 1.00 18.66 C +ATOM 3367 H VAL A1043 26.187 -14.737 11.286 1.00 19.95 H +ATOM 3368 HA VAL A1043 25.215 -12.563 12.903 1.00 18.35 H +ATOM 3369 HB VAL A1043 26.583 -15.170 13.683 1.00 20.26 H +ATOM 3370 HG11 VAL A1043 25.625 -14.890 15.951 1.00 20.25 H +ATOM 3371 HG12 VAL A1043 26.854 -13.696 15.617 1.00 20.25 H +ATOM 3372 HG13 VAL A1043 25.148 -13.249 15.546 1.00 20.25 H +ATOM 3373 HG21 VAL A1043 23.889 -15.321 14.455 1.00 18.66 H +ATOM 3374 HG22 VAL A1043 23.823 -14.546 12.879 1.00 18.66 H +ATOM 3375 HG23 VAL A1043 24.615 -16.098 13.070 1.00 18.66 H +ATOM 3376 N LEU A1044 28.491 -13.033 12.760 1.00 20.85 N +ATOM 3377 CA LEU A1044 29.805 -12.405 12.906 1.00 22.93 C +ATOM 3378 C LEU A1044 29.908 -11.088 12.107 1.00 22.04 C +ATOM 3379 O LEU A1044 30.540 -10.146 12.584 1.00 27.06 O +ATOM 3380 CB LEU A1044 30.881 -13.447 12.517 1.00 20.18 C +ATOM 3381 CG LEU A1044 32.358 -13.006 12.643 1.00 24.64 C +ATOM 3382 CD1 LEU A1044 32.715 -12.511 14.059 1.00 22.58 C +ATOM 3383 CD2 LEU A1044 33.302 -14.127 12.162 1.00 22.36 C +ATOM 3384 H LEU A1044 28.476 -13.904 12.245 1.00 20.85 H +ATOM 3385 HA LEU A1044 29.923 -12.155 13.961 1.00 22.93 H +ATOM 3386 HB3 LEU A1044 30.699 -13.767 11.489 1.00 20.18 H +ATOM 3387 HB2 LEU A1044 30.738 -14.338 13.131 1.00 20.18 H +ATOM 3388 HG LEU A1044 32.515 -12.173 11.962 1.00 24.64 H +ATOM 3389 HD11 LEU A1044 33.683 -12.874 14.404 1.00 22.58 H +ATOM 3390 HD12 LEU A1044 32.763 -11.423 14.081 1.00 22.58 H +ATOM 3391 HD13 LEU A1044 31.975 -12.819 14.796 1.00 22.58 H +ATOM 3392 HD21 LEU A1044 33.989 -13.756 11.403 1.00 22.36 H +ATOM 3393 HD22 LEU A1044 33.905 -14.548 12.967 1.00 22.36 H +ATOM 3394 HD23 LEU A1044 32.752 -14.956 11.715 1.00 22.36 H +ATOM 3395 N TYR A1045 29.226 -11.026 10.949 1.00 21.14 N +ATOM 3396 CA TYR A1045 29.037 -9.812 10.156 1.00 20.55 C +ATOM 3397 C TYR A1045 28.154 -8.767 10.873 1.00 22.21 C +ATOM 3398 O TYR A1045 28.540 -7.600 10.905 1.00 19.60 O +ATOM 3399 CB TYR A1045 28.526 -10.198 8.750 1.00 19.05 C +ATOM 3400 CG TYR A1045 28.198 -9.035 7.835 1.00 21.61 C +ATOM 3401 CD1 TYR A1045 29.243 -8.280 7.272 1.00 20.58 C +ATOM 3402 CD2 TYR A1045 26.857 -8.681 7.578 1.00 19.07 C +ATOM 3403 CE1 TYR A1045 28.950 -7.135 6.510 1.00 21.45 C +ATOM 3404 CE2 TYR A1045 26.565 -7.552 6.788 1.00 21.16 C +ATOM 3405 CZ TYR A1045 27.616 -6.766 6.274 1.00 23.71 C +ATOM 3406 OH TYR A1045 27.362 -5.627 5.573 1.00 25.23 O +ATOM 3407 H TYR A1045 28.745 -11.850 10.618 1.00 21.14 H +ATOM 3408 HA TYR A1045 30.022 -9.359 10.027 1.00 20.55 H +ATOM 3409 HB3 TYR A1045 27.634 -10.810 8.837 1.00 19.05 H +ATOM 3410 HB2 TYR A1045 29.267 -10.825 8.254 1.00 19.05 H +ATOM 3411 HD1 TYR A1045 30.271 -8.552 7.459 1.00 20.58 H +ATOM 3412 HD2 TYR A1045 26.052 -9.261 8.003 1.00 19.07 H +ATOM 3413 HE1 TYR A1045 29.747 -6.515 6.130 1.00 21.45 H +ATOM 3414 HE2 TYR A1045 25.535 -7.284 6.602 1.00 21.16 H +ATOM 3415 HH TYR A1045 26.441 -5.355 5.622 1.00 25.23 H +ATOM 3416 N GLU A1046 27.030 -9.198 11.481 1.00 20.13 N +ATOM 3417 CA GLU A1046 26.150 -8.365 12.315 1.00 21.97 C +ATOM 3418 C GLU A1046 26.862 -7.714 13.518 1.00 22.66 C +ATOM 3419 O GLU A1046 26.581 -6.552 13.816 1.00 20.91 O +ATOM 3420 CB GLU A1046 24.924 -9.173 12.799 1.00 23.61 C +ATOM 3421 CG GLU A1046 23.807 -9.362 11.755 1.00 19.13 C +ATOM 3422 CD GLU A1046 22.607 -10.110 12.353 1.00 19.86 C +ATOM 3423 OE1 GLU A1046 21.596 -9.435 12.650 1.00 25.16 O +ATOM 3424 OE2 GLU A1046 22.714 -11.345 12.527 1.00 22.61 O1- +ATOM 3425 H GLU A1046 26.763 -10.171 11.395 1.00 20.13 H +ATOM 3426 HA GLU A1046 25.786 -7.551 11.688 1.00 21.97 H +ATOM 3427 HB3 GLU A1046 24.494 -8.710 13.686 1.00 23.61 H +ATOM 3428 HB2 GLU A1046 25.254 -10.156 13.128 1.00 23.61 H +ATOM 3429 HG3 GLU A1046 24.174 -9.902 10.884 1.00 19.13 H +ATOM 3430 HG2 GLU A1046 23.485 -8.387 11.386 1.00 19.13 H +ATOM 3431 N LEU A1047 27.780 -8.456 14.164 1.00 23.12 N +ATOM 3432 CA LEU A1047 28.579 -7.986 15.299 1.00 23.06 C +ATOM 3433 C LEU A1047 29.518 -6.821 14.932 1.00 24.41 C +ATOM 3434 O LEU A1047 29.538 -5.821 15.649 1.00 24.50 O +ATOM 3435 CB LEU A1047 29.362 -9.162 15.928 1.00 20.23 C +ATOM 3436 CG LEU A1047 28.496 -10.143 16.756 1.00 19.65 C +ATOM 3437 CD1 LEU A1047 29.263 -11.451 17.050 1.00 15.96 C +ATOM 3438 CD2 LEU A1047 27.922 -9.498 18.037 1.00 20.71 C +ATOM 3439 H LEU A1047 27.942 -9.410 13.868 1.00 23.12 H +ATOM 3440 HA LEU A1047 27.875 -7.613 16.037 1.00 23.06 H +ATOM 3441 HB3 LEU A1047 30.159 -8.784 16.570 1.00 20.23 H +ATOM 3442 HB2 LEU A1047 29.868 -9.704 15.129 1.00 20.23 H +ATOM 3443 HG LEU A1047 27.641 -10.421 16.141 1.00 19.65 H +ATOM 3444 HD11 LEU A1047 28.691 -12.318 16.718 1.00 15.96 H +ATOM 3445 HD12 LEU A1047 30.220 -11.486 16.530 1.00 15.96 H +ATOM 3446 HD13 LEU A1047 29.479 -11.591 18.109 1.00 15.96 H +ATOM 3447 HD21 LEU A1047 28.088 -10.101 18.929 1.00 20.71 H +ATOM 3448 HD22 LEU A1047 28.356 -8.520 18.232 1.00 20.71 H +ATOM 3449 HD23 LEU A1047 26.845 -9.356 17.944 1.00 20.71 H +ATOM 3450 N PHE A1048 30.256 -6.964 13.819 1.00 22.17 N +ATOM 3451 CA PHE A1048 31.266 -6.003 13.367 1.00 22.52 C +ATOM 3452 C PHE A1048 30.728 -4.805 12.561 1.00 27.58 C +ATOM 3453 O PHE A1048 31.435 -3.801 12.474 1.00 23.33 O +ATOM 3454 CB PHE A1048 32.411 -6.759 12.661 1.00 23.73 C +ATOM 3455 CG PHE A1048 33.417 -7.351 13.634 1.00 24.04 C +ATOM 3456 CD1 PHE A1048 33.103 -8.510 14.377 1.00 18.71 C +ATOM 3457 CD2 PHE A1048 34.596 -6.643 13.946 1.00 22.00 C +ATOM 3458 CE1 PHE A1048 33.972 -8.965 15.359 1.00 23.14 C +ATOM 3459 CE2 PHE A1048 35.465 -7.129 14.913 1.00 20.04 C +ATOM 3460 CZ PHE A1048 35.153 -8.282 15.618 1.00 25.07 C +ATOM 3461 H PHE A1048 30.170 -7.811 13.273 1.00 22.17 H +ATOM 3462 HA PHE A1048 31.705 -5.542 14.255 1.00 22.52 H +ATOM 3463 HB3 PHE A1048 32.949 -6.104 11.975 1.00 23.73 H +ATOM 3464 HB2 PHE A1048 32.003 -7.565 12.049 1.00 23.73 H +ATOM 3465 HD1 PHE A1048 32.179 -9.037 14.200 1.00 18.71 H +ATOM 3466 HD2 PHE A1048 34.826 -5.720 13.435 1.00 22.00 H +ATOM 3467 HE1 PHE A1048 33.725 -9.852 15.925 1.00 23.14 H +ATOM 3468 HE2 PHE A1048 36.379 -6.599 15.132 1.00 20.04 H +ATOM 3469 HZ PHE A1048 35.830 -8.639 16.378 1.00 25.07 H +ATOM 3470 N THR A1049 29.488 -4.888 12.043 1.00 23.39 N +ATOM 3471 CA THR A1049 28.742 -3.734 11.514 1.00 25.46 C +ATOM 3472 C THR A1049 28.014 -2.946 12.629 1.00 30.87 C +ATOM 3473 O THR A1049 27.504 -1.861 12.345 1.00 30.88 O +ATOM 3474 CB THR A1049 27.661 -4.154 10.479 1.00 25.89 C +ATOM 3475 OG1 THR A1049 26.699 -5.033 11.031 1.00 24.42 O +ATOM 3476 CG2 THR A1049 28.236 -4.775 9.201 1.00 21.42 C +ATOM 3477 H THR A1049 28.974 -5.755 12.122 1.00 23.39 H +ATOM 3478 HA THR A1049 29.434 -3.047 11.023 1.00 25.46 H +ATOM 3479 HB THR A1049 27.110 -3.265 10.172 1.00 25.89 H +ATOM 3480 HG1 THR A1049 27.088 -5.911 11.080 1.00 24.42 H +ATOM 3481 HG21 THR A1049 27.436 -5.091 8.532 1.00 21.42 H +ATOM 3482 HG22 THR A1049 28.850 -4.056 8.659 1.00 21.42 H +ATOM 3483 HG23 THR A1049 28.854 -5.643 9.407 1.00 21.42 H +ATOM 3484 N TYR A1050 27.979 -3.492 13.861 1.00 22.98 N +ATOM 3485 CA TYR A1050 27.374 -2.909 15.066 1.00 24.02 C +ATOM 3486 C TYR A1050 25.842 -2.738 14.989 1.00 26.29 C +ATOM 3487 O TYR A1050 25.283 -1.946 15.747 1.00 28.56 O +ATOM 3488 CB TYR A1050 28.107 -1.608 15.472 1.00 24.79 C +ATOM 3489 CG TYR A1050 29.558 -1.816 15.848 1.00 25.68 C +ATOM 3490 CD1 TYR A1050 30.596 -1.493 14.948 1.00 25.98 C +ATOM 3491 CD2 TYR A1050 29.868 -2.339 17.116 1.00 29.08 C +ATOM 3492 CE1 TYR A1050 31.940 -1.667 15.333 1.00 26.22 C +ATOM 3493 CE2 TYR A1050 31.207 -2.522 17.497 1.00 31.85 C +ATOM 3494 CZ TYR A1050 32.245 -2.164 16.616 1.00 35.43 C +ATOM 3495 OH TYR A1050 33.544 -2.289 17.010 1.00 39.64 O +ATOM 3496 H TYR A1050 28.430 -4.384 14.003 1.00 22.98 H +ATOM 3497 HA TYR A1050 27.547 -3.639 15.855 1.00 24.02 H +ATOM 3498 HB3 TYR A1050 27.623 -1.152 16.337 1.00 24.79 H +ATOM 3499 HB2 TYR A1050 28.058 -0.866 14.678 1.00 24.79 H +ATOM 3500 HD1 TYR A1050 30.368 -1.101 13.968 1.00 25.98 H +ATOM 3501 HD2 TYR A1050 29.077 -2.590 17.803 1.00 29.08 H +ATOM 3502 HE1 TYR A1050 32.734 -1.402 14.650 1.00 26.22 H +ATOM 3503 HE2 TYR A1050 31.425 -2.927 18.470 1.00 31.85 H +ATOM 3504 HH TYR A1050 33.633 -2.611 17.911 1.00 39.64 H +ATOM 3505 N ILE A1051 25.193 -3.500 14.090 1.00 26.96 N +ATOM 3506 CA ILE A1051 23.757 -3.487 13.791 1.00 26.89 C +ATOM 3507 C ILE A1051 23.310 -2.095 13.270 1.00 35.40 C +ATOM 3508 O ILE A1051 22.398 -1.466 13.809 1.00 41.04 O +ATOM 3509 CB ILE A1051 22.866 -3.945 14.994 1.00 30.22 C +ATOM 3510 CG1 ILE A1051 23.430 -5.165 15.761 1.00 27.87 C +ATOM 3511 CG2 ILE A1051 21.397 -4.221 14.598 1.00 29.66 C +ATOM 3512 CD1 ILE A1051 23.520 -6.469 14.959 1.00 25.38 C +ATOM 3513 H ILE A1051 25.739 -4.142 13.532 1.00 26.96 H +ATOM 3514 HA ILE A1051 23.608 -4.186 12.967 1.00 26.89 H +ATOM 3515 HB ILE A1051 22.854 -3.131 15.718 1.00 30.22 H +ATOM 3516 HG13 ILE A1051 22.806 -5.345 16.631 1.00 27.87 H +ATOM 3517 HG12 ILE A1051 24.410 -4.935 16.176 1.00 27.87 H +ATOM 3518 HG21 ILE A1051 20.802 -4.421 15.486 1.00 29.66 H +ATOM 3519 HG22 ILE A1051 20.913 -3.389 14.092 1.00 29.66 H +ATOM 3520 HG23 ILE A1051 21.314 -5.083 13.937 1.00 29.66 H +ATOM 3521 HD11 ILE A1051 24.210 -7.160 15.442 1.00 25.38 H +ATOM 3522 HD12 ILE A1051 22.553 -6.965 14.893 1.00 25.38 H +ATOM 3523 HD13 ILE A1051 23.875 -6.303 13.942 1.00 25.38 H +ATOM 3524 N GLU A1052 23.997 -1.627 12.216 1.00 37.90 N +ATOM 3525 CA GLU A1052 23.601 -0.448 11.448 1.00 37.31 C +ATOM 3526 C GLU A1052 22.594 -0.867 10.362 1.00 44.05 C +ATOM 3527 O GLU A1052 22.779 -1.915 9.743 1.00 40.31 O +ATOM 3528 CB GLU A1052 24.868 0.244 10.906 1.00 41.02 C +ATOM 3529 CG GLU A1052 24.595 1.473 10.006 1.00 61.08 C +ATOM 3530 CD GLU A1052 25.836 2.289 9.600 1.00 57.22 C +ATOM 3531 OE1 GLU A1052 25.631 3.261 8.841 1.00 56.27 O +ATOM 3532 OE2 GLU A1052 26.958 1.954 10.041 1.00 62.21 O1- +ATOM 3533 H GLU A1052 24.764 -2.166 11.839 1.00 37.90 H +ATOM 3534 HA GLU A1052 23.109 0.267 12.111 1.00 37.31 H +ATOM 3535 HB3 GLU A1052 25.480 -0.478 10.368 1.00 41.02 H +ATOM 3536 HB2 GLU A1052 25.469 0.550 11.763 1.00 41.02 H +ATOM 3537 HG3 GLU A1052 23.905 2.146 10.516 1.00 61.08 H +ATOM 3538 HG2 GLU A1052 24.095 1.153 9.091 1.00 61.08 H +ATOM 3539 N LYS A1053 21.537 -0.058 10.177 1.00 52.30 N +ATOM 3540 CA LYS A1053 20.385 -0.363 9.319 1.00 51.81 C +ATOM 3541 C LYS A1053 20.729 -0.536 7.826 1.00 45.40 C +ATOM 3542 O LYS A1053 20.198 -1.451 7.198 1.00 36.33 O +ATOM 3543 CB LYS A1053 19.289 0.699 9.563 1.00 61.07 C +ATOM 3544 CG LYS A1053 17.987 0.491 8.765 1.00 81.90 C +ATOM 3545 CD LYS A1053 16.886 1.489 9.168 1.00 91.68 C +ATOM 3546 CE LYS A1053 15.601 1.393 8.323 1.00 91.74 C +ATOM 3547 NZ LYS A1053 14.871 0.129 8.533 1.00 92.14 N1+ +ATOM 3548 H LYS A1053 21.468 0.791 10.719 1.00 52.30 H +ATOM 3549 HA LYS A1053 19.991 -1.321 9.664 1.00 51.81 H +ATOM 3550 HB3 LYS A1053 19.687 1.692 9.343 1.00 61.07 H +ATOM 3551 HB2 LYS A1053 19.045 0.702 10.626 1.00 61.07 H +ATOM 3552 HG3 LYS A1053 17.639 -0.532 8.910 1.00 81.90 H +ATOM 3553 HG2 LYS A1053 18.184 0.602 7.698 1.00 81.90 H +ATOM 3554 HD3 LYS A1053 17.280 2.503 9.084 1.00 91.68 H +ATOM 3555 HD2 LYS A1053 16.644 1.358 10.224 1.00 91.68 H +ATOM 3556 HE3 LYS A1053 15.835 1.501 7.263 1.00 91.74 H +ATOM 3557 HE2 LYS A1053 14.932 2.214 8.583 1.00 91.74 H +ATOM 3558 HZ1 LYS A1053 14.615 0.044 9.506 1.00 92.14 H +ATOM 3559 HZ2 LYS A1053 14.036 0.125 7.965 1.00 92.14 H +ATOM 3560 HZ3 LYS A1053 15.459 -0.649 8.269 1.00 92.14 H +ATOM 3561 N SER A1054 21.626 0.315 7.302 1.00 39.78 N +ATOM 3562 CA SER A1054 22.143 0.240 5.932 1.00 46.24 C +ATOM 3563 C SER A1054 23.101 -0.948 5.707 1.00 36.86 C +ATOM 3564 O SER A1054 23.150 -1.474 4.596 1.00 35.25 O +ATOM 3565 CB SER A1054 22.794 1.594 5.576 1.00 56.81 C +ATOM 3566 OG SER A1054 23.983 1.819 6.310 1.00 44.05 O +ATOM 3567 H SER A1054 22.032 1.035 7.883 1.00 39.78 H +ATOM 3568 HA SER A1054 21.290 0.101 5.265 1.00 46.24 H +ATOM 3569 HB3 SER A1054 22.099 2.415 5.756 1.00 56.81 H +ATOM 3570 HB2 SER A1054 23.040 1.621 4.513 1.00 56.81 H +ATOM 3571 HG SER A1054 24.298 2.710 6.134 1.00 44.05 H +ATOM 3572 N LYS A1055 23.823 -1.346 6.768 1.00 34.17 N +ATOM 3573 CA LYS A1055 24.814 -2.421 6.762 1.00 33.39 C +ATOM 3574 C LYS A1055 24.208 -3.810 7.028 1.00 28.48 C +ATOM 3575 O LYS A1055 24.937 -4.791 6.898 1.00 33.01 O +ATOM 3576 CB LYS A1055 25.884 -2.126 7.833 1.00 30.16 C +ATOM 3577 CG LYS A1055 26.634 -0.792 7.689 1.00 37.21 C +ATOM 3578 CD LYS A1055 27.531 -0.699 6.447 1.00 34.55 C +ATOM 3579 CE LYS A1055 28.373 0.588 6.457 1.00 34.70 C +ATOM 3580 NZ LYS A1055 29.290 0.655 5.306 1.00 43.22 N1+ +ATOM 3581 H LYS A1055 23.712 -0.857 7.644 1.00 34.17 H +ATOM 3582 HA LYS A1055 25.296 -2.458 5.787 1.00 33.39 H +ATOM 3583 HB3 LYS A1055 26.623 -2.926 7.831 1.00 30.16 H +ATOM 3584 HB2 LYS A1055 25.415 -2.156 8.816 1.00 30.16 H +ATOM 3585 HG3 LYS A1055 27.249 -0.651 8.579 1.00 37.21 H +ATOM 3586 HG2 LYS A1055 25.926 0.036 7.685 1.00 37.21 H +ATOM 3587 HD3 LYS A1055 26.912 -0.725 5.549 1.00 34.55 H +ATOM 3588 HD2 LYS A1055 28.181 -1.576 6.402 1.00 34.55 H +ATOM 3589 HE3 LYS A1055 28.969 0.641 7.369 1.00 34.70 H +ATOM 3590 HE2 LYS A1055 27.725 1.465 6.448 1.00 34.70 H +ATOM 3591 HZ1 LYS A1055 28.764 0.651 4.444 1.00 43.22 H +ATOM 3592 HZ2 LYS A1055 29.841 1.500 5.372 1.00 43.22 H +ATOM 3593 HZ3 LYS A1055 29.917 -0.138 5.328 1.00 43.22 H +ATOM 3594 N SER A1056 22.924 -3.887 7.422 1.00 26.84 N +ATOM 3595 CA SER A1056 22.242 -5.125 7.815 1.00 30.86 C +ATOM 3596 C SER A1056 22.162 -6.163 6.667 1.00 26.78 C +ATOM 3597 O SER A1056 22.110 -5.747 5.507 1.00 27.19 O +ATOM 3598 CB SER A1056 20.856 -4.767 8.397 1.00 29.05 C +ATOM 3599 OG SER A1056 19.918 -4.380 7.410 1.00 35.34 O +ATOM 3600 H SER A1056 22.391 -3.034 7.517 1.00 26.84 H +ATOM 3601 HA SER A1056 22.849 -5.511 8.631 1.00 30.86 H +ATOM 3602 HB3 SER A1056 20.943 -3.969 9.135 1.00 29.05 H +ATOM 3603 HB2 SER A1056 20.446 -5.628 8.925 1.00 29.05 H +ATOM 3604 HG SER A1056 20.104 -3.472 7.149 1.00 35.34 H +ATOM 3605 N PRO A1057 22.140 -7.483 6.989 1.00 26.80 N +ATOM 3606 CA PRO A1057 22.069 -8.545 5.963 1.00 26.84 C +ATOM 3607 C PRO A1057 20.925 -8.465 4.921 1.00 24.33 C +ATOM 3608 O PRO A1057 21.227 -8.687 3.749 1.00 28.64 O +ATOM 3609 CB PRO A1057 22.057 -9.866 6.754 1.00 24.36 C +ATOM 3610 CG PRO A1057 22.676 -9.514 8.096 1.00 21.73 C +ATOM 3611 CD PRO A1057 22.273 -8.063 8.329 1.00 21.00 C +ATOM 3612 HA PRO A1057 23.017 -8.483 5.427 1.00 26.84 H +ATOM 3613 HB3 PRO A1057 22.610 -10.656 6.245 1.00 24.36 H +ATOM 3614 HB2 PRO A1057 21.046 -10.244 6.901 1.00 24.36 H +ATOM 3615 HG3 PRO A1057 23.760 -9.569 8.011 1.00 21.73 H +ATOM 3616 HG2 PRO A1057 22.373 -10.181 8.904 1.00 21.73 H +ATOM 3617 HD2 PRO A1057 21.314 -8.006 8.845 1.00 21.00 H +ATOM 3618 HD3 PRO A1057 23.026 -7.583 8.953 1.00 21.00 H +ATOM 3619 N PRO A1058 19.679 -8.081 5.306 1.00 22.55 N +ATOM 3620 CA PRO A1058 18.607 -7.809 4.329 1.00 21.74 C +ATOM 3621 C PRO A1058 18.880 -6.618 3.398 1.00 27.45 C +ATOM 3622 O PRO A1058 18.701 -6.768 2.192 1.00 23.82 O +ATOM 3623 CB PRO A1058 17.344 -7.594 5.185 1.00 25.28 C +ATOM 3624 CG PRO A1058 17.659 -8.262 6.510 1.00 18.74 C +ATOM 3625 CD PRO A1058 19.148 -8.003 6.668 1.00 18.20 C +ATOM 3626 HA PRO A1058 18.478 -8.706 3.724 1.00 21.74 H +ATOM 3627 HB3 PRO A1058 16.449 -8.005 4.719 1.00 25.28 H +ATOM 3628 HB2 PRO A1058 17.162 -6.532 5.359 1.00 25.28 H +ATOM 3629 HG3 PRO A1058 17.486 -9.336 6.426 1.00 18.74 H +ATOM 3630 HG2 PRO A1058 17.061 -7.887 7.341 1.00 18.74 H +ATOM 3631 HD2 PRO A1058 19.314 -6.998 7.055 1.00 18.20 H +ATOM 3632 HD3 PRO A1058 19.582 -8.713 7.367 1.00 18.20 H +ATOM 3633 N ALA A1059 19.316 -5.476 3.962 1.00 27.91 N +ATOM 3634 CA ALA A1059 19.589 -4.234 3.229 1.00 25.50 C +ATOM 3635 C ALA A1059 20.700 -4.368 2.174 1.00 29.71 C +ATOM 3636 O ALA A1059 20.551 -3.838 1.073 1.00 29.95 O +ATOM 3637 CB ALA A1059 19.926 -3.117 4.229 1.00 19.17 C +ATOM 3638 H ALA A1059 19.464 -5.440 4.961 1.00 27.91 H +ATOM 3639 HA ALA A1059 18.671 -3.955 2.707 1.00 25.50 H +ATOM 3640 HB1 ALA A1059 20.114 -2.171 3.719 1.00 19.17 H +ATOM 3641 HB2 ALA A1059 19.104 -2.952 4.925 1.00 19.17 H +ATOM 3642 HB3 ALA A1059 20.815 -3.354 4.815 1.00 19.17 H +ATOM 3643 N GLU A1060 21.769 -5.097 2.529 1.00 22.67 N +ATOM 3644 CA GLU A1060 22.916 -5.378 1.671 1.00 24.43 C +ATOM 3645 C GLU A1060 22.600 -6.349 0.525 1.00 26.62 C +ATOM 3646 O GLU A1060 22.986 -6.066 -0.608 1.00 27.10 O +ATOM 3647 CB GLU A1060 24.074 -5.902 2.538 1.00 30.69 C +ATOM 3648 CG GLU A1060 24.745 -4.815 3.406 1.00 30.53 C +ATOM 3649 CD GLU A1060 25.747 -3.896 2.681 1.00 40.05 C +ATOM 3650 OE1 GLU A1060 25.943 -4.051 1.455 1.00 36.54 O +ATOM 3651 OE2 GLU A1060 26.324 -3.036 3.381 1.00 57.47 O1- +ATOM 3652 H GLU A1060 21.812 -5.481 3.464 1.00 22.67 H +ATOM 3653 HA GLU A1060 23.220 -4.437 1.209 1.00 24.43 H +ATOM 3654 HB3 GLU A1060 24.819 -6.417 1.929 1.00 30.69 H +ATOM 3655 HB2 GLU A1060 23.681 -6.665 3.211 1.00 30.69 H +ATOM 3656 HG3 GLU A1060 25.274 -5.319 4.210 1.00 30.53 H +ATOM 3657 HG2 GLU A1060 23.988 -4.199 3.891 1.00 30.53 H +ATOM 3658 N PHE A1061 21.895 -7.455 0.818 1.00 21.36 N +ATOM 3659 CA PHE A1061 21.471 -8.415 -0.204 1.00 23.09 C +ATOM 3660 C PHE A1061 20.402 -7.879 -1.168 1.00 22.84 C +ATOM 3661 O PHE A1061 20.487 -8.194 -2.353 1.00 22.90 O +ATOM 3662 CB PHE A1061 21.077 -9.766 0.425 1.00 22.52 C +ATOM 3663 CG PHE A1061 22.232 -10.705 0.748 1.00 22.65 C +ATOM 3664 CD1 PHE A1061 22.317 -11.334 2.009 1.00 21.08 C +ATOM 3665 CD2 PHE A1061 23.164 -11.065 -0.251 1.00 21.45 C +ATOM 3666 CE1 PHE A1061 23.320 -12.260 2.261 1.00 25.14 C +ATOM 3667 CE2 PHE A1061 24.168 -11.983 0.023 1.00 24.31 C +ATOM 3668 CZ PHE A1061 24.244 -12.580 1.273 1.00 24.17 C +ATOM 3669 H PHE A1061 21.611 -7.645 1.770 1.00 21.36 H +ATOM 3670 HA PHE A1061 22.334 -8.590 -0.845 1.00 23.09 H +ATOM 3671 HB3 PHE A1061 20.402 -10.315 -0.234 1.00 22.52 H +ATOM 3672 HB2 PHE A1061 20.509 -9.568 1.333 1.00 22.52 H +ATOM 3673 HD1 PHE A1061 21.604 -11.103 2.784 1.00 21.08 H +ATOM 3674 HD2 PHE A1061 23.096 -10.638 -1.239 1.00 21.45 H +ATOM 3675 HE1 PHE A1061 23.385 -12.734 3.229 1.00 25.14 H +ATOM 3676 HE2 PHE A1061 24.883 -12.242 -0.745 1.00 24.31 H +ATOM 3677 HZ PHE A1061 25.023 -13.299 1.480 1.00 24.17 H +ATOM 3678 N MET A1062 19.473 -7.040 -0.675 1.00 24.04 N +ATOM 3679 CA MET A1062 18.500 -6.324 -1.507 1.00 23.76 C +ATOM 3680 C MET A1062 19.131 -5.253 -2.412 1.00 22.45 C +ATOM 3681 O MET A1062 18.599 -5.023 -3.494 1.00 20.95 O +ATOM 3682 CB MET A1062 17.370 -5.716 -0.649 1.00 24.83 C +ATOM 3683 CG MET A1062 16.347 -6.737 -0.116 1.00 21.75 C +ATOM 3684 SD MET A1062 15.532 -7.812 -1.336 1.00 21.10 S +ATOM 3685 CE MET A1062 15.031 -6.621 -2.607 1.00 20.68 C +ATOM 3686 H MET A1062 19.452 -6.835 0.316 1.00 24.04 H +ATOM 3687 HA MET A1062 18.057 -7.052 -2.183 1.00 23.76 H +ATOM 3688 HB3 MET A1062 16.826 -4.966 -1.225 1.00 24.83 H +ATOM 3689 HB2 MET A1062 17.803 -5.166 0.187 1.00 24.83 H +ATOM 3690 HG3 MET A1062 15.568 -6.205 0.428 1.00 21.75 H +ATOM 3691 HG2 MET A1062 16.822 -7.397 0.608 1.00 21.75 H +ATOM 3692 HE1 MET A1062 14.446 -7.121 -3.376 1.00 20.68 H +ATOM 3693 HE2 MET A1062 14.430 -5.820 -2.177 1.00 20.68 H +ATOM 3694 HE3 MET A1062 15.907 -6.191 -3.090 1.00 20.68 H +ATOM 3695 N ARG A1063 20.255 -4.647 -1.991 1.00 21.70 N +ATOM 3696 CA ARG A1063 21.044 -3.728 -2.813 1.00 22.34 C +ATOM 3697 C ARG A1063 21.718 -4.449 -3.998 1.00 23.38 C +ATOM 3698 O ARG A1063 21.662 -3.942 -5.117 1.00 24.73 O +ATOM 3699 CB ARG A1063 22.061 -2.988 -1.912 1.00 28.45 C +ATOM 3700 CG ARG A1063 23.009 -2.006 -2.635 1.00 32.44 C +ATOM 3701 CD ARG A1063 24.115 -1.420 -1.733 1.00 31.62 C +ATOM 3702 NE ARG A1063 25.140 -2.412 -1.349 1.00 31.50 N +ATOM 3703 CZ ARG A1063 26.171 -2.864 -2.090 1.00 40.31 C +ATOM 3704 NH1 ARG A1063 26.991 -3.777 -1.557 1.00 30.87 N +ATOM 3705 NH2 ARG A1063 26.405 -2.432 -3.339 1.00 29.05 N1+ +ATOM 3706 H ARG A1063 20.630 -4.868 -1.079 1.00 21.70 H +ATOM 3707 HA ARG A1063 20.366 -2.980 -3.229 1.00 22.34 H +ATOM 3708 HB3 ARG A1063 22.665 -3.723 -1.384 1.00 28.45 H +ATOM 3709 HB2 ARG A1063 21.518 -2.445 -1.137 1.00 28.45 H +ATOM 3710 HG3 ARG A1063 22.465 -1.210 -3.144 1.00 32.44 H +ATOM 3711 HG2 ARG A1063 23.511 -2.561 -3.427 1.00 32.44 H +ATOM 3712 HD3 ARG A1063 23.659 -1.138 -0.783 1.00 31.62 H +ATOM 3713 HD2 ARG A1063 24.538 -0.501 -2.141 1.00 31.62 H +ATOM 3714 HE ARG A1063 25.035 -2.807 -0.422 1.00 31.50 H +ATOM 3715 HH12 ARG A1063 27.770 -4.150 -2.079 1.00 30.87 H +ATOM 3716 HH11 ARG A1063 26.834 -4.091 -0.605 1.00 30.87 H +ATOM 3717 HH22 ARG A1063 27.187 -2.787 -3.870 1.00 29.05 H +ATOM 3718 HH21 ARG A1063 25.795 -1.743 -3.753 1.00 29.05 H +ATOM 3719 N MET A1064 22.341 -5.609 -3.722 1.00 24.80 N +ATOM 3720 CA MET A1064 23.137 -6.373 -4.686 1.00 23.42 C +ATOM 3721 C MET A1064 22.319 -7.133 -5.750 1.00 23.19 C +ATOM 3722 O MET A1064 22.853 -7.347 -6.838 1.00 22.95 O +ATOM 3723 CB MET A1064 24.093 -7.317 -3.932 1.00 21.09 C +ATOM 3724 CG MET A1064 25.221 -6.582 -3.190 1.00 22.61 C +ATOM 3725 SD MET A1064 26.434 -7.675 -2.398 1.00 27.16 S +ATOM 3726 CE MET A1064 25.504 -8.201 -0.937 1.00 20.52 C +ATOM 3727 H MET A1064 22.335 -5.959 -2.774 1.00 24.80 H +ATOM 3728 HA MET A1064 23.752 -5.660 -5.240 1.00 23.42 H +ATOM 3729 HB3 MET A1064 24.556 -8.009 -4.636 1.00 21.09 H +ATOM 3730 HB2 MET A1064 23.524 -7.929 -3.232 1.00 21.09 H +ATOM 3731 HG3 MET A1064 24.818 -5.903 -2.440 1.00 22.61 H +ATOM 3732 HG2 MET A1064 25.767 -5.959 -3.899 1.00 22.61 H +ATOM 3733 HE1 MET A1064 26.051 -8.959 -0.382 1.00 20.52 H +ATOM 3734 HE2 MET A1064 25.333 -7.353 -0.276 1.00 20.52 H +ATOM 3735 HE3 MET A1064 24.547 -8.625 -1.229 1.00 20.52 H +ATOM 3736 N ILE A1065 21.059 -7.503 -5.452 1.00 21.34 N +ATOM 3737 CA ILE A1065 20.145 -8.128 -6.423 1.00 22.32 C +ATOM 3738 C ILE A1065 19.219 -7.101 -7.116 1.00 20.39 C +ATOM 3739 O ILE A1065 18.528 -7.473 -8.065 1.00 24.52 O +ATOM 3740 CB ILE A1065 19.263 -9.239 -5.774 1.00 24.73 C +ATOM 3741 CG1 ILE A1065 18.163 -8.729 -4.811 1.00 21.25 C +ATOM 3742 CG2 ILE A1065 20.148 -10.328 -5.137 1.00 22.30 C +ATOM 3743 CD1 ILE A1065 17.311 -9.834 -4.177 1.00 21.50 C +ATOM 3744 H ILE A1065 20.687 -7.326 -4.530 1.00 21.34 H +ATOM 3745 HA ILE A1065 20.724 -8.604 -7.217 1.00 22.32 H +ATOM 3746 HB ILE A1065 18.734 -9.729 -6.591 1.00 24.73 H +ATOM 3747 HG13 ILE A1065 17.479 -8.060 -5.328 1.00 21.25 H +ATOM 3748 HG12 ILE A1065 18.620 -8.132 -4.028 1.00 21.25 H +ATOM 3749 HG21 ILE A1065 19.561 -11.185 -4.812 1.00 22.30 H +ATOM 3750 HG22 ILE A1065 20.885 -10.696 -5.849 1.00 22.30 H +ATOM 3751 HG23 ILE A1065 20.686 -9.957 -4.267 1.00 22.30 H +ATOM 3752 HD11 ILE A1065 16.335 -9.444 -3.890 1.00 21.50 H +ATOM 3753 HD12 ILE A1065 17.146 -10.659 -4.871 1.00 21.50 H +ATOM 3754 HD13 ILE A1065 17.784 -10.235 -3.280 1.00 21.50 H +ATOM 3755 N GLY A1066 19.213 -5.846 -6.633 1.00 21.09 N +ATOM 3756 CA GLY A1066 18.330 -4.771 -7.080 1.00 20.23 C +ATOM 3757 C GLY A1066 17.091 -4.746 -6.177 1.00 23.25 C +ATOM 3758 O GLY A1066 16.483 -5.780 -5.906 1.00 23.53 O +ATOM 3759 H GLY A1066 19.822 -5.625 -5.858 1.00 21.09 H +ATOM 3760 HA3 GLY A1066 18.028 -4.899 -8.120 1.00 20.23 H +ATOM 3761 HA2 GLY A1066 18.871 -3.826 -7.013 1.00 20.23 H +ATOM 3762 N ASN A1067 16.710 -3.544 -5.716 1.00 21.54 N +ATOM 3763 CA ASN A1067 15.606 -3.326 -4.769 1.00 27.79 C +ATOM 3764 C ASN A1067 14.207 -3.508 -5.396 1.00 29.35 C +ATOM 3765 O ASN A1067 13.229 -3.581 -4.652 1.00 23.68 O +ATOM 3766 CB ASN A1067 15.752 -1.933 -4.113 1.00 28.10 C +ATOM 3767 CG ASN A1067 17.041 -1.793 -3.294 1.00 34.33 C +ATOM 3768 OD1 ASN A1067 18.086 -1.435 -3.831 1.00 32.38 O +ATOM 3769 ND2 ASN A1067 16.972 -2.074 -1.991 1.00 37.78 N +ATOM 3770 H ASN A1067 17.243 -2.724 -5.970 1.00 21.54 H +ATOM 3771 HA ASN A1067 15.710 -4.074 -3.982 1.00 27.79 H +ATOM 3772 HB3 ASN A1067 14.905 -1.739 -3.452 1.00 28.10 H +ATOM 3773 HB2 ASN A1067 15.728 -1.151 -4.874 1.00 28.10 H +ATOM 3774 HD22 ASN A1067 17.799 -1.996 -1.416 1.00 37.78 H +ATOM 3775 HD21 ASN A1067 16.101 -2.365 -1.573 1.00 37.78 H +ATOM 3776 N ASP A1068 14.140 -3.601 -6.735 1.00 22.60 N +ATOM 3777 CA ASP A1068 12.937 -3.840 -7.536 1.00 24.23 C +ATOM 3778 C ASP A1068 12.392 -5.282 -7.419 1.00 26.03 C +ATOM 3779 O ASP A1068 11.224 -5.490 -7.745 1.00 25.99 O +ATOM 3780 CB ASP A1068 13.159 -3.459 -9.025 1.00 25.19 C +ATOM 3781 CG ASP A1068 14.283 -4.221 -9.754 1.00 30.47 C +ATOM 3782 OD1 ASP A1068 13.937 -5.134 -10.536 1.00 36.80 O +ATOM 3783 OD2 ASP A1068 15.469 -3.973 -9.440 1.00 31.81 O1- +ATOM 3784 H ASP A1068 14.997 -3.537 -7.269 1.00 22.60 H +ATOM 3785 HA ASP A1068 12.158 -3.182 -7.147 1.00 24.23 H +ATOM 3786 HB3 ASP A1068 13.421 -2.400 -9.067 1.00 25.19 H +ATOM 3787 HB2 ASP A1068 12.223 -3.537 -9.581 1.00 25.19 H +ATOM 3788 N LYS A1069 13.227 -6.242 -6.973 1.00 22.30 N +ATOM 3789 CA LYS A1069 12.863 -7.652 -6.806 1.00 24.00 C +ATOM 3790 C LYS A1069 11.890 -7.832 -5.628 1.00 26.29 C +ATOM 3791 O LYS A1069 12.122 -7.267 -4.559 1.00 19.07 O +ATOM 3792 CB LYS A1069 14.136 -8.506 -6.604 1.00 21.00 C +ATOM 3793 CG LYS A1069 15.209 -8.371 -7.704 1.00 23.84 C +ATOM 3794 CD LYS A1069 14.709 -8.607 -9.141 1.00 24.28 C +ATOM 3795 CE LYS A1069 15.818 -8.539 -10.209 1.00 30.80 C +ATOM 3796 NZ LYS A1069 16.404 -7.194 -10.351 1.00 29.94 N1+ +ATOM 3797 H LYS A1069 14.171 -5.992 -6.711 1.00 22.30 H +ATOM 3798 HA LYS A1069 12.358 -7.984 -7.715 1.00 24.00 H +ATOM 3799 HB3 LYS A1069 13.847 -9.554 -6.525 1.00 21.00 H +ATOM 3800 HB2 LYS A1069 14.600 -8.255 -5.649 1.00 21.00 H +ATOM 3801 HG3 LYS A1069 16.018 -9.071 -7.487 1.00 23.84 H +ATOM 3802 HG2 LYS A1069 15.655 -7.381 -7.644 1.00 23.84 H +ATOM 3803 HD3 LYS A1069 13.936 -7.879 -9.391 1.00 24.28 H +ATOM 3804 HD2 LYS A1069 14.221 -9.581 -9.192 1.00 24.28 H +ATOM 3805 HE3 LYS A1069 15.410 -8.832 -11.176 1.00 30.80 H +ATOM 3806 HE2 LYS A1069 16.619 -9.239 -9.972 1.00 30.80 H +ATOM 3807 HZ1 LYS A1069 16.869 -6.939 -9.490 1.00 29.94 H +ATOM 3808 HZ2 LYS A1069 17.076 -7.190 -11.104 1.00 29.94 H +ATOM 3809 HZ3 LYS A1069 15.673 -6.518 -10.544 1.00 29.94 H +ATOM 3810 N GLN A1070 10.813 -8.601 -5.856 1.00 21.05 N +ATOM 3811 CA GLN A1070 9.717 -8.803 -4.905 1.00 18.84 C +ATOM 3812 C GLN A1070 9.285 -10.276 -4.890 1.00 19.04 C +ATOM 3813 O GLN A1070 9.282 -10.920 -5.940 1.00 20.59 O +ATOM 3814 CB GLN A1070 8.527 -7.893 -5.282 1.00 17.23 C +ATOM 3815 CG GLN A1070 8.806 -6.389 -5.096 1.00 16.69 C +ATOM 3816 CD GLN A1070 7.618 -5.527 -5.517 1.00 19.43 C +ATOM 3817 OE1 GLN A1070 6.540 -5.615 -4.934 1.00 19.58 O +ATOM 3818 NE2 GLN A1070 7.815 -4.677 -6.526 1.00 16.00 N +ATOM 3819 H GLN A1070 10.693 -9.040 -6.757 1.00 21.05 H +ATOM 3820 HA GLN A1070 10.044 -8.547 -3.896 1.00 18.84 H +ATOM 3821 HB3 GLN A1070 7.659 -8.166 -4.678 1.00 17.23 H +ATOM 3822 HB2 GLN A1070 8.242 -8.082 -6.319 1.00 17.23 H +ATOM 3823 HG3 GLN A1070 9.676 -6.087 -5.674 1.00 16.69 H +ATOM 3824 HG2 GLN A1070 9.040 -6.176 -4.052 1.00 16.69 H +ATOM 3825 HE22 GLN A1070 7.064 -4.081 -6.840 1.00 16.00 H +ATOM 3826 HE21 GLN A1070 8.714 -4.632 -6.987 1.00 16.00 H +ATOM 3827 N GLY A1071 8.891 -10.767 -3.702 1.00 19.03 N +ATOM 3828 CA GLY A1071 8.392 -12.128 -3.491 1.00 18.60 C +ATOM 3829 C GLY A1071 9.502 -13.161 -3.728 1.00 22.68 C +ATOM 3830 O GLY A1071 10.622 -12.994 -3.247 1.00 19.48 O +ATOM 3831 H GLY A1071 8.920 -10.167 -2.890 1.00 19.03 H +ATOM 3832 HA3 GLY A1071 7.541 -12.313 -4.148 1.00 18.60 H +ATOM 3833 HA2 GLY A1071 8.033 -12.221 -2.466 1.00 18.60 H +ATOM 3834 N GLN A1072 9.177 -14.227 -4.478 1.00 26.43 N +ATOM 3835 CA GLN A1072 10.114 -15.273 -4.901 1.00 34.15 C +ATOM 3836 C GLN A1072 11.207 -14.818 -5.889 1.00 29.81 C +ATOM 3837 O GLN A1072 12.172 -15.560 -6.064 1.00 29.98 O +ATOM 3838 CB GLN A1072 9.329 -16.486 -5.456 1.00 43.24 C +ATOM 3839 CG GLN A1072 8.603 -17.337 -4.392 1.00 71.14 C +ATOM 3840 CD GLN A1072 9.541 -17.940 -3.341 1.00 69.98 C +ATOM 3841 OE1 GLN A1072 9.444 -17.614 -2.161 1.00 60.02 O +ATOM 3842 NE2 GLN A1072 10.460 -18.810 -3.765 1.00 39.97 N +ATOM 3843 H GLN A1072 8.234 -14.315 -4.829 1.00 26.43 H +ATOM 3844 HA GLN A1072 10.663 -15.583 -4.011 1.00 34.15 H +ATOM 3845 HB3 GLN A1072 9.999 -17.143 -6.014 1.00 43.24 H +ATOM 3846 HB2 GLN A1072 8.600 -16.138 -6.189 1.00 43.24 H +ATOM 3847 HG3 GLN A1072 8.061 -18.149 -4.879 1.00 71.14 H +ATOM 3848 HG2 GLN A1072 7.851 -16.732 -3.885 1.00 71.14 H +ATOM 3849 HE22 GLN A1072 11.101 -19.225 -3.105 1.00 39.97 H +ATOM 3850 HE21 GLN A1072 10.522 -19.060 -4.741 1.00 39.97 H +ATOM 3851 N MET A1073 11.080 -13.614 -6.478 1.00 26.62 N +ATOM 3852 CA MET A1073 12.138 -12.992 -7.281 1.00 27.75 C +ATOM 3853 C MET A1073 13.311 -12.485 -6.426 1.00 23.49 C +ATOM 3854 O MET A1073 14.421 -12.406 -6.949 1.00 28.25 O +ATOM 3855 CB MET A1073 11.581 -11.869 -8.181 1.00 35.27 C +ATOM 3856 CG MET A1073 10.368 -12.267 -9.042 1.00 37.51 C +ATOM 3857 SD MET A1073 10.513 -13.806 -10.002 1.00 44.15 S +ATOM 3858 CE MET A1073 11.975 -13.446 -11.011 1.00 39.79 C +ATOM 3859 H MET A1073 10.263 -13.047 -6.295 1.00 26.62 H +ATOM 3860 HA MET A1073 12.547 -13.761 -7.937 1.00 27.75 H +ATOM 3861 HB3 MET A1073 12.373 -11.501 -8.834 1.00 35.27 H +ATOM 3862 HB2 MET A1073 11.305 -11.014 -7.565 1.00 35.27 H +ATOM 3863 HG3 MET A1073 10.144 -11.457 -9.737 1.00 37.51 H +ATOM 3864 HG2 MET A1073 9.488 -12.363 -8.406 1.00 37.51 H +ATOM 3865 HE1 MET A1073 12.147 -14.255 -11.721 1.00 39.79 H +ATOM 3866 HE2 MET A1073 11.839 -12.518 -11.567 1.00 39.79 H +ATOM 3867 HE3 MET A1073 12.858 -13.354 -10.381 1.00 39.79 H +ATOM 3868 N ILE A1074 13.073 -12.205 -5.129 1.00 23.49 N +ATOM 3869 CA ILE A1074 14.131 -11.951 -4.147 1.00 23.82 C +ATOM 3870 C ILE A1074 14.959 -13.226 -3.912 1.00 21.80 C +ATOM 3871 O ILE A1074 16.181 -13.160 -3.995 1.00 24.42 O +ATOM 3872 CB ILE A1074 13.590 -11.455 -2.770 1.00 20.24 C +ATOM 3873 CG1 ILE A1074 12.834 -10.118 -2.932 1.00 17.36 C +ATOM 3874 CG2 ILE A1074 14.677 -11.332 -1.674 1.00 16.32 C +ATOM 3875 CD1 ILE A1074 12.042 -9.685 -1.690 1.00 13.19 C +ATOM 3876 H ILE A1074 12.136 -12.293 -4.762 1.00 23.49 H +ATOM 3877 HA ILE A1074 14.787 -11.183 -4.556 1.00 23.82 H +ATOM 3878 HB ILE A1074 12.872 -12.190 -2.407 1.00 20.24 H +ATOM 3879 HG13 ILE A1074 12.134 -10.187 -3.762 1.00 17.36 H +ATOM 3880 HG12 ILE A1074 13.541 -9.335 -3.203 1.00 17.36 H +ATOM 3881 HG21 ILE A1074 14.271 -10.936 -0.745 1.00 16.32 H +ATOM 3882 HG22 ILE A1074 15.125 -12.292 -1.419 1.00 16.32 H +ATOM 3883 HG23 ILE A1074 15.484 -10.673 -1.990 1.00 16.32 H +ATOM 3884 HD11 ILE A1074 11.273 -8.960 -1.953 1.00 13.19 H +ATOM 3885 HD12 ILE A1074 11.547 -10.533 -1.214 1.00 13.19 H +ATOM 3886 HD13 ILE A1074 12.688 -9.212 -0.951 1.00 13.19 H +ATOM 3887 N VAL A1075 14.266 -14.351 -3.660 1.00 24.15 N +ATOM 3888 CA VAL A1075 14.849 -15.669 -3.400 1.00 24.68 C +ATOM 3889 C VAL A1075 15.645 -16.211 -4.606 1.00 24.57 C +ATOM 3890 O VAL A1075 16.760 -16.691 -4.411 1.00 26.04 O +ATOM 3891 CB VAL A1075 13.749 -16.700 -3.002 1.00 21.39 C +ATOM 3892 CG1 VAL A1075 14.257 -18.146 -2.823 1.00 22.06 C +ATOM 3893 CG2 VAL A1075 13.004 -16.257 -1.730 1.00 20.46 C +ATOM 3894 H VAL A1075 13.258 -14.306 -3.627 1.00 24.15 H +ATOM 3895 HA VAL A1075 15.541 -15.561 -2.563 1.00 24.68 H +ATOM 3896 HB VAL A1075 13.004 -16.730 -3.799 1.00 21.39 H +ATOM 3897 HG11 VAL A1075 13.475 -18.793 -2.423 1.00 22.06 H +ATOM 3898 HG12 VAL A1075 14.569 -18.588 -3.768 1.00 22.06 H +ATOM 3899 HG13 VAL A1075 15.102 -18.187 -2.134 1.00 22.06 H +ATOM 3900 HG21 VAL A1075 12.230 -16.975 -1.454 1.00 20.46 H +ATOM 3901 HG22 VAL A1075 13.689 -16.168 -0.888 1.00 20.46 H +ATOM 3902 HG23 VAL A1075 12.510 -15.294 -1.863 1.00 20.46 H +ATOM 3903 N PHE A1076 15.076 -16.090 -5.818 1.00 24.59 N +ATOM 3904 CA PHE A1076 15.676 -16.522 -7.081 1.00 27.91 C +ATOM 3905 C PHE A1076 16.976 -15.785 -7.453 1.00 22.62 C +ATOM 3906 O PHE A1076 17.950 -16.443 -7.819 1.00 23.26 O +ATOM 3907 CB PHE A1076 14.604 -16.503 -8.196 1.00 39.17 C +ATOM 3908 CG PHE A1076 15.108 -16.678 -9.620 1.00 45.57 C +ATOM 3909 CD1 PHE A1076 15.523 -17.945 -10.081 1.00 52.57 C +ATOM 3910 CD2 PHE A1076 15.320 -15.549 -10.439 1.00 39.39 C +ATOM 3911 CE1 PHE A1076 16.085 -18.073 -11.345 1.00 56.22 C +ATOM 3912 CE2 PHE A1076 15.884 -15.696 -11.699 1.00 47.42 C +ATOM 3913 CZ PHE A1076 16.261 -16.955 -12.150 1.00 57.49 C +ATOM 3914 H PHE A1076 14.148 -15.691 -5.884 1.00 24.59 H +ATOM 3915 HA PHE A1076 15.961 -17.567 -6.947 1.00 27.91 H +ATOM 3916 HB3 PHE A1076 14.033 -15.575 -8.146 1.00 39.17 H +ATOM 3917 HB2 PHE A1076 13.888 -17.303 -8.002 1.00 39.17 H +ATOM 3918 HD1 PHE A1076 15.412 -18.815 -9.451 1.00 52.57 H +ATOM 3919 HD2 PHE A1076 15.046 -14.568 -10.084 1.00 39.39 H +ATOM 3920 HE1 PHE A1076 16.396 -19.045 -11.698 1.00 56.22 H +ATOM 3921 HE2 PHE A1076 16.039 -14.829 -12.324 1.00 47.42 H +ATOM 3922 HZ PHE A1076 16.705 -17.063 -13.129 1.00 57.49 H +ATOM 3923 N HIS A1077 16.978 -14.445 -7.333 1.00 21.48 N +ATOM 3924 CA HIS A1077 18.164 -13.627 -7.595 1.00 19.18 C +ATOM 3925 C HIS A1077 19.199 -13.667 -6.458 1.00 21.89 C +ATOM 3926 O HIS A1077 20.378 -13.485 -6.748 1.00 24.30 O +ATOM 3927 CB HIS A1077 17.769 -12.185 -7.959 1.00 23.37 C +ATOM 3928 CG HIS A1077 17.107 -12.061 -9.309 1.00 25.59 C +ATOM 3929 ND1 HIS A1077 15.736 -12.014 -9.477 1.00 28.44 N +ATOM 3930 CD2 HIS A1077 17.637 -11.949 -10.576 1.00 27.88 C +ATOM 3931 CE1 HIS A1077 15.499 -11.888 -10.785 1.00 23.89 C +ATOM 3932 NE2 HIS A1077 16.607 -11.840 -11.514 1.00 32.16 N +ATOM 3933 H HIS A1077 16.147 -13.958 -7.027 1.00 21.48 H +ATOM 3934 HA HIS A1077 18.672 -14.039 -8.469 1.00 19.18 H +ATOM 3935 HB3 HIS A1077 18.659 -11.555 -7.987 1.00 23.37 H +ATOM 3936 HB2 HIS A1077 17.117 -11.760 -7.194 1.00 23.37 H +ATOM 3937 HD1 HIS A1077 15.046 -12.067 -8.738 1.00 28.44 H +ATOM 3938 HD2 HIS A1077 18.672 -11.938 -10.883 1.00 27.88 H +ATOM 3939 HE1 HIS A1077 14.508 -11.820 -11.208 1.00 23.89 H +ATOM 3940 N LEU A1078 18.769 -13.944 -5.213 1.00 22.26 N +ATOM 3941 CA LEU A1078 19.650 -14.186 -4.064 1.00 19.93 C +ATOM 3942 C LEU A1078 20.418 -15.511 -4.211 1.00 21.49 C +ATOM 3943 O LEU A1078 21.619 -15.524 -3.961 1.00 21.07 O +ATOM 3944 CB LEU A1078 18.833 -14.097 -2.753 1.00 23.02 C +ATOM 3945 CG LEU A1078 19.577 -14.409 -1.433 1.00 22.29 C +ATOM 3946 CD1 LEU A1078 20.784 -13.475 -1.202 1.00 23.58 C +ATOM 3947 CD2 LEU A1078 18.589 -14.400 -0.246 1.00 19.70 C +ATOM 3948 H LEU A1078 17.778 -14.050 -5.039 1.00 22.26 H +ATOM 3949 HA LEU A1078 20.391 -13.386 -4.050 1.00 19.93 H +ATOM 3950 HB3 LEU A1078 17.986 -14.780 -2.829 1.00 23.02 H +ATOM 3951 HB2 LEU A1078 18.409 -13.095 -2.677 1.00 23.02 H +ATOM 3952 HG LEU A1078 19.967 -15.426 -1.492 1.00 22.29 H +ATOM 3953 HD11 LEU A1078 20.844 -13.110 -0.177 1.00 23.58 H +ATOM 3954 HD12 LEU A1078 21.720 -13.996 -1.403 1.00 23.58 H +ATOM 3955 HD13 LEU A1078 20.755 -12.598 -1.850 1.00 23.58 H +ATOM 3956 HD21 LEU A1078 18.906 -13.757 0.575 1.00 19.70 H +ATOM 3957 HD22 LEU A1078 17.595 -14.062 -0.542 1.00 19.70 H +ATOM 3958 HD23 LEU A1078 18.474 -15.402 0.165 1.00 19.70 H +ATOM 3959 N ILE A1079 19.738 -16.574 -4.679 1.00 22.79 N +ATOM 3960 CA ILE A1079 20.339 -17.856 -5.065 1.00 20.74 C +ATOM 3961 C ILE A1079 21.422 -17.692 -6.149 1.00 21.28 C +ATOM 3962 O ILE A1079 22.518 -18.229 -5.986 1.00 22.28 O +ATOM 3963 CB ILE A1079 19.250 -18.871 -5.543 1.00 23.76 C +ATOM 3964 CG1 ILE A1079 18.479 -19.434 -4.331 1.00 21.44 C +ATOM 3965 CG2 ILE A1079 19.734 -20.030 -6.448 1.00 15.62 C +ATOM 3966 CD1 ILE A1079 17.103 -20.024 -4.678 1.00 23.20 C +ATOM 3967 H ILE A1079 18.742 -16.490 -4.840 1.00 22.79 H +ATOM 3968 HA ILE A1079 20.827 -18.263 -4.177 1.00 20.74 H +ATOM 3969 HB ILE A1079 18.531 -18.306 -6.135 1.00 23.76 H +ATOM 3970 HG13 ILE A1079 18.332 -18.652 -3.586 1.00 21.44 H +ATOM 3971 HG12 ILE A1079 19.087 -20.191 -3.836 1.00 21.44 H +ATOM 3972 HG21 ILE A1079 18.911 -20.693 -6.711 1.00 15.62 H +ATOM 3973 HG22 ILE A1079 20.138 -19.679 -7.398 1.00 15.62 H +ATOM 3974 HG23 ILE A1079 20.501 -20.627 -5.954 1.00 15.62 H +ATOM 3975 HD11 ILE A1079 16.470 -20.080 -3.793 1.00 23.20 H +ATOM 3976 HD12 ILE A1079 16.578 -19.417 -5.416 1.00 23.20 H +ATOM 3977 HD13 ILE A1079 17.186 -21.034 -5.076 1.00 23.20 H +ATOM 3978 N GLU A1080 21.099 -16.927 -7.206 1.00 21.84 N +ATOM 3979 CA GLU A1080 21.990 -16.663 -8.334 1.00 27.61 C +ATOM 3980 C GLU A1080 23.194 -15.779 -7.953 1.00 25.68 C +ATOM 3981 O GLU A1080 24.281 -15.991 -8.489 1.00 29.14 O +ATOM 3982 CB GLU A1080 21.160 -16.071 -9.497 1.00 26.94 C +ATOM 3983 CG GLU A1080 21.892 -16.021 -10.861 1.00 39.60 C +ATOM 3984 CD GLU A1080 22.249 -17.394 -11.463 1.00 58.05 C +ATOM 3985 OE1 GLU A1080 23.242 -17.436 -12.223 1.00 52.75 O +ATOM 3986 OE2 GLU A1080 21.540 -18.384 -11.172 1.00 39.56 O1- +ATOM 3987 H GLU A1080 20.174 -16.523 -7.263 1.00 21.84 H +ATOM 3988 HA GLU A1080 22.390 -17.626 -8.647 1.00 27.61 H +ATOM 3989 HB3 GLU A1080 20.859 -15.056 -9.234 1.00 26.94 H +ATOM 3990 HB2 GLU A1080 20.224 -16.621 -9.604 1.00 26.94 H +ATOM 3991 HG3 GLU A1080 22.790 -15.408 -10.779 1.00 39.60 H +ATOM 3992 HG2 GLU A1080 21.251 -15.510 -11.581 1.00 39.60 H +ATOM 3993 N LEU A1081 22.999 -14.842 -7.008 1.00 22.32 N +ATOM 3994 CA LEU A1081 24.046 -13.981 -6.456 1.00 24.17 C +ATOM 3995 C LEU A1081 25.101 -14.783 -5.675 1.00 24.08 C +ATOM 3996 O LEU A1081 26.291 -14.568 -5.899 1.00 24.01 O +ATOM 3997 CB LEU A1081 23.393 -12.877 -5.592 1.00 23.02 C +ATOM 3998 CG LEU A1081 24.346 -11.777 -5.075 1.00 26.09 C +ATOM 3999 CD1 LEU A1081 24.973 -10.962 -6.225 1.00 25.55 C +ATOM 4000 CD2 LEU A1081 23.624 -10.868 -4.064 1.00 20.47 C +ATOM 4001 H LEU A1081 22.071 -14.710 -6.628 1.00 22.32 H +ATOM 4002 HA LEU A1081 24.547 -13.509 -7.302 1.00 24.17 H +ATOM 4003 HB3 LEU A1081 22.891 -13.346 -4.746 1.00 23.02 H +ATOM 4004 HB2 LEU A1081 22.609 -12.389 -6.171 1.00 23.02 H +ATOM 4005 HG LEU A1081 25.152 -12.258 -4.521 1.00 26.09 H +ATOM 4006 HD11 LEU A1081 24.970 -9.891 -6.024 1.00 25.55 H +ATOM 4007 HD12 LEU A1081 26.009 -11.254 -6.390 1.00 25.55 H +ATOM 4008 HD13 LEU A1081 24.443 -11.110 -7.166 1.00 25.55 H +ATOM 4009 HD21 LEU A1081 24.315 -10.518 -3.296 1.00 20.47 H +ATOM 4010 HD22 LEU A1081 23.192 -9.993 -4.549 1.00 20.47 H +ATOM 4011 HD23 LEU A1081 22.808 -11.383 -3.558 1.00 20.47 H +ATOM 4012 N LEU A1082 24.649 -15.710 -4.810 1.00 20.37 N +ATOM 4013 CA LEU A1082 25.513 -16.581 -4.008 1.00 26.53 C +ATOM 4014 C LEU A1082 26.297 -17.601 -4.857 1.00 25.39 C +ATOM 4015 O LEU A1082 27.451 -17.870 -4.524 1.00 23.52 O +ATOM 4016 CB LEU A1082 24.691 -17.290 -2.907 1.00 19.84 C +ATOM 4017 CG LEU A1082 24.052 -16.347 -1.859 1.00 24.55 C +ATOM 4018 CD1 LEU A1082 23.100 -17.121 -0.921 1.00 20.08 C +ATOM 4019 CD2 LEU A1082 25.086 -15.509 -1.086 1.00 19.93 C +ATOM 4020 H LEU A1082 23.653 -15.828 -4.683 1.00 20.37 H +ATOM 4021 HA LEU A1082 26.253 -15.940 -3.527 1.00 26.53 H +ATOM 4022 HB3 LEU A1082 25.326 -18.007 -2.385 1.00 19.84 H +ATOM 4023 HB2 LEU A1082 23.905 -17.879 -3.385 1.00 19.84 H +ATOM 4024 HG LEU A1082 23.439 -15.622 -2.385 1.00 24.55 H +ATOM 4025 HD11 LEU A1082 22.091 -16.712 -0.976 1.00 20.08 H +ATOM 4026 HD12 LEU A1082 23.032 -18.177 -1.185 1.00 20.08 H +ATOM 4027 HD13 LEU A1082 23.408 -17.078 0.123 1.00 20.08 H +ATOM 4028 HD21 LEU A1082 24.770 -15.302 -0.064 1.00 19.93 H +ATOM 4029 HD22 LEU A1082 26.055 -16.002 -1.040 1.00 19.93 H +ATOM 4030 HD23 LEU A1082 25.227 -14.542 -1.569 1.00 19.93 H +ATOM 4031 N LYS A1083 25.692 -18.105 -5.951 1.00 27.55 N +ATOM 4032 CA LYS A1083 26.335 -18.975 -6.946 1.00 27.30 C +ATOM 4033 C LYS A1083 27.533 -18.316 -7.652 1.00 29.20 C +ATOM 4034 O LYS A1083 28.574 -18.958 -7.788 1.00 27.83 O +ATOM 4035 CB LYS A1083 25.298 -19.441 -7.989 1.00 30.35 C +ATOM 4036 CG LYS A1083 24.355 -20.551 -7.493 1.00 50.23 C +ATOM 4037 CD LYS A1083 23.163 -20.807 -8.434 1.00 61.02 C +ATOM 4038 CE LYS A1083 23.566 -21.224 -9.861 1.00 58.03 C +ATOM 4039 NZ LYS A1083 22.391 -21.440 -10.722 1.00 72.92 N1+ +ATOM 4040 H LYS A1083 24.735 -17.844 -6.146 1.00 27.55 H +ATOM 4041 HA LYS A1083 26.707 -19.854 -6.415 1.00 27.30 H +ATOM 4042 HB3 LYS A1083 25.823 -19.829 -8.863 1.00 30.35 H +ATOM 4043 HB2 LYS A1083 24.721 -18.586 -8.343 1.00 30.35 H +ATOM 4044 HG3 LYS A1083 23.979 -20.305 -6.500 1.00 50.23 H +ATOM 4045 HG2 LYS A1083 24.922 -21.474 -7.369 1.00 50.23 H +ATOM 4046 HD3 LYS A1083 22.543 -19.911 -8.470 1.00 61.02 H +ATOM 4047 HD2 LYS A1083 22.534 -21.581 -7.990 1.00 61.02 H +ATOM 4048 HE3 LYS A1083 24.158 -22.139 -9.833 1.00 58.03 H +ATOM 4049 HE2 LYS A1083 24.178 -20.454 -10.333 1.00 58.03 H +ATOM 4050 HZ1 LYS A1083 21.885 -20.566 -10.810 1.00 72.92 H +ATOM 4051 HZ2 LYS A1083 22.694 -21.733 -11.640 1.00 72.92 H +ATOM 4052 HZ3 LYS A1083 21.790 -22.144 -10.320 1.00 72.92 H +ATOM 4053 N ASN A1084 27.370 -17.041 -8.046 1.00 27.96 N +ATOM 4054 CA ASN A1084 28.396 -16.205 -8.686 1.00 28.13 C +ATOM 4055 C ASN A1084 29.352 -15.538 -7.671 1.00 25.55 C +ATOM 4056 O ASN A1084 30.126 -14.667 -8.067 1.00 31.34 O +ATOM 4057 CB ASN A1084 27.689 -15.178 -9.604 1.00 29.99 C +ATOM 4058 CG ASN A1084 27.118 -15.824 -10.872 1.00 37.41 C +ATOM 4059 OD1 ASN A1084 27.868 -16.192 -11.772 1.00 38.96 O +ATOM 4060 ND2 ASN A1084 25.795 -15.963 -10.951 1.00 39.14 N +ATOM 4061 H ASN A1084 26.478 -16.592 -7.888 1.00 27.96 H +ATOM 4062 HA ASN A1084 28.992 -16.873 -9.313 1.00 28.13 H +ATOM 4063 HB3 ASN A1084 28.398 -14.425 -9.950 1.00 29.99 H +ATOM 4064 HB2 ASN A1084 26.916 -14.636 -9.057 1.00 29.99 H +ATOM 4065 HD22 ASN A1084 25.367 -16.392 -11.761 1.00 39.14 H +ATOM 4066 HD21 ASN A1084 25.202 -15.687 -10.178 1.00 39.14 H +ATOM 4067 N ASN A1085 29.321 -15.986 -6.402 1.00 27.08 N +ATOM 4068 CA ASN A1085 30.227 -15.618 -5.305 1.00 23.23 C +ATOM 4069 C ASN A1085 30.076 -14.156 -4.840 1.00 26.10 C +ATOM 4070 O ASN A1085 31.049 -13.560 -4.376 1.00 18.93 O +ATOM 4071 CB ASN A1085 31.696 -16.017 -5.612 1.00 25.60 C +ATOM 4072 CG ASN A1085 31.868 -17.517 -5.873 1.00 40.88 C +ATOM 4073 OD1 ASN A1085 31.546 -18.340 -5.018 1.00 36.33 O +ATOM 4074 ND2 ASN A1085 32.383 -17.879 -7.049 1.00 42.47 N +ATOM 4075 H ASN A1085 28.646 -16.702 -6.173 1.00 27.08 H +ATOM 4076 HA ASN A1085 29.897 -16.227 -4.466 1.00 23.23 H +ATOM 4077 HB3 ASN A1085 32.334 -15.776 -4.760 1.00 25.60 H +ATOM 4078 HB2 ASN A1085 32.088 -15.442 -6.452 1.00 25.60 H +ATOM 4079 HD22 ASN A1085 32.516 -18.857 -7.264 1.00 42.47 H +ATOM 4080 HD21 ASN A1085 32.635 -17.183 -7.735 1.00 42.47 H +ATOM 4081 N GLY A1086 28.845 -13.623 -4.917 1.00 18.59 N +ATOM 4082 CA GLY A1086 28.464 -12.340 -4.332 1.00 21.13 C +ATOM 4083 C GLY A1086 28.237 -12.548 -2.831 1.00 24.31 C +ATOM 4084 O GLY A1086 27.558 -13.494 -2.427 1.00 22.61 O +ATOM 4085 H GLY A1086 28.095 -14.169 -5.323 1.00 18.59 H +ATOM 4086 HA3 GLY A1086 27.539 -11.997 -4.791 1.00 21.13 H +ATOM 4087 HA2 GLY A1086 29.225 -11.581 -4.523 1.00 21.13 H +ATOM 4088 N ARG A1087 28.827 -11.661 -2.018 1.00 26.71 N +ATOM 4089 CA ARG A1087 28.876 -11.759 -0.561 1.00 20.41 C +ATOM 4090 C ARG A1087 28.524 -10.417 0.082 1.00 28.50 C +ATOM 4091 O ARG A1087 28.712 -9.367 -0.535 1.00 23.92 O +ATOM 4092 CB ARG A1087 30.313 -12.141 -0.130 1.00 21.51 C +ATOM 4093 CG ARG A1087 30.829 -13.494 -0.644 1.00 20.39 C +ATOM 4094 CD ARG A1087 30.101 -14.695 -0.028 1.00 19.92 C +ATOM 4095 NE ARG A1087 30.545 -15.970 -0.611 1.00 20.96 N +ATOM 4096 CZ ARG A1087 29.895 -16.752 -1.491 1.00 18.32 C +ATOM 4097 NH1 ARG A1087 28.695 -16.430 -1.990 1.00 18.68 N +ATOM 4098 NH2 ARG A1087 30.466 -17.897 -1.878 1.00 17.92 N1+ +ATOM 4099 H ARG A1087 29.337 -10.886 -2.416 1.00 26.71 H +ATOM 4100 HA ARG A1087 28.160 -12.496 -0.195 1.00 20.41 H +ATOM 4101 HB3 ARG A1087 30.379 -12.148 0.960 1.00 21.51 H +ATOM 4102 HB2 ARG A1087 31.006 -11.365 -0.459 1.00 21.51 H +ATOM 4103 HG3 ARG A1087 31.866 -13.538 -0.306 1.00 20.39 H +ATOM 4104 HG2 ARG A1087 30.878 -13.552 -1.731 1.00 20.39 H +ATOM 4105 HD3 ARG A1087 29.019 -14.579 0.023 1.00 19.92 H +ATOM 4106 HD2 ARG A1087 30.433 -14.762 1.007 1.00 19.92 H +ATOM 4107 HE ARG A1087 31.436 -16.304 -0.270 1.00 20.96 H +ATOM 4108 HH12 ARG A1087 28.239 -17.041 -2.655 1.00 18.68 H +ATOM 4109 HH11 ARG A1087 28.265 -15.547 -1.748 1.00 18.68 H +ATOM 4110 HH22 ARG A1087 29.996 -18.507 -2.534 1.00 17.92 H +ATOM 4111 HH21 ARG A1087 31.362 -18.172 -1.500 1.00 17.92 H +ATOM 4112 N LEU A1088 28.112 -10.486 1.359 1.00 26.04 N +ATOM 4113 CA LEU A1088 28.073 -9.349 2.281 1.00 22.12 C +ATOM 4114 C LEU A1088 29.508 -8.800 2.475 1.00 21.73 C +ATOM 4115 O LEU A1088 30.428 -9.608 2.624 1.00 23.53 O +ATOM 4116 CB LEU A1088 27.514 -9.838 3.636 1.00 16.03 C +ATOM 4117 CG LEU A1088 26.049 -10.321 3.606 1.00 15.19 C +ATOM 4118 CD1 LEU A1088 25.623 -10.885 4.976 1.00 10.92 C +ATOM 4119 CD2 LEU A1088 25.086 -9.228 3.112 1.00 14.51 C +ATOM 4120 H LEU A1088 27.986 -11.391 1.787 1.00 26.04 H +ATOM 4121 HA LEU A1088 27.410 -8.605 1.843 1.00 22.12 H +ATOM 4122 HB3 LEU A1088 27.602 -9.038 4.372 1.00 16.03 H +ATOM 4123 HB2 LEU A1088 28.139 -10.649 4.001 1.00 16.03 H +ATOM 4124 HG LEU A1088 25.995 -11.150 2.902 1.00 15.19 H +ATOM 4125 HD11 LEU A1088 25.137 -11.855 4.865 1.00 10.92 H +ATOM 4126 HD12 LEU A1088 26.472 -11.026 5.645 1.00 10.92 H +ATOM 4127 HD13 LEU A1088 24.924 -10.228 5.493 1.00 10.92 H +ATOM 4128 HD21 LEU A1088 24.105 -9.296 3.580 1.00 14.51 H +ATOM 4129 HD22 LEU A1088 25.484 -8.235 3.320 1.00 14.51 H +ATOM 4130 HD23 LEU A1088 24.926 -9.306 2.036 1.00 14.51 H +ATOM 4131 N PRO A1089 29.693 -7.462 2.411 1.00 24.81 N +ATOM 4132 CA PRO A1089 31.036 -6.845 2.388 1.00 29.21 C +ATOM 4133 C PRO A1089 31.833 -6.982 3.702 1.00 32.70 C +ATOM 4134 O PRO A1089 31.381 -7.612 4.655 1.00 35.33 O +ATOM 4135 CB PRO A1089 30.732 -5.376 2.034 1.00 28.26 C +ATOM 4136 CG PRO A1089 29.343 -5.128 2.593 1.00 30.27 C +ATOM 4137 CD PRO A1089 28.638 -6.450 2.326 1.00 23.06 C +ATOM 4138 HA PRO A1089 31.635 -7.295 1.594 1.00 29.21 H +ATOM 4139 HB3 PRO A1089 30.711 -5.266 0.949 1.00 28.26 H +ATOM 4140 HB2 PRO A1089 31.458 -4.655 2.413 1.00 28.26 H +ATOM 4141 HG3 PRO A1089 28.841 -4.270 2.146 1.00 30.27 H +ATOM 4142 HG2 PRO A1089 29.407 -4.957 3.669 1.00 30.27 H +ATOM 4143 HD2 PRO A1089 27.827 -6.617 3.037 1.00 23.06 H +ATOM 4144 HD3 PRO A1089 28.219 -6.457 1.318 1.00 23.06 H +ATOM 4145 N ARG A1090 33.024 -6.368 3.720 1.00 32.68 N +ATOM 4146 CA ARG A1090 33.830 -6.165 4.922 1.00 29.46 C +ATOM 4147 C ARG A1090 33.216 -5.012 5.747 1.00 31.20 C +ATOM 4148 O ARG A1090 33.129 -3.907 5.208 1.00 31.46 O +ATOM 4149 CB ARG A1090 35.259 -5.825 4.452 1.00 31.39 C +ATOM 4150 CG ARG A1090 36.268 -5.582 5.589 1.00 34.22 C +ATOM 4151 CD ARG A1090 37.642 -5.176 5.044 1.00 35.10 C +ATOM 4152 NE ARG A1090 38.658 -5.098 6.107 1.00 48.72 N +ATOM 4153 CZ ARG A1090 39.908 -5.598 6.093 1.00 51.91 C +ATOM 4154 NH1 ARG A1090 40.390 -6.314 5.067 1.00 44.95 N +ATOM 4155 NH2 ARG A1090 40.700 -5.368 7.145 1.00 45.60 N1+ +ATOM 4156 H ARG A1090 33.341 -5.885 2.893 1.00 32.68 H +ATOM 4157 HA ARG A1090 33.881 -7.093 5.485 1.00 29.46 H +ATOM 4158 HB3 ARG A1090 35.236 -4.945 3.806 1.00 31.39 H +ATOM 4159 HB2 ARG A1090 35.630 -6.640 3.829 1.00 31.39 H +ATOM 4160 HG3 ARG A1090 36.329 -6.421 6.284 1.00 34.22 H +ATOM 4161 HG2 ARG A1090 35.895 -4.736 6.166 1.00 34.22 H +ATOM 4162 HD3 ARG A1090 37.565 -4.147 4.691 1.00 35.10 H +ATOM 4163 HD2 ARG A1090 37.925 -5.766 4.173 1.00 35.10 H +ATOM 4164 HE ARG A1090 38.374 -4.591 6.934 1.00 48.72 H +ATOM 4165 HH12 ARG A1090 41.335 -6.682 5.107 1.00 44.95 H +ATOM 4166 HH11 ARG A1090 39.815 -6.501 4.259 1.00 44.95 H +ATOM 4167 HH22 ARG A1090 41.648 -5.727 7.161 1.00 45.60 H +ATOM 4168 HH21 ARG A1090 40.346 -4.878 7.955 1.00 45.60 H +ATOM 4169 N PRO A1091 32.814 -5.253 7.020 1.00 32.75 N +ATOM 4170 CA PRO A1091 32.405 -4.162 7.928 1.00 29.05 C +ATOM 4171 C PRO A1091 33.531 -3.151 8.198 1.00 32.30 C +ATOM 4172 O PRO A1091 34.699 -3.540 8.267 1.00 27.83 O +ATOM 4173 CB PRO A1091 31.991 -4.868 9.227 1.00 25.42 C +ATOM 4174 CG PRO A1091 31.785 -6.321 8.853 1.00 25.52 C +ATOM 4175 CD PRO A1091 32.758 -6.546 7.705 1.00 27.47 C +ATOM 4176 HA PRO A1091 31.539 -3.663 7.488 1.00 29.05 H +ATOM 4177 HB3 PRO A1091 31.092 -4.429 9.654 1.00 25.42 H +ATOM 4178 HB2 PRO A1091 32.765 -4.790 9.989 1.00 25.42 H +ATOM 4179 HG3 PRO A1091 30.770 -6.433 8.486 1.00 25.52 H +ATOM 4180 HG2 PRO A1091 31.910 -7.007 9.688 1.00 25.52 H +ATOM 4181 HD2 PRO A1091 33.752 -6.795 8.075 1.00 27.47 H +ATOM 4182 HD3 PRO A1091 32.410 -7.364 7.076 1.00 27.47 H +ATOM 4183 N ASP A1092 33.147 -1.876 8.341 1.00 35.12 N +ATOM 4184 CA ASP A1092 34.050 -0.753 8.606 1.00 44.83 C +ATOM 4185 C ASP A1092 34.765 -0.928 9.961 1.00 37.89 C +ATOM 4186 O ASP A1092 34.104 -0.948 10.999 1.00 34.51 O +ATOM 4187 CB ASP A1092 33.339 0.627 8.526 1.00 69.48 C +ATOM 4188 CG ASP A1092 32.518 0.926 7.252 1.00 75.59 C +ATOM 4189 OD1 ASP A1092 32.704 0.241 6.220 1.00 84.22 O +ATOM 4190 OD2 ASP A1092 31.760 1.920 7.298 1.00 67.37 O1- +ATOM 4191 H ASP A1092 32.170 -1.638 8.253 1.00 35.12 H +ATOM 4192 HA ASP A1092 34.810 -0.770 7.821 1.00 44.83 H +ATOM 4193 HB3 ASP A1092 34.083 1.419 8.622 1.00 69.48 H +ATOM 4194 HB2 ASP A1092 32.659 0.728 9.375 1.00 69.48 H +ATOM 4195 N GLY A1093 36.100 -1.075 9.909 1.00 32.72 N +ATOM 4196 CA GLY A1093 36.959 -1.261 11.081 1.00 32.41 C +ATOM 4197 C GLY A1093 37.162 -2.740 11.465 1.00 35.83 C +ATOM 4198 O GLY A1093 37.821 -2.995 12.473 1.00 31.32 O +ATOM 4199 H GLY A1093 36.559 -1.053 9.010 1.00 32.72 H +ATOM 4200 HA3 GLY A1093 36.565 -0.717 11.941 1.00 32.41 H +ATOM 4201 HA2 GLY A1093 37.934 -0.827 10.860 1.00 32.41 H +ATOM 4202 N CYS A1094 36.627 -3.706 10.694 1.00 33.12 N +ATOM 4203 CA CYS A1094 36.789 -5.148 10.921 1.00 31.97 C +ATOM 4204 C CYS A1094 38.239 -5.598 10.612 1.00 33.47 C +ATOM 4205 O CYS A1094 38.711 -5.290 9.517 1.00 36.47 O +ATOM 4206 CB CYS A1094 35.794 -5.941 10.048 1.00 27.69 C +ATOM 4207 SG CYS A1094 35.846 -7.725 10.389 1.00 28.59 S +ATOM 4208 H CYS A1094 36.083 -3.444 9.882 1.00 33.12 H +ATOM 4209 HA CYS A1094 36.511 -5.329 11.956 1.00 31.97 H +ATOM 4210 HB3 CYS A1094 35.986 -5.782 8.986 1.00 27.69 H +ATOM 4211 HB2 CYS A1094 34.781 -5.599 10.245 1.00 27.69 H +ATOM 4212 HG CYS A1094 37.083 -7.929 9.924 1.00 28.59 H +ATOM 4213 N PRO A1095 38.906 -6.335 11.537 1.00 30.39 N +ATOM 4214 CA PRO A1095 40.184 -7.029 11.257 1.00 36.38 C +ATOM 4215 C PRO A1095 40.136 -8.002 10.063 1.00 44.92 C +ATOM 4216 O PRO A1095 39.103 -8.635 9.839 1.00 36.51 O +ATOM 4217 CB PRO A1095 40.479 -7.801 12.559 1.00 35.24 C +ATOM 4218 CG PRO A1095 39.715 -7.061 13.639 1.00 36.58 C +ATOM 4219 CD PRO A1095 38.468 -6.589 12.911 1.00 33.29 C +ATOM 4220 HA PRO A1095 40.947 -6.265 11.096 1.00 36.38 H +ATOM 4221 HB3 PRO A1095 41.545 -7.862 12.779 1.00 35.24 H +ATOM 4222 HB2 PRO A1095 40.103 -8.824 12.500 1.00 35.24 H +ATOM 4223 HG3 PRO A1095 40.295 -6.198 13.967 1.00 36.58 H +ATOM 4224 HG2 PRO A1095 39.496 -7.674 14.513 1.00 36.58 H +ATOM 4225 HD2 PRO A1095 37.708 -7.371 12.903 1.00 33.29 H +ATOM 4226 HD3 PRO A1095 38.062 -5.708 13.406 1.00 33.29 H +ATOM 4227 N ASP A1096 41.272 -8.123 9.351 1.00 44.88 N +ATOM 4228 CA ASP A1096 41.506 -9.080 8.257 1.00 44.60 C +ATOM 4229 C ASP A1096 41.219 -10.531 8.673 1.00 37.41 C +ATOM 4230 O ASP A1096 40.451 -11.211 7.997 1.00 33.86 O +ATOM 4231 CB ASP A1096 42.940 -9.018 7.665 1.00 52.34 C +ATOM 4232 CG ASP A1096 43.377 -7.638 7.159 1.00 74.95 C +ATOM 4233 OD1 ASP A1096 43.251 -7.420 5.934 1.00 66.62 O +ATOM 4234 OD2 ASP A1096 43.683 -6.771 8.007 1.00 68.74 O1- +ATOM 4235 H ASP A1096 42.067 -7.545 9.588 1.00 44.88 H +ATOM 4236 HA ASP A1096 40.803 -8.823 7.461 1.00 44.60 H +ATOM 4237 HB3 ASP A1096 43.041 -9.741 6.854 1.00 52.34 H +ATOM 4238 HB2 ASP A1096 43.663 -9.316 8.427 1.00 52.34 H +ATOM 4239 N GLU A1097 41.812 -10.941 9.805 1.00 38.98 N +ATOM 4240 CA GLU A1097 41.707 -12.262 10.426 1.00 39.73 C +ATOM 4241 C GLU A1097 40.282 -12.671 10.854 1.00 37.11 C +ATOM 4242 O GLU A1097 40.028 -13.870 10.957 1.00 29.35 O +ATOM 4243 CB GLU A1097 42.710 -12.320 11.601 1.00 46.37 C +ATOM 4244 CG GLU A1097 42.483 -11.257 12.710 1.00 69.76 C +ATOM 4245 CD GLU A1097 43.599 -11.136 13.763 1.00 91.74 C +ATOM 4246 OE1 GLU A1097 44.514 -11.990 13.792 1.00 59.75 O +ATOM 4247 OE2 GLU A1097 43.514 -10.161 14.542 1.00 73.81 O1- +ATOM 4248 H GLU A1097 42.413 -10.291 10.291 1.00 38.98 H +ATOM 4249 HA GLU A1097 42.026 -12.991 9.679 1.00 39.73 H +ATOM 4250 HB3 GLU A1097 43.716 -12.217 11.192 1.00 46.37 H +ATOM 4251 HB2 GLU A1097 42.680 -13.315 12.049 1.00 46.37 H +ATOM 4252 HG3 GLU A1097 41.555 -11.476 13.237 1.00 69.76 H +ATOM 4253 HG2 GLU A1097 42.353 -10.272 12.262 1.00 69.76 H +ATOM 4254 N ILE A1098 39.385 -11.692 11.068 1.00 33.65 N +ATOM 4255 CA ILE A1098 37.982 -11.916 11.424 1.00 30.71 C +ATOM 4256 C ILE A1098 37.055 -11.857 10.197 1.00 27.85 C +ATOM 4257 O ILE A1098 36.098 -12.628 10.152 1.00 21.07 O +ATOM 4258 CB ILE A1098 37.508 -10.906 12.512 1.00 36.19 C +ATOM 4259 CG1 ILE A1098 38.292 -11.111 13.830 1.00 31.22 C +ATOM 4260 CG2 ILE A1098 35.987 -10.908 12.791 1.00 29.21 C +ATOM 4261 CD1 ILE A1098 38.180 -12.527 14.424 1.00 32.45 C +ATOM 4262 H ILE A1098 39.669 -10.730 10.953 1.00 33.65 H +ATOM 4263 HA ILE A1098 37.865 -12.925 11.820 1.00 30.71 H +ATOM 4264 HB ILE A1098 37.755 -9.903 12.162 1.00 36.19 H +ATOM 4265 HG13 ILE A1098 37.977 -10.369 14.564 1.00 31.22 H +ATOM 4266 HG12 ILE A1098 39.346 -10.896 13.659 1.00 31.22 H +ATOM 4267 HG21 ILE A1098 35.749 -10.272 13.642 1.00 29.21 H +ATOM 4268 HG22 ILE A1098 35.416 -10.520 11.950 1.00 29.21 H +ATOM 4269 HG23 ILE A1098 35.616 -11.909 13.011 1.00 29.21 H +ATOM 4270 HD11 ILE A1098 38.512 -12.554 15.459 1.00 32.45 H +ATOM 4271 HD12 ILE A1098 37.157 -12.903 14.403 1.00 32.45 H +ATOM 4272 HD13 ILE A1098 38.797 -13.232 13.871 1.00 32.45 H +ATOM 4273 N TYR A1099 37.372 -11.008 9.202 1.00 27.24 N +ATOM 4274 CA TYR A1099 36.679 -10.982 7.911 1.00 25.08 C +ATOM 4275 C TYR A1099 36.909 -12.269 7.091 1.00 24.37 C +ATOM 4276 O TYR A1099 35.978 -12.728 6.431 1.00 23.21 O +ATOM 4277 CB TYR A1099 37.052 -9.703 7.128 1.00 24.86 C +ATOM 4278 CG TYR A1099 36.428 -9.596 5.744 1.00 28.07 C +ATOM 4279 CD1 TYR A1099 37.245 -9.482 4.599 1.00 28.06 C +ATOM 4280 CD2 TYR A1099 35.025 -9.652 5.595 1.00 28.14 C +ATOM 4281 CE1 TYR A1099 36.663 -9.438 3.317 1.00 34.70 C +ATOM 4282 CE2 TYR A1099 34.444 -9.621 4.313 1.00 36.72 C +ATOM 4283 CZ TYR A1099 35.263 -9.511 3.173 1.00 37.73 C +ATOM 4284 OH TYR A1099 34.696 -9.473 1.933 1.00 33.24 O +ATOM 4285 H TYR A1099 38.165 -10.388 9.302 1.00 27.24 H +ATOM 4286 HA TYR A1099 35.610 -10.931 8.127 1.00 25.08 H +ATOM 4287 HB3 TYR A1099 38.137 -9.643 7.032 1.00 24.86 H +ATOM 4288 HB2 TYR A1099 36.755 -8.823 7.698 1.00 24.86 H +ATOM 4289 HD1 TYR A1099 38.320 -9.442 4.699 1.00 28.06 H +ATOM 4290 HD2 TYR A1099 34.387 -9.737 6.462 1.00 28.14 H +ATOM 4291 HE1 TYR A1099 37.296 -9.355 2.445 1.00 34.70 H +ATOM 4292 HE2 TYR A1099 33.371 -9.676 4.207 1.00 36.72 H +ATOM 4293 HH TYR A1099 35.340 -9.410 1.224 1.00 33.24 H +ATOM 4294 N MET A1100 38.113 -12.858 7.203 1.00 29.07 N +ATOM 4295 CA MET A1100 38.469 -14.167 6.649 1.00 26.40 C +ATOM 4296 C MET A1100 37.569 -15.299 7.169 1.00 26.51 C +ATOM 4297 O MET A1100 37.139 -16.116 6.359 1.00 31.13 O +ATOM 4298 CB MET A1100 39.953 -14.470 6.932 1.00 34.20 C +ATOM 4299 CG MET A1100 40.914 -13.690 6.023 1.00 49.73 C +ATOM 4300 SD MET A1100 42.629 -13.676 6.608 1.00 62.39 S +ATOM 4301 CE MET A1100 43.361 -12.596 5.352 1.00 68.44 C +ATOM 4302 H MET A1100 38.834 -12.402 7.748 1.00 29.07 H +ATOM 4303 HA MET A1100 38.329 -14.117 5.567 1.00 26.40 H +ATOM 4304 HB3 MET A1100 40.146 -15.534 6.782 1.00 34.20 H +ATOM 4305 HB2 MET A1100 40.183 -14.274 7.981 1.00 34.20 H +ATOM 4306 HG3 MET A1100 40.584 -12.659 5.911 1.00 49.73 H +ATOM 4307 HG2 MET A1100 40.897 -14.121 5.022 1.00 49.73 H +ATOM 4308 HE1 MET A1100 44.419 -12.441 5.559 1.00 68.44 H +ATOM 4309 HE2 MET A1100 43.262 -13.042 4.363 1.00 68.44 H +ATOM 4310 HE3 MET A1100 42.863 -11.627 5.347 1.00 68.44 H +ATOM 4311 N ILE A1101 37.248 -15.293 8.476 1.00 27.07 N +ATOM 4312 CA ILE A1101 36.350 -16.268 9.104 1.00 26.44 C +ATOM 4313 C ILE A1101 34.911 -16.209 8.542 1.00 21.09 C +ATOM 4314 O ILE A1101 34.313 -17.270 8.364 1.00 18.84 O +ATOM 4315 CB ILE A1101 36.329 -16.137 10.660 1.00 27.34 C +ATOM 4316 CG1 ILE A1101 37.723 -16.451 11.253 1.00 28.77 C +ATOM 4317 CG2 ILE A1101 35.265 -17.013 11.360 1.00 27.08 C +ATOM 4318 CD1 ILE A1101 37.892 -16.033 12.723 1.00 30.51 C +ATOM 4319 H ILE A1101 37.625 -14.577 9.080 1.00 27.07 H +ATOM 4320 HA ILE A1101 36.745 -17.257 8.863 1.00 26.44 H +ATOM 4321 HB ILE A1101 36.101 -15.100 10.901 1.00 27.34 H +ATOM 4322 HG13 ILE A1101 38.502 -15.962 10.671 1.00 28.77 H +ATOM 4323 HG12 ILE A1101 37.923 -17.519 11.160 1.00 28.77 H +ATOM 4324 HG21 ILE A1101 35.335 -16.948 12.446 1.00 27.08 H +ATOM 4325 HG22 ILE A1101 34.247 -16.726 11.103 1.00 27.08 H +ATOM 4326 HG23 ILE A1101 35.395 -18.057 11.079 1.00 27.08 H +ATOM 4327 HD11 ILE A1101 38.915 -15.709 12.917 1.00 30.51 H +ATOM 4328 HD12 ILE A1101 37.231 -15.210 12.992 1.00 30.51 H +ATOM 4329 HD13 ILE A1101 37.680 -16.866 13.393 1.00 30.51 H +ATOM 4330 N MET A1102 34.409 -15.001 8.215 1.00 22.66 N +ATOM 4331 CA MET A1102 33.114 -14.808 7.550 1.00 27.27 C +ATOM 4332 C MET A1102 33.070 -15.436 6.146 1.00 21.54 C +ATOM 4333 O MET A1102 32.108 -16.134 5.842 1.00 28.70 O +ATOM 4334 CB MET A1102 32.730 -13.317 7.442 1.00 24.09 C +ATOM 4335 CG MET A1102 32.768 -12.500 8.737 1.00 23.98 C +ATOM 4336 SD MET A1102 32.375 -10.754 8.444 1.00 27.19 S +ATOM 4337 CE MET A1102 33.109 -10.002 9.916 1.00 18.10 C +ATOM 4338 H MET A1102 34.962 -14.171 8.375 1.00 22.66 H +ATOM 4339 HA MET A1102 32.359 -15.302 8.166 1.00 27.27 H +ATOM 4340 HB3 MET A1102 31.717 -13.260 7.046 1.00 24.09 H +ATOM 4341 HB2 MET A1102 33.360 -12.820 6.703 1.00 24.09 H +ATOM 4342 HG3 MET A1102 33.758 -12.558 9.182 1.00 23.98 H +ATOM 4343 HG2 MET A1102 32.065 -12.904 9.465 1.00 23.98 H +ATOM 4344 HE1 MET A1102 33.100 -8.918 9.825 1.00 18.10 H +ATOM 4345 HE2 MET A1102 32.552 -10.271 10.810 1.00 18.10 H +ATOM 4346 HE3 MET A1102 34.142 -10.325 10.031 1.00 18.10 H +ATOM 4347 N THR A1103 34.106 -15.189 5.325 1.00 20.96 N +ATOM 4348 CA THR A1103 34.197 -15.686 3.946 1.00 22.68 C +ATOM 4349 C THR A1103 34.505 -17.199 3.845 1.00 21.19 C +ATOM 4350 O THR A1103 34.102 -17.807 2.854 1.00 29.38 O +ATOM 4351 CB THR A1103 35.238 -14.896 3.108 1.00 27.67 C +ATOM 4352 OG1 THR A1103 36.573 -15.160 3.497 1.00 30.65 O +ATOM 4353 CG2 THR A1103 34.987 -13.379 3.087 1.00 27.30 C +ATOM 4354 H THR A1103 34.865 -14.603 5.644 1.00 20.96 H +ATOM 4355 HA THR A1103 33.224 -15.531 3.479 1.00 22.68 H +ATOM 4356 HB THR A1103 35.160 -15.240 2.076 1.00 27.67 H +ATOM 4357 HG1 THR A1103 36.693 -14.883 4.409 1.00 30.65 H +ATOM 4358 HG21 THR A1103 35.716 -12.868 2.457 1.00 27.30 H +ATOM 4359 HG22 THR A1103 33.997 -13.155 2.688 1.00 27.30 H +ATOM 4360 HG23 THR A1103 35.045 -12.936 4.079 1.00 27.30 H +ATOM 4361 N GLU A1104 35.140 -17.791 4.874 1.00 17.46 N +ATOM 4362 CA GLU A1104 35.297 -19.243 5.024 1.00 23.43 C +ATOM 4363 C GLU A1104 33.974 -19.944 5.375 1.00 25.12 C +ATOM 4364 O GLU A1104 33.730 -21.046 4.885 1.00 19.55 O +ATOM 4365 CB GLU A1104 36.364 -19.554 6.088 1.00 23.76 C +ATOM 4366 CG GLU A1104 37.804 -19.261 5.627 1.00 33.44 C +ATOM 4367 CD GLU A1104 38.808 -19.488 6.761 1.00 42.75 C +ATOM 4368 OE1 GLU A1104 39.024 -20.670 7.106 1.00 41.87 O +ATOM 4369 OE2 GLU A1104 39.331 -18.482 7.288 1.00 50.88 O1- +ATOM 4370 H GLU A1104 35.487 -17.225 5.636 1.00 17.46 H +ATOM 4371 HA GLU A1104 35.636 -19.653 4.071 1.00 23.43 H +ATOM 4372 HB3 GLU A1104 36.294 -20.601 6.386 1.00 23.76 H +ATOM 4373 HB2 GLU A1104 36.152 -18.976 6.989 1.00 23.76 H +ATOM 4374 HG3 GLU A1104 37.894 -18.247 5.238 1.00 33.44 H +ATOM 4375 HG2 GLU A1104 38.062 -19.917 4.794 1.00 33.44 H +ATOM 4376 N CYS A1105 33.136 -19.279 6.191 1.00 20.11 N +ATOM 4377 CA CYS A1105 31.771 -19.699 6.511 1.00 21.95 C +ATOM 4378 C CYS A1105 30.840 -19.592 5.289 1.00 22.86 C +ATOM 4379 O CYS A1105 29.994 -20.467 5.102 1.00 23.72 O +ATOM 4380 CB CYS A1105 31.190 -18.886 7.680 1.00 18.28 C +ATOM 4381 SG CYS A1105 32.040 -19.310 9.223 1.00 25.02 S +ATOM 4382 H CYS A1105 33.425 -18.388 6.570 1.00 20.11 H +ATOM 4383 HA CYS A1105 31.799 -20.751 6.802 1.00 21.95 H +ATOM 4384 HB3 CYS A1105 30.128 -19.082 7.794 1.00 18.28 H +ATOM 4385 HB2 CYS A1105 31.289 -17.816 7.514 1.00 18.28 H +ATOM 4386 HG CYS A1105 33.184 -18.683 8.924 1.00 25.02 H +ATOM 4387 N TRP A1106 31.045 -18.547 4.467 1.00 19.79 N +ATOM 4388 CA TRP A1106 30.345 -18.314 3.207 1.00 19.28 C +ATOM 4389 C TRP A1106 31.074 -19.008 2.037 1.00 21.52 C +ATOM 4390 O TRP A1106 31.554 -18.336 1.125 1.00 21.81 O +ATOM 4391 CB TRP A1106 30.179 -16.801 2.961 1.00 18.06 C +ATOM 4392 CG TRP A1106 29.541 -15.951 4.020 1.00 21.90 C +ATOM 4393 CD1 TRP A1106 28.508 -16.301 4.819 1.00 18.37 C +ATOM 4394 CD2 TRP A1106 29.838 -14.555 4.335 1.00 19.45 C +ATOM 4395 NE1 TRP A1106 28.167 -15.233 5.622 1.00 19.11 N +ATOM 4396 CE2 TRP A1106 28.952 -14.126 5.369 1.00 20.71 C +ATOM 4397 CE3 TRP A1106 30.775 -13.607 3.859 1.00 16.84 C +ATOM 4398 CZ2 TRP A1106 28.996 -12.825 5.901 1.00 19.00 C +ATOM 4399 CZ3 TRP A1106 30.843 -12.307 4.400 1.00 16.07 C +ATOM 4400 CH2 TRP A1106 29.957 -11.916 5.422 1.00 15.39 C +ATOM 4401 H TRP A1106 31.749 -17.863 4.711 1.00 19.79 H +ATOM 4402 HA TRP A1106 29.347 -18.736 3.286 1.00 19.28 H +ATOM 4403 HB3 TRP A1106 29.582 -16.665 2.060 1.00 18.06 H +ATOM 4404 HB2 TRP A1106 31.156 -16.359 2.758 1.00 18.06 H +ATOM 4405 HD1 TRP A1106 28.031 -17.270 4.821 1.00 18.37 H +ATOM 4406 HE1 TRP A1106 27.420 -15.284 6.302 1.00 19.11 H +ATOM 4407 HE3 TRP A1106 31.466 -13.887 3.079 1.00 16.84 H +ATOM 4408 HZ2 TRP A1106 28.307 -12.527 6.676 1.00 19.00 H +ATOM 4409 HZ3 TRP A1106 31.578 -11.608 4.030 1.00 16.07 H +ATOM 4410 HH2 TRP A1106 30.010 -10.916 5.828 1.00 15.39 H +ATOM 4411 N ASN A1107 31.143 -20.345 2.082 1.00 22.37 N +ATOM 4412 CA ASN A1107 31.699 -21.176 1.014 1.00 18.86 C +ATOM 4413 C ASN A1107 30.542 -21.969 0.389 1.00 23.86 C +ATOM 4414 O ASN A1107 29.773 -22.575 1.131 1.00 30.46 O +ATOM 4415 CB ASN A1107 32.770 -22.120 1.614 1.00 19.55 C +ATOM 4416 CG ASN A1107 33.747 -22.701 0.584 1.00 27.42 C +ATOM 4417 OD1 ASN A1107 33.361 -23.064 -0.526 1.00 34.59 O +ATOM 4418 ND2 ASN A1107 35.022 -22.817 0.957 1.00 24.96 N +ATOM 4419 H ASN A1107 30.743 -20.835 2.870 1.00 22.37 H +ATOM 4420 HA ASN A1107 32.145 -20.592 0.206 1.00 18.86 H +ATOM 4421 HB3 ASN A1107 32.320 -22.926 2.196 1.00 19.55 H +ATOM 4422 HB2 ASN A1107 33.371 -21.543 2.318 1.00 19.55 H +ATOM 4423 HD22 ASN A1107 35.693 -23.229 0.323 1.00 24.96 H +ATOM 4424 HD21 ASN A1107 35.320 -22.522 1.876 1.00 24.96 H +ATOM 4425 N ASN A1108 30.432 -21.966 -0.952 1.00 18.35 N +ATOM 4426 CA ASN A1108 29.401 -22.716 -1.689 1.00 22.52 C +ATOM 4427 C ASN A1108 29.558 -24.243 -1.549 1.00 22.16 C +ATOM 4428 O ASN A1108 28.545 -24.942 -1.580 1.00 23.42 O +ATOM 4429 CB ASN A1108 29.399 -22.300 -3.179 1.00 19.57 C +ATOM 4430 CG ASN A1108 28.903 -20.874 -3.447 1.00 23.83 C +ATOM 4431 OD1 ASN A1108 28.331 -20.216 -2.579 1.00 22.80 O +ATOM 4432 ND2 ASN A1108 29.111 -20.391 -4.673 1.00 24.48 N +ATOM 4433 H ASN A1108 31.104 -21.459 -1.509 1.00 18.35 H +ATOM 4434 HA ASN A1108 28.445 -22.433 -1.243 1.00 22.52 H +ATOM 4435 HB3 ASN A1108 28.736 -22.962 -3.739 1.00 19.57 H +ATOM 4436 HB2 ASN A1108 30.395 -22.430 -3.608 1.00 19.57 H +ATOM 4437 HD22 ASN A1108 28.789 -19.461 -4.908 1.00 24.48 H +ATOM 4438 HD21 ASN A1108 29.582 -20.941 -5.376 1.00 24.48 H +ATOM 4439 N ASN A1109 30.797 -24.719 -1.330 1.00 22.46 N +ATOM 4440 CA ASN A1109 31.085 -26.082 -0.892 1.00 25.43 C +ATOM 4441 C ASN A1109 30.764 -26.192 0.610 1.00 24.20 C +ATOM 4442 O ASN A1109 31.374 -25.489 1.417 1.00 25.21 O +ATOM 4443 CB ASN A1109 32.563 -26.419 -1.202 1.00 28.78 C +ATOM 4444 CG ASN A1109 32.892 -27.916 -1.124 1.00 45.23 C +ATOM 4445 OD1 ASN A1109 32.585 -28.583 -0.138 1.00 41.96 O +ATOM 4446 ND2 ASN A1109 33.552 -28.450 -2.153 1.00 42.10 N +ATOM 4447 H ASN A1109 31.576 -24.076 -1.298 1.00 22.46 H +ATOM 4448 HA ASN A1109 30.449 -26.795 -1.421 1.00 25.43 H +ATOM 4449 HB3 ASN A1109 33.236 -25.861 -0.553 1.00 28.78 H +ATOM 4450 HB2 ASN A1109 32.789 -26.085 -2.216 1.00 28.78 H +ATOM 4451 HD22 ASN A1109 33.797 -29.430 -2.141 1.00 42.10 H +ATOM 4452 HD21 ASN A1109 33.810 -27.884 -2.948 1.00 42.10 H +ATOM 4453 N VAL A1110 29.803 -27.070 0.936 1.00 24.50 N +ATOM 4454 CA VAL A1110 29.277 -27.302 2.283 1.00 28.10 C +ATOM 4455 C VAL A1110 30.332 -27.867 3.258 1.00 29.50 C +ATOM 4456 O VAL A1110 30.352 -27.466 4.422 1.00 32.99 O +ATOM 4457 CB VAL A1110 28.057 -28.273 2.235 1.00 27.23 C +ATOM 4458 CG1 VAL A1110 27.457 -28.625 3.613 1.00 23.34 C +ATOM 4459 CG2 VAL A1110 26.934 -27.729 1.331 1.00 25.20 C +ATOM 4460 H VAL A1110 29.358 -27.600 0.200 1.00 24.50 H +ATOM 4461 HA VAL A1110 28.940 -26.343 2.675 1.00 28.10 H +ATOM 4462 HB VAL A1110 28.391 -29.211 1.789 1.00 27.23 H +ATOM 4463 HG11 VAL A1110 26.567 -29.246 3.506 1.00 23.34 H +ATOM 4464 HG12 VAL A1110 28.151 -29.184 4.241 1.00 23.34 H +ATOM 4465 HG13 VAL A1110 27.162 -27.724 4.149 1.00 23.34 H +ATOM 4466 HG21 VAL A1110 26.085 -28.413 1.298 1.00 25.20 H +ATOM 4467 HG22 VAL A1110 26.567 -26.772 1.697 1.00 25.20 H +ATOM 4468 HG23 VAL A1110 27.267 -27.586 0.303 1.00 25.20 H +ATOM 4469 N ASN A1111 31.190 -28.771 2.756 1.00 27.48 N +ATOM 4470 CA ASN A1111 32.198 -29.501 3.534 1.00 32.91 C +ATOM 4471 C ASN A1111 33.444 -28.659 3.866 1.00 30.56 C +ATOM 4472 O ASN A1111 34.116 -28.971 4.849 1.00 29.53 O +ATOM 4473 CB ASN A1111 32.613 -30.788 2.783 1.00 38.43 C +ATOM 4474 CG ASN A1111 31.434 -31.718 2.481 1.00 49.56 C +ATOM 4475 OD1 ASN A1111 30.841 -31.644 1.407 1.00 65.00 O +ATOM 4476 ND2 ASN A1111 31.084 -32.589 3.429 1.00 57.04 N +ATOM 4477 H ASN A1111 31.127 -29.019 1.778 1.00 27.48 H +ATOM 4478 HA ASN A1111 31.745 -29.793 4.484 1.00 32.91 H +ATOM 4479 HB3 ASN A1111 33.353 -31.342 3.364 1.00 38.43 H +ATOM 4480 HB2 ASN A1111 33.099 -30.533 1.840 1.00 38.43 H +ATOM 4481 HD22 ASN A1111 30.306 -33.213 3.276 1.00 57.04 H +ATOM 4482 HD21 ASN A1111 31.587 -32.627 4.303 1.00 57.04 H +ATOM 4483 N GLN A1112 33.730 -27.620 3.062 1.00 28.49 N +ATOM 4484 CA GLN A1112 34.870 -26.715 3.247 1.00 27.20 C +ATOM 4485 C GLN A1112 34.660 -25.630 4.323 1.00 27.56 C +ATOM 4486 O GLN A1112 35.619 -24.931 4.653 1.00 29.92 O +ATOM 4487 CB GLN A1112 35.251 -26.089 1.892 1.00 34.54 C +ATOM 4488 CG GLN A1112 35.898 -27.095 0.920 1.00 44.76 C +ATOM 4489 CD GLN A1112 36.315 -26.474 -0.418 1.00 47.81 C +ATOM 4490 OE1 GLN A1112 36.022 -25.316 -0.710 1.00 44.08 O +ATOM 4491 NE2 GLN A1112 37.001 -27.258 -1.251 1.00 51.65 N +ATOM 4492 H GLN A1112 33.126 -27.424 2.276 1.00 28.49 H +ATOM 4493 HA GLN A1112 35.722 -27.307 3.587 1.00 27.20 H +ATOM 4494 HB3 GLN A1112 35.955 -25.270 2.050 1.00 34.54 H +ATOM 4495 HB2 GLN A1112 34.364 -25.644 1.441 1.00 34.54 H +ATOM 4496 HG3 GLN A1112 35.216 -27.921 0.721 1.00 44.76 H +ATOM 4497 HG2 GLN A1112 36.784 -27.530 1.386 1.00 44.76 H +ATOM 4498 HE22 GLN A1112 37.305 -26.900 -2.144 1.00 51.65 H +ATOM 4499 HE21 GLN A1112 37.228 -28.207 -0.991 1.00 51.65 H +ATOM 4500 N ARG A1113 33.433 -25.509 4.859 1.00 24.09 N +ATOM 4501 CA ARG A1113 33.084 -24.589 5.942 1.00 19.78 C +ATOM 4502 C ARG A1113 33.679 -25.078 7.284 1.00 19.10 C +ATOM 4503 O ARG A1113 33.495 -26.253 7.610 1.00 20.22 O +ATOM 4504 CB ARG A1113 31.551 -24.513 6.045 1.00 20.23 C +ATOM 4505 CG ARG A1113 30.864 -24.015 4.768 1.00 19.49 C +ATOM 4506 CD ARG A1113 29.341 -23.959 4.927 1.00 21.71 C +ATOM 4507 NE ARG A1113 28.689 -23.742 3.630 1.00 23.35 N +ATOM 4508 CZ ARG A1113 27.451 -24.102 3.252 1.00 19.90 C +ATOM 4509 NH1 ARG A1113 26.573 -24.648 4.101 1.00 16.26 N +ATOM 4510 NH2 ARG A1113 27.093 -23.918 1.978 1.00 21.07 N1+ +ATOM 4511 H ARG A1113 32.697 -26.126 4.547 1.00 24.09 H +ATOM 4512 HA ARG A1113 33.458 -23.609 5.653 1.00 19.78 H +ATOM 4513 HB3 ARG A1113 31.280 -23.839 6.854 1.00 20.23 H +ATOM 4514 HB2 ARG A1113 31.147 -25.491 6.314 1.00 20.23 H +ATOM 4515 HG3 ARG A1113 31.150 -24.587 3.886 1.00 19.49 H +ATOM 4516 HG2 ARG A1113 31.230 -22.999 4.603 1.00 19.49 H +ATOM 4517 HD3 ARG A1113 29.081 -23.082 5.521 1.00 21.71 H +ATOM 4518 HD2 ARG A1113 28.968 -24.829 5.463 1.00 21.71 H +ATOM 4519 HE ARG A1113 29.277 -23.322 2.920 1.00 23.35 H +ATOM 4520 HH12 ARG A1113 25.657 -24.946 3.782 1.00 16.26 H +ATOM 4521 HH11 ARG A1113 26.819 -24.758 5.076 1.00 16.26 H +ATOM 4522 HH22 ARG A1113 26.177 -24.218 1.661 1.00 21.07 H +ATOM 4523 HH21 ARG A1113 27.746 -23.521 1.316 1.00 21.07 H +ATOM 4524 N PRO A1114 34.388 -24.196 8.030 1.00 23.52 N +ATOM 4525 CA PRO A1114 35.037 -24.565 9.304 1.00 29.82 C +ATOM 4526 C PRO A1114 34.016 -24.879 10.412 1.00 26.01 C +ATOM 4527 O PRO A1114 33.119 -24.070 10.648 1.00 20.55 O +ATOM 4528 CB PRO A1114 35.888 -23.328 9.640 1.00 29.86 C +ATOM 4529 CG PRO A1114 35.154 -22.163 8.994 1.00 31.16 C +ATOM 4530 CD PRO A1114 34.581 -22.776 7.725 1.00 22.06 C +ATOM 4531 HA PRO A1114 35.689 -25.429 9.159 1.00 29.82 H +ATOM 4532 HB3 PRO A1114 36.875 -23.436 9.187 1.00 29.86 H +ATOM 4533 HB2 PRO A1114 36.041 -23.182 10.711 1.00 29.86 H +ATOM 4534 HG3 PRO A1114 35.785 -21.295 8.806 1.00 31.16 H +ATOM 4535 HG2 PRO A1114 34.332 -21.846 9.637 1.00 31.16 H +ATOM 4536 HD2 PRO A1114 33.653 -22.274 7.450 1.00 22.06 H +ATOM 4537 HD3 PRO A1114 35.288 -22.689 6.900 1.00 22.06 H +ATOM 4538 N SER A1115 34.165 -26.045 11.064 1.00 21.61 N +ATOM 4539 CA SER A1115 33.296 -26.499 12.158 1.00 19.93 C +ATOM 4540 C SER A1115 33.339 -25.561 13.380 1.00 21.23 C +ATOM 4541 O SER A1115 34.346 -24.885 13.588 1.00 24.32 O +ATOM 4542 CB SER A1115 33.657 -27.958 12.522 1.00 16.09 C +ATOM 4543 OG SER A1115 34.802 -28.070 13.348 1.00 27.86 O +ATOM 4544 H SER A1115 34.937 -26.652 10.827 1.00 21.61 H +ATOM 4545 HA SER A1115 32.277 -26.494 11.766 1.00 19.93 H +ATOM 4546 HB3 SER A1115 33.801 -28.558 11.622 1.00 16.09 H +ATOM 4547 HB2 SER A1115 32.824 -28.412 13.060 1.00 16.09 H +ATOM 4548 HG SER A1115 35.587 -27.875 12.825 1.00 27.86 H +ATOM 4549 N PHE A1116 32.258 -25.557 14.178 1.00 22.37 N +ATOM 4550 CA PHE A1116 32.112 -24.723 15.379 1.00 18.46 C +ATOM 4551 C PHE A1116 33.186 -24.898 16.472 1.00 18.21 C +ATOM 4552 O PHE A1116 33.423 -23.956 17.227 1.00 16.27 O +ATOM 4553 CB PHE A1116 30.695 -24.879 15.958 1.00 18.24 C +ATOM 4554 CG PHE A1116 29.630 -24.078 15.238 1.00 18.70 C +ATOM 4555 CD1 PHE A1116 29.661 -22.670 15.307 1.00 17.81 C +ATOM 4556 CD2 PHE A1116 28.640 -24.711 14.460 1.00 15.87 C +ATOM 4557 CE1 PHE A1116 28.685 -21.924 14.666 1.00 15.76 C +ATOM 4558 CE2 PHE A1116 27.674 -23.944 13.822 1.00 13.20 C +ATOM 4559 CZ PHE A1116 27.691 -22.559 13.936 1.00 13.06 C +ATOM 4560 H PHE A1116 31.466 -26.138 13.946 1.00 22.37 H +ATOM 4561 HA PHE A1116 32.222 -23.691 15.045 1.00 18.46 H +ATOM 4562 HB3 PHE A1116 30.676 -24.535 16.990 1.00 18.24 H +ATOM 4563 HB2 PHE A1116 30.407 -25.930 15.990 1.00 18.24 H +ATOM 4564 HD1 PHE A1116 30.437 -22.172 15.867 1.00 17.81 H +ATOM 4565 HD2 PHE A1116 28.615 -25.787 14.373 1.00 15.87 H +ATOM 4566 HE1 PHE A1116 28.697 -20.848 14.749 1.00 15.76 H +ATOM 4567 HE2 PHE A1116 26.905 -24.428 13.240 1.00 13.20 H +ATOM 4568 HZ PHE A1116 26.926 -21.968 13.457 1.00 13.06 H +ATOM 4569 N ARG A1117 33.837 -26.072 16.506 1.00 22.16 N +ATOM 4570 CA ARG A1117 34.999 -26.363 17.345 1.00 25.81 C +ATOM 4571 C ARG A1117 36.243 -25.570 16.898 1.00 24.68 C +ATOM 4572 O ARG A1117 36.906 -24.966 17.738 1.00 29.79 O +ATOM 4573 CB ARG A1117 35.231 -27.887 17.321 1.00 27.96 C +ATOM 4574 CG ARG A1117 36.325 -28.394 18.283 1.00 29.79 C +ATOM 4575 CD ARG A1117 36.559 -29.913 18.193 1.00 31.29 C +ATOM 4576 NE ARG A1117 35.408 -30.689 18.693 1.00 48.22 N +ATOM 4577 CZ ARG A1117 35.212 -32.017 18.610 1.00 41.84 C +ATOM 4578 NH1 ARG A1117 36.110 -32.842 18.048 1.00 36.86 N +ATOM 4579 NH2 ARG A1117 34.077 -32.525 19.104 1.00 35.52 N1+ +ATOM 4580 H ARG A1117 33.584 -26.791 15.844 1.00 22.16 H +ATOM 4581 HA ARG A1117 34.759 -26.065 18.367 1.00 25.81 H +ATOM 4582 HB3 ARG A1117 35.480 -28.198 16.305 1.00 27.96 H +ATOM 4583 HB2 ARG A1117 34.291 -28.385 17.561 1.00 27.96 H +ATOM 4584 HG3 ARG A1117 35.991 -28.148 19.293 1.00 29.79 H +ATOM 4585 HG2 ARG A1117 37.272 -27.872 18.154 1.00 29.79 H +ATOM 4586 HD3 ARG A1117 37.497 -30.203 18.667 1.00 31.29 H +ATOM 4587 HD2 ARG A1117 36.651 -30.177 17.139 1.00 31.29 H +ATOM 4588 HE ARG A1117 34.673 -30.142 19.127 1.00 48.22 H +ATOM 4589 HH12 ARG A1117 35.937 -33.835 17.996 1.00 36.86 H +ATOM 4590 HH11 ARG A1117 36.965 -32.466 17.666 1.00 36.86 H +ATOM 4591 HH22 ARG A1117 33.889 -33.515 19.064 1.00 35.52 H +ATOM 4592 HH21 ARG A1117 33.390 -31.903 19.517 1.00 35.52 H +ATOM 4593 N ASP A1118 36.500 -25.560 15.579 1.00 21.86 N +ATOM 4594 CA ASP A1118 37.583 -24.820 14.918 1.00 22.59 C +ATOM 4595 C ASP A1118 37.383 -23.297 14.991 1.00 26.46 C +ATOM 4596 O ASP A1118 38.360 -22.575 15.182 1.00 26.18 O +ATOM 4597 CB ASP A1118 37.788 -25.237 13.437 1.00 25.89 C +ATOM 4598 CG ASP A1118 37.869 -26.748 13.157 1.00 33.04 C +ATOM 4599 OD1 ASP A1118 38.343 -27.502 14.037 1.00 31.15 O +ATOM 4600 OD2 ASP A1118 37.556 -27.118 12.003 1.00 35.17 O1- +ATOM 4601 H ASP A1118 35.894 -26.080 14.960 1.00 21.86 H +ATOM 4602 HA ASP A1118 38.504 -25.049 15.460 1.00 22.59 H +ATOM 4603 HB3 ASP A1118 38.712 -24.794 13.063 1.00 25.89 H +ATOM 4604 HB2 ASP A1118 36.975 -24.830 12.830 1.00 25.89 H +ATOM 4605 N LEU A1119 36.124 -22.841 14.862 1.00 24.88 N +ATOM 4606 CA LEU A1119 35.729 -21.435 14.975 1.00 20.30 C +ATOM 4607 C LEU A1119 35.957 -20.874 16.387 1.00 24.26 C +ATOM 4608 O LEU A1119 36.429 -19.745 16.501 1.00 22.80 O +ATOM 4609 CB LEU A1119 34.250 -21.263 14.568 1.00 19.74 C +ATOM 4610 CG LEU A1119 33.947 -21.538 13.082 1.00 22.42 C +ATOM 4611 CD1 LEU A1119 32.425 -21.648 12.844 1.00 17.85 C +ATOM 4612 CD2 LEU A1119 34.616 -20.488 12.174 1.00 22.89 C +ATOM 4613 H LEU A1119 35.380 -23.501 14.679 1.00 24.88 H +ATOM 4614 HA LEU A1119 36.357 -20.858 14.295 1.00 20.30 H +ATOM 4615 HB3 LEU A1119 33.929 -20.245 14.789 1.00 19.74 H +ATOM 4616 HB2 LEU A1119 33.638 -21.910 15.197 1.00 19.74 H +ATOM 4617 HG LEU A1119 34.373 -22.501 12.808 1.00 22.42 H +ATOM 4618 HD11 LEU A1119 32.094 -21.110 11.958 1.00 17.85 H +ATOM 4619 HD12 LEU A1119 32.129 -22.688 12.709 1.00 17.85 H +ATOM 4620 HD13 LEU A1119 31.851 -21.262 13.687 1.00 17.85 H +ATOM 4621 HD21 LEU A1119 33.938 -20.070 11.433 1.00 22.89 H +ATOM 4622 HD22 LEU A1119 35.012 -19.651 12.749 1.00 22.89 H +ATOM 4623 HD23 LEU A1119 35.452 -20.928 11.633 1.00 22.89 H +ATOM 4624 N ALA A1120 35.664 -21.678 17.426 1.00 21.75 N +ATOM 4625 CA ALA A1120 35.923 -21.343 18.826 1.00 20.39 C +ATOM 4626 C ALA A1120 37.423 -21.180 19.127 1.00 21.80 C +ATOM 4627 O ALA A1120 37.800 -20.167 19.710 1.00 21.08 O +ATOM 4628 CB ALA A1120 35.286 -22.405 19.736 1.00 19.11 C +ATOM 4629 H ALA A1120 35.270 -22.593 17.251 1.00 21.75 H +ATOM 4630 HA ALA A1120 35.435 -20.389 19.034 1.00 20.39 H +ATOM 4631 HB1 ALA A1120 35.497 -22.202 20.786 1.00 19.11 H +ATOM 4632 HB2 ALA A1120 34.203 -22.428 19.621 1.00 19.11 H +ATOM 4633 HB3 ALA A1120 35.660 -23.404 19.515 1.00 19.11 H +ATOM 4634 N LEU A1121 38.240 -22.156 18.689 1.00 18.28 N +ATOM 4635 CA LEU A1121 39.692 -22.206 18.892 1.00 22.49 C +ATOM 4636 C LEU A1121 40.455 -21.036 18.246 1.00 24.93 C +ATOM 4637 O LEU A1121 41.328 -20.465 18.900 1.00 23.65 O +ATOM 4638 CB LEU A1121 40.242 -23.548 18.357 1.00 24.01 C +ATOM 4639 CG LEU A1121 39.901 -24.778 19.226 1.00 21.27 C +ATOM 4640 CD1 LEU A1121 40.169 -26.088 18.453 1.00 20.56 C +ATOM 4641 CD2 LEU A1121 40.615 -24.737 20.596 1.00 22.91 C +ATOM 4642 H LEU A1121 37.837 -22.950 18.209 1.00 18.28 H +ATOM 4643 HA LEU A1121 39.872 -22.146 19.967 1.00 22.49 H +ATOM 4644 HB3 LEU A1121 41.327 -23.498 18.251 1.00 24.01 H +ATOM 4645 HB2 LEU A1121 39.858 -23.697 17.346 1.00 24.01 H +ATOM 4646 HG LEU A1121 38.832 -24.751 19.432 1.00 21.27 H +ATOM 4647 HD11 LEU A1121 40.865 -26.753 18.964 1.00 20.56 H +ATOM 4648 HD12 LEU A1121 39.243 -26.644 18.311 1.00 20.56 H +ATOM 4649 HD13 LEU A1121 40.582 -25.904 17.461 1.00 20.56 H +ATOM 4650 HD21 LEU A1121 41.171 -25.648 20.815 1.00 22.91 H +ATOM 4651 HD22 LEU A1121 41.325 -23.912 20.664 1.00 22.91 H +ATOM 4652 HD23 LEU A1121 39.892 -24.605 21.401 1.00 22.91 H +ATOM 4653 N ARG A1122 40.120 -20.701 16.988 1.00 21.59 N +ATOM 4654 CA ARG A1122 40.774 -19.627 16.236 1.00 26.13 C +ATOM 4655 C ARG A1122 40.377 -18.223 16.716 1.00 24.19 C +ATOM 4656 O ARG A1122 41.224 -17.333 16.675 1.00 24.30 O +ATOM 4657 CB ARG A1122 40.521 -19.797 14.727 1.00 32.06 C +ATOM 4658 CG ARG A1122 41.143 -21.090 14.158 1.00 30.40 C +ATOM 4659 CD ARG A1122 41.139 -21.189 12.624 1.00 49.07 C +ATOM 4660 NE ARG A1122 39.794 -21.049 12.034 1.00 46.13 N +ATOM 4661 CZ ARG A1122 39.471 -20.444 10.874 1.00 39.63 C +ATOM 4662 NH1 ARG A1122 40.383 -19.834 10.101 1.00 32.24 N +ATOM 4663 NH2 ARG A1122 38.196 -20.453 10.469 1.00 41.18 N1+ +ATOM 4664 H ARG A1122 39.395 -21.217 16.505 1.00 21.59 H +ATOM 4665 HA ARG A1122 41.850 -19.716 16.396 1.00 26.13 H +ATOM 4666 HB3 ARG A1122 40.947 -18.947 14.191 1.00 32.06 H +ATOM 4667 HB2 ARG A1122 39.447 -19.773 14.534 1.00 32.06 H +ATOM 4668 HG3 ARG A1122 40.773 -22.004 14.620 1.00 30.40 H +ATOM 4669 HG2 ARG A1122 42.194 -21.042 14.445 1.00 30.40 H +ATOM 4670 HD3 ARG A1122 41.413 -22.213 12.367 1.00 49.07 H +ATOM 4671 HD2 ARG A1122 41.911 -20.557 12.184 1.00 49.07 H +ATOM 4672 HE ARG A1122 39.051 -21.482 12.563 1.00 46.13 H +ATOM 4673 HH12 ARG A1122 40.111 -19.436 9.207 1.00 32.24 H +ATOM 4674 HH11 ARG A1122 41.352 -19.807 10.379 1.00 32.24 H +ATOM 4675 HH22 ARG A1122 37.958 -20.055 9.570 1.00 41.18 H +ATOM 4676 HH21 ARG A1122 37.481 -20.906 11.018 1.00 41.18 H +ATOM 4677 N VAL A1123 39.136 -18.052 17.204 1.00 22.00 N +ATOM 4678 CA VAL A1123 38.672 -16.803 17.815 1.00 24.05 C +ATOM 4679 C VAL A1123 39.303 -16.567 19.205 1.00 24.26 C +ATOM 4680 O VAL A1123 39.636 -15.422 19.505 1.00 23.16 O +ATOM 4681 CB VAL A1123 37.118 -16.740 17.878 1.00 22.18 C +ATOM 4682 CG1 VAL A1123 36.531 -15.627 18.767 1.00 20.72 C +ATOM 4683 CG2 VAL A1123 36.540 -16.584 16.457 1.00 20.68 C +ATOM 4684 H VAL A1123 38.484 -18.824 17.210 1.00 22.00 H +ATOM 4685 HA VAL A1123 39.003 -15.982 17.176 1.00 24.05 H +ATOM 4686 HB VAL A1123 36.762 -17.691 18.279 1.00 22.18 H +ATOM 4687 HG11 VAL A1123 35.442 -15.638 18.727 1.00 20.72 H +ATOM 4688 HG12 VAL A1123 36.809 -15.735 19.814 1.00 20.72 H +ATOM 4689 HG13 VAL A1123 36.864 -14.644 18.435 1.00 20.72 H +ATOM 4690 HG21 VAL A1123 35.457 -16.703 16.457 1.00 20.68 H +ATOM 4691 HG22 VAL A1123 36.768 -15.600 16.045 1.00 20.68 H +ATOM 4692 HG23 VAL A1123 36.944 -17.323 15.767 1.00 20.68 H +ATOM 4693 N ASP A1124 39.525 -17.639 19.991 1.00 24.31 N +ATOM 4694 CA ASP A1124 40.293 -17.608 21.246 1.00 24.27 C +ATOM 4695 C ASP A1124 41.766 -17.230 21.040 1.00 29.79 C +ATOM 4696 O ASP A1124 42.282 -16.437 21.824 1.00 28.09 O +ATOM 4697 CB ASP A1124 40.199 -18.918 22.070 1.00 26.77 C +ATOM 4698 CG ASP A1124 38.805 -19.284 22.602 1.00 30.30 C +ATOM 4699 OD1 ASP A1124 37.963 -18.373 22.767 1.00 26.62 O +ATOM 4700 OD2 ASP A1124 38.638 -20.467 22.976 1.00 29.33 O1- +ATOM 4701 H ASP A1124 39.200 -18.550 19.695 1.00 24.31 H +ATOM 4702 HA ASP A1124 39.873 -16.803 21.849 1.00 24.27 H +ATOM 4703 HB3 ASP A1124 40.871 -18.865 22.928 1.00 26.77 H +ATOM 4704 HB2 ASP A1124 40.547 -19.748 21.453 1.00 26.77 H +ATOM 4705 N GLN A1125 42.398 -17.750 19.974 1.00 31.99 N +ATOM 4706 CA GLN A1125 43.749 -17.367 19.558 1.00 34.98 C +ATOM 4707 C GLN A1125 43.886 -15.893 19.148 1.00 29.69 C +ATOM 4708 O GLN A1125 44.916 -15.295 19.447 1.00 22.53 O +ATOM 4709 CB GLN A1125 44.249 -18.309 18.438 1.00 37.45 C +ATOM 4710 CG GLN A1125 45.023 -19.541 18.950 1.00 58.03 C +ATOM 4711 CD GLN A1125 46.428 -19.263 19.512 1.00 52.21 C +ATOM 4712 OE1 GLN A1125 47.098 -20.194 19.950 1.00 39.27 O +ATOM 4713 NE2 GLN A1125 46.901 -18.012 19.503 1.00 54.44 N +ATOM 4714 H GLN A1125 41.920 -18.421 19.388 1.00 31.99 H +ATOM 4715 HA GLN A1125 44.383 -17.494 20.438 1.00 34.98 H +ATOM 4716 HB3 GLN A1125 44.875 -17.774 17.722 1.00 37.45 H +ATOM 4717 HB2 GLN A1125 43.397 -18.651 17.852 1.00 37.45 H +ATOM 4718 HG3 GLN A1125 45.138 -20.248 18.128 1.00 58.03 H +ATOM 4719 HG2 GLN A1125 44.436 -20.054 19.713 1.00 58.03 H +ATOM 4720 HE22 GLN A1125 47.821 -17.817 19.870 1.00 54.44 H +ATOM 4721 HE21 GLN A1125 46.338 -17.247 19.159 1.00 54.44 H +ATOM 4722 N ILE A1126 42.849 -15.335 18.502 1.00 26.22 N +ATOM 4723 CA ILE A1126 42.793 -13.930 18.093 1.00 28.17 C +ATOM 4724 C ILE A1126 42.552 -12.966 19.277 1.00 34.56 C +ATOM 4725 O ILE A1126 43.084 -11.857 19.253 1.00 38.88 O +ATOM 4726 CB ILE A1126 41.749 -13.718 16.956 1.00 30.04 C +ATOM 4727 CG1 ILE A1126 42.254 -14.394 15.658 1.00 27.73 C +ATOM 4728 CG2 ILE A1126 41.390 -12.244 16.670 1.00 34.45 C +ATOM 4729 CD1 ILE A1126 41.166 -14.650 14.606 1.00 26.50 C +ATOM 4730 H ILE A1126 42.044 -15.901 18.271 1.00 26.22 H +ATOM 4731 HA ILE A1126 43.770 -13.671 17.683 1.00 28.17 H +ATOM 4732 HB ILE A1126 40.829 -14.224 17.254 1.00 30.04 H +ATOM 4733 HG13 ILE A1126 42.733 -15.346 15.880 1.00 27.73 H +ATOM 4734 HG12 ILE A1126 43.040 -13.782 15.220 1.00 27.73 H +ATOM 4735 HG21 ILE A1126 40.776 -12.141 15.778 1.00 34.45 H +ATOM 4736 HG22 ILE A1126 40.837 -11.791 17.493 1.00 34.45 H +ATOM 4737 HG23 ILE A1126 42.293 -11.655 16.514 1.00 34.45 H +ATOM 4738 HD11 ILE A1126 41.425 -15.507 13.983 1.00 26.50 H +ATOM 4739 HD12 ILE A1126 40.199 -14.860 15.064 1.00 26.50 H +ATOM 4740 HD13 ILE A1126 41.052 -13.791 13.945 1.00 26.50 H +ATOM 4741 N ARG A1127 41.836 -13.421 20.322 1.00 32.72 N +ATOM 4742 CA ARG A1127 41.713 -12.716 21.604 1.00 36.98 C +ATOM 4743 C ARG A1127 43.046 -12.666 22.377 1.00 47.34 C +ATOM 4744 O ARG A1127 43.292 -11.670 23.055 1.00 44.74 O +ATOM 4745 CB ARG A1127 40.618 -13.378 22.463 1.00 38.34 C +ATOM 4746 CG ARG A1127 39.195 -13.222 21.893 1.00 43.67 C +ATOM 4747 CD ARG A1127 38.160 -14.133 22.576 1.00 39.55 C +ATOM 4748 NE ARG A1127 37.855 -13.715 23.958 1.00 38.89 N +ATOM 4749 CZ ARG A1127 37.270 -14.449 24.924 1.00 43.48 C +ATOM 4750 NH1 ARG A1127 36.887 -15.721 24.729 1.00 38.90 N +ATOM 4751 NH2 ARG A1127 37.065 -13.892 26.124 1.00 43.65 N1+ +ATOM 4752 H ARG A1127 41.427 -14.345 20.278 1.00 32.72 H +ATOM 4753 HA ARG A1127 41.415 -11.685 21.402 1.00 36.98 H +ATOM 4754 HB3 ARG A1127 40.635 -12.950 23.466 1.00 38.34 H +ATOM 4755 HB2 ARG A1127 40.852 -14.434 22.593 1.00 38.34 H +ATOM 4756 HG3 ARG A1127 39.147 -13.341 20.812 1.00 43.67 H +ATOM 4757 HG2 ARG A1127 38.914 -12.181 22.065 1.00 43.67 H +ATOM 4758 HD3 ARG A1127 38.607 -15.120 22.672 1.00 39.55 H +ATOM 4759 HD2 ARG A1127 37.270 -14.271 21.965 1.00 39.55 H +ATOM 4760 HE ARG A1127 38.125 -12.768 24.183 1.00 38.89 H +ATOM 4761 HH12 ARG A1127 36.450 -16.247 25.471 1.00 38.90 H +ATOM 4762 HH11 ARG A1127 37.089 -16.181 23.851 1.00 38.90 H +ATOM 4763 HH22 ARG A1127 36.628 -14.418 26.867 1.00 43.65 H +ATOM 4764 HH21 ARG A1127 37.349 -12.939 26.301 1.00 43.65 H +ATOM 4765 N ASP A1128 43.882 -13.712 22.236 1.00 44.50 N +ATOM 4766 CA ASP A1128 45.241 -13.788 22.789 1.00 49.25 C +ATOM 4767 C ASP A1128 46.244 -12.900 22.029 1.00 43.54 C +ATOM 4768 O ASP A1128 47.162 -12.378 22.660 1.00 50.13 O +ATOM 4769 CB ASP A1128 45.790 -15.237 22.877 1.00 47.20 C +ATOM 4770 CG ASP A1128 44.939 -16.255 23.659 1.00 66.99 C +ATOM 4771 OD1 ASP A1128 44.173 -15.841 24.560 1.00 59.50 O +ATOM 4772 OD2 ASP A1128 45.170 -17.463 23.429 1.00 56.52 O1- +ATOM 4773 H ASP A1128 43.583 -14.510 21.695 1.00 44.50 H +ATOM 4774 HA ASP A1128 45.199 -13.395 23.807 1.00 49.25 H +ATOM 4775 HB3 ASP A1128 46.775 -15.220 23.345 1.00 47.20 H +ATOM 4776 HB2 ASP A1128 45.929 -15.630 21.868 1.00 47.20 H +ATOM 4777 N ASN A1129 46.050 -12.727 20.707 1.00 35.55 N +ATOM 4778 CA ASN A1129 46.847 -11.830 19.856 1.00 38.98 C +ATOM 4779 C ASN A1129 46.574 -10.347 20.171 1.00 49.76 C +ATOM 4780 O ASN A1129 47.510 -9.547 20.141 1.00 53.04 O +ATOM 4781 CB ASN A1129 46.566 -12.101 18.357 1.00 35.23 C +ATOM 4782 CG ASN A1129 46.994 -13.482 17.843 1.00 33.10 C +ATOM 4783 OD1 ASN A1129 47.761 -14.199 18.482 1.00 29.75 O +ATOM 4784 ND2 ASN A1129 46.498 -13.854 16.660 1.00 31.63 N +ATOM 4785 H ASN A1129 45.296 -13.220 20.249 1.00 35.55 H +ATOM 4786 HA ASN A1129 47.900 -12.036 20.059 1.00 38.98 H +ATOM 4787 HB3 ASN A1129 47.099 -11.368 17.749 1.00 35.23 H +ATOM 4788 HB2 ASN A1129 45.507 -11.955 18.143 1.00 35.23 H +ATOM 4789 HD22 ASN A1129 46.747 -14.750 16.269 1.00 31.63 H +ATOM 4790 HD21 ASN A1129 45.883 -13.242 16.141 1.00 31.63 H +ATOM 4791 N MET A1130 45.308 -10.016 20.478 1.00 47.50 N +ATOM 4792 CA MET A1130 44.867 -8.688 20.905 1.00 49.20 C +ATOM 4793 C MET A1130 45.210 -8.420 22.382 1.00 42.60 C +ATOM 4794 O MET A1130 45.326 -9.357 23.174 1.00 51.03 O +ATOM 4795 CB MET A1130 43.349 -8.564 20.664 1.00 48.95 C +ATOM 4796 CG MET A1130 42.962 -8.513 19.179 1.00 49.70 C +ATOM 4797 SD MET A1130 41.172 -8.460 18.898 1.00 58.28 S +ATOM 4798 CE MET A1130 41.157 -8.371 17.089 1.00 50.27 C +ATOM 4799 H MET A1130 44.597 -10.735 20.471 1.00 47.50 H +ATOM 4800 HA MET A1130 45.379 -7.938 20.299 1.00 49.20 H +ATOM 4801 HB3 MET A1130 42.982 -7.650 21.131 1.00 48.95 H +ATOM 4802 HB2 MET A1130 42.824 -9.386 21.154 1.00 48.95 H +ATOM 4803 HG3 MET A1130 43.366 -9.371 18.642 1.00 49.70 H +ATOM 4804 HG2 MET A1130 43.402 -7.629 18.717 1.00 49.70 H +ATOM 4805 HE1 MET A1130 40.133 -8.310 16.725 1.00 50.27 H +ATOM 4806 HE2 MET A1130 41.698 -7.490 16.744 1.00 50.27 H +ATOM 4807 HE3 MET A1130 41.624 -9.256 16.660 1.00 50.27 H +ATOM 4808 N NMA A1130A 45.344 -7.130 22.721 1.00 0.00 N +ATOM 4809 CA NMA A1130A 45.655 -6.688 24.073 1.00 0.00 C +ATOM 4810 H NMA A1130A 45.221 -6.415 22.019 1.00 0.00 H +ATOM 4811 HA1 NMA A1130A 46.011 -5.658 24.053 1.00 0.00 H +ATOM 4812 HA2 NMA A1130A 44.765 -6.729 24.701 1.00 0.00 H +ATOM 4813 HA3 NMA A1130A 46.431 -7.304 24.530 1.00 0.00 H +TER 4814 NMA A1130A +CONECT 1 4 5 6 +CONECT 2814 2795 2815 2826 +CONECT 2815 2814 2816 2818 2827 +CONECT 2816 2815 2817 2835 +CONECT 2816 2817 +CONECT 2817 2816 +CONECT 2817 2816 +CONECT 2818 2815 2819 2828 2829 +CONECT 2819 2818 2820 2821 +CONECT 2819 2820 +CONECT 2820 2819 2822 2830 +CONECT 2820 2819 +CONECT 2821 2819 2823 2831 +CONECT 2821 2823 +CONECT 2822 2820 2824 2832 +CONECT 2822 2824 +CONECT 2823 2821 2824 2833 +CONECT 2823 2821 +CONECT 2824 2822 2823 2825 +CONECT 2824 2822 +CONECT 2825 2824 2834 +CONECT 4793 4808 +CONECT 4808 4793 +CONECT 4809 4811 4812 4813 +CONECT 4 1 +CONECT 5 1 +CONECT 6 1 +CONECT 2826 2814 +CONECT 2827 2815 +CONECT 2828 2818 +CONECT 2829 2818 +CONECT 2830 2820 +CONECT 2831 2821 +CONECT 2832 2822 +CONECT 2833 2823 +CONECT 2834 2825 +CONECT 4811 4809 +CONECT 4812 4809 +CONECT 4813 4809 +END diff --git a/examples/RSFE/TYK2-JAK2/receptor/TYK2.pdb b/examples/RSFE/TYK2-JAK2/receptor/TYK2.pdb new file mode 100644 index 0000000..aa6df63 --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/receptor/TYK2.pdb @@ -0,0 +1,4664 @@ +TITLE 4GJ2_TYK2 - prepared +REMARK 4 4GJ2_ COMPLIES WITH FORMAT V. 3.0, 1-DEC-2006 +REMARK 888 +REMARK 888 WRITTEN BY MAESTRO (A PRODUCT OF SCHRODINGER, LLC) +ATOM 1 CH3 ACE A 889 10.056 -31.098 35.451 1.00 0.00 C +ATOM 2 C ACE A 889 9.479 -30.102 36.452 1.00 0.00 C +ATOM 3 O ACE A 889 8.415 -30.352 37.018 1.00 0.00 O +ATOM 4 1H ACE A 889 9.334 -31.294 34.658 1.00 0.00 H +ATOM 5 2H ACE A 889 10.972 -30.724 34.994 1.00 0.00 H +ATOM 6 3H ACE A 889 10.282 -32.041 35.949 1.00 0.00 H +ATOM 7 N THR A 890 10.190 -28.982 36.663 1.00 64.14 N +ATOM 8 CA THR A 890 9.811 -27.888 37.564 1.00 62.60 C +ATOM 9 C THR A 890 8.516 -27.188 37.105 1.00 63.85 C +ATOM 10 O THR A 890 8.428 -26.789 35.942 1.00 62.74 O +ATOM 11 CB THR A 890 10.935 -26.818 37.625 1.00 72.07 C +ATOM 12 OG1 THR A 890 12.133 -27.424 38.067 1.00 74.08 O +ATOM 13 CG2 THR A 890 10.654 -25.607 38.536 1.00 70.41 C +ATOM 14 H1 THR A 890 11.068 -28.854 36.182 1.00 64.14 H +ATOM 15 HA THR A 890 9.662 -28.308 38.561 1.00 62.60 H +ATOM 16 HB THR A 890 11.131 -26.450 36.618 1.00 72.07 H +ATOM 17 HG1 THR A 890 12.795 -26.739 38.189 1.00 74.08 H +ATOM 18 HG21 THR A 890 11.517 -24.942 38.583 1.00 70.41 H +ATOM 19 HG22 THR A 890 9.816 -25.009 38.176 1.00 70.41 H +ATOM 20 HG23 THR A 890 10.422 -25.923 39.553 1.00 70.41 H +ATOM 21 N VAL A 891 7.550 -27.055 38.030 1.00 58.94 N +ATOM 22 CA VAL A 891 6.251 -26.435 37.772 1.00 56.79 C +ATOM 23 C VAL A 891 6.187 -25.009 38.357 1.00 57.22 C +ATOM 24 O VAL A 891 6.642 -24.772 39.477 1.00 57.56 O +ATOM 25 CB VAL A 891 5.080 -27.304 38.321 1.00 62.11 C +ATOM 26 CG1 VAL A 891 5.046 -27.456 39.855 1.00 63.68 C +ATOM 27 CG2 VAL A 891 3.704 -26.830 37.809 1.00 60.86 C +ATOM 28 H VAL A 891 7.700 -27.397 38.968 1.00 58.94 H +ATOM 29 HA VAL A 891 6.103 -26.374 36.696 1.00 56.79 H +ATOM 30 HB VAL A 891 5.230 -28.305 37.914 1.00 62.11 H +ATOM 31 HG11 VAL A 891 4.289 -28.182 40.154 1.00 63.68 H +ATOM 32 HG12 VAL A 891 6.002 -27.808 40.243 1.00 63.68 H +ATOM 33 HG13 VAL A 891 4.804 -26.519 40.357 1.00 63.68 H +ATOM 34 HG21 VAL A 891 2.919 -27.532 38.094 1.00 60.86 H +ATOM 35 HG22 VAL A 891 3.429 -25.857 38.215 1.00 60.86 H +ATOM 36 HG23 VAL A 891 3.691 -26.753 36.722 1.00 60.86 H +ATOM 37 N PHE A 892 5.603 -24.100 37.564 1.00 50.51 N +ATOM 38 CA PHE A 892 5.295 -22.714 37.908 1.00 48.72 C +ATOM 39 C PHE A 892 3.770 -22.534 37.942 1.00 53.55 C +ATOM 40 O PHE A 892 3.073 -23.123 37.116 1.00 53.58 O +ATOM 41 CB PHE A 892 5.931 -21.781 36.854 1.00 48.19 C +ATOM 42 CG PHE A 892 7.414 -21.510 37.037 1.00 48.42 C +ATOM 43 CD1 PHE A 892 7.844 -20.306 37.633 1.00 49.91 C +ATOM 44 CD2 PHE A 892 8.372 -22.499 36.730 1.00 50.39 C +ATOM 45 CE1 PHE A 892 9.193 -20.087 37.875 1.00 50.46 C +ATOM 46 CE2 PHE A 892 9.715 -22.264 36.990 1.00 52.75 C +ATOM 47 CZ PHE A 892 10.126 -21.064 37.555 1.00 49.98 C +ATOM 48 H PHE A 892 5.280 -24.396 36.652 1.00 50.51 H +ATOM 49 HA PHE A 892 5.688 -22.460 38.894 1.00 48.72 H +ATOM 50 HB3 PHE A 892 5.412 -20.820 36.829 1.00 48.19 H +ATOM 51 HB2 PHE A 892 5.798 -22.215 35.863 1.00 48.19 H +ATOM 52 HD1 PHE A 892 7.125 -19.545 37.888 1.00 49.91 H +ATOM 53 HD2 PHE A 892 8.065 -23.443 36.302 1.00 50.39 H +ATOM 54 HE1 PHE A 892 9.517 -19.156 38.318 1.00 50.46 H +ATOM 55 HE2 PHE A 892 10.444 -23.024 36.767 1.00 52.75 H +ATOM 56 HZ PHE A 892 11.173 -20.894 37.755 1.00 49.98 H +ATOM 57 N HIS A 893 3.278 -21.714 38.883 1.00 50.56 N +ATOM 58 CA HIS A 893 1.850 -21.433 39.043 1.00 50.84 C +ATOM 59 C HIS A 893 1.506 -20.058 38.453 1.00 53.71 C +ATOM 60 O HIS A 893 2.179 -19.072 38.758 1.00 52.93 O +ATOM 61 CB HIS A 893 1.465 -21.507 40.529 1.00 53.47 C +ATOM 62 CG HIS A 893 1.816 -22.804 41.213 1.00 58.42 C +ATOM 63 ND1 HIS A 893 1.068 -23.972 41.031 1.00 61.15 N +ATOM 64 CD2 HIS A 893 2.854 -23.071 42.082 1.00 61.04 C +ATOM 65 CE1 HIS A 893 1.689 -24.892 41.759 1.00 62.10 C +ATOM 66 NE2 HIS A 893 2.751 -24.412 42.406 1.00 62.48 N +ATOM 67 H HIS A 893 3.903 -21.261 39.534 1.00 50.56 H +ATOM 68 HA HIS A 893 1.259 -22.191 38.524 1.00 50.84 H +ATOM 69 HB3 HIS A 893 0.389 -21.383 40.618 1.00 53.47 H +ATOM 70 HB2 HIS A 893 1.922 -20.688 41.082 1.00 53.47 H +ATOM 71 HD2 HIS A 893 3.638 -22.441 42.473 1.00 61.04 H +ATOM 72 HE1 HIS A 893 1.364 -25.920 41.825 1.00 62.10 H +ATOM 73 HE2 HIS A 893 3.373 -24.929 43.017 1.00 62.48 H +ATOM 74 N LYS A 894 0.441 -20.021 37.634 1.00 50.31 N +ATOM 75 CA LYS A 894 -0.030 -18.836 36.908 1.00 49.60 C +ATOM 76 C LYS A 894 -0.526 -17.698 37.827 1.00 54.19 C +ATOM 77 O LYS A 894 -0.383 -16.529 37.476 1.00 53.47 O +ATOM 78 CB LYS A 894 -1.124 -19.290 35.914 1.00 52.67 C +ATOM 79 CG LYS A 894 -1.569 -18.244 34.874 1.00 67.72 C +ATOM 80 CD LYS A 894 -0.431 -17.794 33.937 1.00 75.68 C +ATOM 81 CE LYS A 894 -0.880 -16.897 32.771 1.00 83.10 C +ATOM 82 NZ LYS A 894 -1.705 -17.622 31.787 1.00 90.86 N1+ +ATOM 83 H LYS A 894 -0.057 -20.878 37.439 1.00 50.31 H +ATOM 84 HA LYS A 894 0.825 -18.455 36.349 1.00 49.60 H +ATOM 85 HB3 LYS A 894 -1.997 -19.635 36.470 1.00 52.67 H +ATOM 86 HB2 LYS A 894 -0.769 -20.163 35.365 1.00 52.67 H +ATOM 87 HG3 LYS A 894 -2.001 -17.376 35.372 1.00 67.72 H +ATOM 88 HG2 LYS A 894 -2.380 -18.681 34.291 1.00 67.72 H +ATOM 89 HD3 LYS A 894 0.103 -18.666 33.557 1.00 75.68 H +ATOM 90 HD2 LYS A 894 0.301 -17.230 34.515 1.00 75.68 H +ATOM 91 HE3 LYS A 894 -0.004 -16.508 32.251 1.00 83.10 H +ATOM 92 HE2 LYS A 894 -1.437 -16.038 33.145 1.00 83.10 H +ATOM 93 HZ1 LYS A 894 -2.535 -17.983 32.234 1.00 90.86 H +ATOM 94 HZ2 LYS A 894 -1.975 -17.003 31.036 1.00 90.86 H +ATOM 95 HZ3 LYS A 894 -1.182 -18.396 31.399 1.00 90.86 H +ATOM 96 N ARG A 895 -1.062 -18.078 38.998 1.00 52.00 N +ATOM 97 CA ARG A 895 -1.534 -17.215 40.087 1.00 52.72 C +ATOM 98 C ARG A 895 -0.433 -16.376 40.772 1.00 55.66 C +ATOM 99 O ARG A 895 -0.771 -15.390 41.427 1.00 55.91 O +ATOM 100 CB ARG A 895 -2.289 -18.111 41.098 1.00 55.32 C +ATOM 101 CG ARG A 895 -1.428 -19.195 41.786 1.00 66.84 C +ATOM 102 CD ARG A 895 -2.245 -20.427 42.211 1.00 77.14 C +ATOM 103 NE ARG A 895 -1.416 -21.440 42.890 1.00 84.73 N +ATOM 104 CZ ARG A 895 -1.363 -21.739 44.201 1.00101.01 C +ATOM 105 NH1 ARG A 895 -2.122 -21.112 45.112 1.00 91.00 N +ATOM 106 NH2 ARG A 895 -0.523 -22.702 44.602 1.00 87.92 N1+ +ATOM 107 H ARG A 895 -1.132 -19.068 39.181 1.00 52.00 H +ATOM 108 HA ARG A 895 -2.249 -16.513 39.655 1.00 52.72 H +ATOM 109 HB3 ARG A 895 -3.111 -18.594 40.568 1.00 55.32 H +ATOM 110 HB2 ARG A 895 -2.762 -17.493 41.862 1.00 55.32 H +ATOM 111 HG3 ARG A 895 -0.835 -18.796 42.610 1.00 66.84 H +ATOM 112 HG2 ARG A 895 -0.700 -19.534 41.054 1.00 66.84 H +ATOM 113 HD3 ARG A 895 -2.583 -20.931 41.304 1.00 77.14 H +ATOM 114 HD2 ARG A 895 -3.153 -20.155 42.750 1.00 77.14 H +ATOM 115 HE ARG A 895 -0.813 -21.970 42.276 1.00 84.73 H +ATOM 116 HH12 ARG A 895 -2.061 -21.357 46.090 1.00 91.00 H +ATOM 117 HH11 ARG A 895 -2.763 -20.388 44.821 1.00 91.00 H +ATOM 118 HH22 ARG A 895 -0.443 -22.937 45.580 1.00 87.92 H +ATOM 119 HH21 ARG A 895 0.055 -23.188 43.930 1.00 87.92 H +ATOM 120 N TYR A 896 0.843 -16.766 40.612 1.00 50.71 N +ATOM 121 CA TYR A 896 2.001 -16.066 41.176 1.00 49.93 C +ATOM 122 C TYR A 896 2.798 -15.277 40.122 1.00 50.48 C +ATOM 123 O TYR A 896 3.647 -14.480 40.518 1.00 49.72 O +ATOM 124 CB TYR A 896 2.904 -17.085 41.897 1.00 51.97 C +ATOM 125 CG TYR A 896 2.284 -17.865 43.049 1.00 55.91 C +ATOM 126 CD1 TYR A 896 1.356 -17.265 43.930 1.00 59.64 C +ATOM 127 CD2 TYR A 896 2.687 -19.197 43.274 1.00 57.24 C +ATOM 128 CE1 TYR A 896 0.851 -17.986 45.028 1.00 62.94 C +ATOM 129 CE2 TYR A 896 2.171 -19.923 44.365 1.00 60.34 C +ATOM 130 CZ TYR A 896 1.263 -19.313 45.250 1.00 70.40 C +ATOM 131 OH TYR A 896 0.795 -20.002 46.330 1.00 74.35 O +ATOM 132 H TYR A 896 1.047 -17.588 40.061 1.00 50.71 H +ATOM 133 HA TYR A 896 1.677 -15.325 41.904 1.00 49.93 H +ATOM 134 HB3 TYR A 896 3.791 -16.586 42.290 1.00 51.97 H +ATOM 135 HB2 TYR A 896 3.261 -17.802 41.162 1.00 51.97 H +ATOM 136 HD1 TYR A 896 1.041 -16.242 43.794 1.00 59.64 H +ATOM 137 HD2 TYR A 896 3.409 -19.665 42.620 1.00 57.24 H +ATOM 138 HE1 TYR A 896 0.156 -17.510 45.705 1.00 62.94 H +ATOM 139 HE2 TYR A 896 2.493 -20.941 44.533 1.00 60.34 H +ATOM 140 HH TYR A 896 0.258 -19.461 46.914 1.00 74.35 H +ATOM 141 N LEU A 897 2.512 -15.479 38.824 1.00 44.96 N +ATOM 142 CA LEU A 897 3.127 -14.756 37.710 1.00 42.86 C +ATOM 143 C LEU A 897 2.438 -13.391 37.510 1.00 45.67 C +ATOM 144 O LEU A 897 1.359 -13.337 36.919 1.00 45.64 O +ATOM 145 CB LEU A 897 3.035 -15.628 36.431 1.00 42.11 C +ATOM 146 CG LEU A 897 3.972 -16.855 36.374 1.00 46.49 C +ATOM 147 CD1 LEU A 897 3.558 -17.842 35.265 1.00 47.43 C +ATOM 148 CD2 LEU A 897 5.457 -16.464 36.231 1.00 46.18 C +ATOM 149 H LEU A 897 1.785 -16.133 38.573 1.00 44.96 H +ATOM 150 HA LEU A 897 4.175 -14.565 37.942 1.00 42.86 H +ATOM 151 HB3 LEU A 897 3.241 -15.023 35.551 1.00 42.11 H +ATOM 152 HB2 LEU A 897 2.002 -15.961 36.315 1.00 42.11 H +ATOM 153 HG LEU A 897 3.857 -17.388 37.318 1.00 46.49 H +ATOM 154 HD11 LEU A 897 3.243 -18.789 35.703 1.00 47.43 H +ATOM 155 HD12 LEU A 897 2.730 -17.468 34.663 1.00 47.43 H +ATOM 156 HD13 LEU A 897 4.375 -18.068 34.578 1.00 47.43 H +ATOM 157 HD21 LEU A 897 6.101 -17.255 36.617 1.00 46.18 H +ATOM 158 HD22 LEU A 897 5.731 -16.302 35.189 1.00 46.18 H +ATOM 159 HD23 LEU A 897 5.712 -15.551 36.766 1.00 46.18 H +ATOM 160 N LYS A 898 3.088 -12.316 37.989 1.00 41.12 N +ATOM 161 CA LYS A 898 2.677 -10.923 37.786 1.00 40.81 C +ATOM 162 C LYS A 898 3.371 -10.368 36.531 1.00 43.06 C +ATOM 163 O LYS A 898 4.592 -10.228 36.550 1.00 42.63 O +ATOM 164 CB LYS A 898 3.068 -10.074 39.021 1.00 44.72 C +ATOM 165 CG LYS A 898 2.148 -10.194 40.251 1.00 65.77 C +ATOM 166 CD LYS A 898 2.236 -11.524 41.017 1.00 78.10 C +ATOM 167 CE LYS A 898 1.536 -11.436 42.385 1.00 91.16 C +ATOM 168 NZ LYS A 898 1.563 -12.716 43.114 1.00101.15 N1+ +ATOM 169 H LYS A 898 3.966 -12.444 38.476 1.00 41.12 H +ATOM 170 HA LYS A 898 1.595 -10.866 37.653 1.00 40.81 H +ATOM 171 HB3 LYS A 898 3.029 -9.023 38.731 1.00 44.72 H +ATOM 172 HB2 LYS A 898 4.106 -10.254 39.305 1.00 44.72 H +ATOM 173 HG3 LYS A 898 1.115 -10.014 39.952 1.00 65.77 H +ATOM 174 HG2 LYS A 898 2.402 -9.382 40.935 1.00 65.77 H +ATOM 175 HD3 LYS A 898 3.283 -11.805 41.143 1.00 78.10 H +ATOM 176 HD2 LYS A 898 1.770 -12.310 40.422 1.00 78.10 H +ATOM 177 HE3 LYS A 898 0.496 -11.135 42.257 1.00 91.16 H +ATOM 178 HE2 LYS A 898 2.017 -10.679 43.006 1.00 91.16 H +ATOM 179 HZ1 LYS A 898 2.521 -12.997 43.280 1.00101.15 H +ATOM 180 HZ2 LYS A 898 1.093 -12.607 44.002 1.00101.15 H +ATOM 181 HZ3 LYS A 898 1.091 -13.424 42.570 1.00101.15 H +ATOM 182 N LYS A 899 2.601 -10.067 35.470 1.00 38.55 N +ATOM 183 CA LYS A 899 3.130 -9.562 34.196 1.00 37.53 C +ATOM 184 C LYS A 899 3.664 -8.124 34.327 1.00 40.98 C +ATOM 185 O LYS A 899 2.976 -7.273 34.891 1.00 42.23 O +ATOM 186 CB LYS A 899 2.041 -9.650 33.106 1.00 40.44 C +ATOM 187 CG LYS A 899 2.578 -9.422 31.678 1.00 50.62 C +ATOM 188 CD LYS A 899 1.468 -9.437 30.619 1.00 60.57 C +ATOM 189 CE LYS A 899 2.006 -9.146 29.209 1.00 71.47 C +ATOM 190 NZ LYS A 899 0.916 -8.987 28.231 1.00 81.32 N1+ +ATOM 191 H LYS A 899 1.600 -10.194 35.522 1.00 38.55 H +ATOM 192 HA LYS A 899 3.956 -10.210 33.898 1.00 37.53 H +ATOM 193 HB3 LYS A 899 1.243 -8.939 33.324 1.00 40.44 H +ATOM 194 HB2 LYS A 899 1.574 -10.634 33.138 1.00 40.44 H +ATOM 195 HG3 LYS A 899 3.319 -10.187 31.443 1.00 50.62 H +ATOM 196 HG2 LYS A 899 3.099 -8.466 31.619 1.00 50.62 H +ATOM 197 HD3 LYS A 899 0.710 -8.701 30.891 1.00 60.57 H +ATOM 198 HD2 LYS A 899 0.973 -10.410 30.632 1.00 60.57 H +ATOM 199 HE3 LYS A 899 2.670 -9.946 28.881 1.00 71.47 H +ATOM 200 HE2 LYS A 899 2.592 -8.226 29.209 1.00 71.47 H +ATOM 201 HZ1 LYS A 899 1.322 -8.791 27.323 1.00 81.32 H +ATOM 202 HZ2 LYS A 899 0.364 -9.831 28.185 1.00 81.32 H +ATOM 203 HZ3 LYS A 899 0.330 -8.211 28.501 1.00 81.32 H +ATOM 204 N ILE A 900 4.862 -7.890 33.770 1.00 36.02 N +ATOM 205 CA ILE A 900 5.527 -6.588 33.747 1.00 35.98 C +ATOM 206 C ILE A 900 5.364 -5.929 32.362 1.00 39.27 C +ATOM 207 O ILE A 900 4.950 -4.771 32.305 1.00 39.89 O +ATOM 208 CB ILE A 900 7.042 -6.709 34.108 1.00 38.58 C +ATOM 209 CG1 ILE A 900 7.219 -7.253 35.550 1.00 39.50 C +ATOM 210 CG2 ILE A 900 7.828 -5.386 33.936 1.00 39.66 C +ATOM 211 CD1 ILE A 900 8.618 -7.804 35.867 1.00 49.54 C +ATOM 212 H ILE A 900 5.359 -8.649 33.319 1.00 36.02 H +ATOM 213 HA ILE A 900 5.069 -5.924 34.482 1.00 35.98 H +ATOM 214 HB ILE A 900 7.484 -7.441 33.431 1.00 38.58 H +ATOM 215 HG13 ILE A 900 6.514 -8.063 35.737 1.00 39.50 H +ATOM 216 HG12 ILE A 900 6.959 -6.475 36.270 1.00 39.50 H +ATOM 217 HG21 ILE A 900 8.865 -5.481 34.254 1.00 39.66 H +ATOM 218 HG22 ILE A 900 7.860 -5.055 32.899 1.00 39.66 H +ATOM 219 HG23 ILE A 900 7.380 -4.587 34.526 1.00 39.66 H +ATOM 220 HD11 ILE A 900 8.927 -7.525 36.875 1.00 49.54 H +ATOM 221 HD12 ILE A 900 8.632 -8.892 35.810 1.00 49.54 H +ATOM 222 HD13 ILE A 900 9.378 -7.438 35.182 1.00 49.54 H +ATOM 223 N ARG A 901 5.663 -6.675 31.283 1.00 34.28 N +ATOM 224 CA ARG A 901 5.559 -6.228 29.888 1.00 34.18 C +ATOM 225 C ARG A 901 5.733 -7.417 28.928 1.00 38.15 C +ATOM 226 O ARG A 901 6.175 -8.486 29.345 1.00 36.85 O +ATOM 227 CB ARG A 901 6.593 -5.107 29.583 1.00 33.50 C +ATOM 228 CG ARG A 901 8.077 -5.517 29.682 1.00 38.58 C +ATOM 229 CD ARG A 901 9.021 -4.376 29.266 1.00 43.23 C +ATOM 230 NE ARG A 901 10.437 -4.699 29.520 1.00 47.72 N +ATOM 231 CZ ARG A 901 11.143 -4.459 30.642 1.00 57.16 C +ATOM 232 NH1 ARG A 901 10.602 -3.859 31.714 1.00 37.97 N +ATOM 233 NH2 ARG A 901 12.428 -4.834 30.688 1.00 43.89 N1+ +ATOM 234 H ARG A 901 5.980 -7.627 31.408 1.00 34.28 H +ATOM 235 HA ARG A 901 4.552 -5.833 29.740 1.00 34.18 H +ATOM 236 HB3 ARG A 901 6.420 -4.254 30.239 1.00 33.50 H +ATOM 237 HB2 ARG A 901 6.408 -4.726 28.578 1.00 33.50 H +ATOM 238 HG3 ARG A 901 8.228 -6.326 28.966 1.00 38.58 H +ATOM 239 HG2 ARG A 901 8.338 -5.931 30.656 1.00 38.58 H +ATOM 240 HD3 ARG A 901 8.713 -3.405 29.653 1.00 43.23 H +ATOM 241 HD2 ARG A 901 8.973 -4.291 28.180 1.00 43.23 H +ATOM 242 HE ARG A 901 10.906 -5.174 28.761 1.00 47.72 H +ATOM 243 HH12 ARG A 901 11.154 -3.685 32.541 1.00 37.97 H +ATOM 244 HH11 ARG A 901 9.637 -3.564 31.690 1.00 37.97 H +ATOM 245 HH22 ARG A 901 12.980 -4.681 31.519 1.00 43.89 H +ATOM 246 HH21 ARG A 901 12.860 -5.286 29.894 1.00 43.89 H +ATOM 247 N ASP A 902 5.440 -7.179 27.640 1.00 35.47 N +ATOM 248 CA ASP A 902 5.819 -8.053 26.523 1.00 35.40 C +ATOM 249 C ASP A 902 7.277 -7.775 26.109 1.00 39.40 C +ATOM 250 O ASP A 902 7.700 -6.617 26.129 1.00 38.86 O +ATOM 251 CB ASP A 902 4.877 -7.924 25.302 1.00 38.56 C +ATOM 252 CG ASP A 902 3.395 -8.154 25.636 1.00 50.27 C +ATOM 253 OD1 ASP A 902 3.000 -9.340 25.692 1.00 50.04 O +ATOM 254 OD2 ASP A 902 2.714 -7.171 26.004 1.00 58.94 O1- +ATOM 255 H ASP A 902 5.058 -6.282 27.374 1.00 35.47 H +ATOM 256 HA ASP A 902 5.752 -9.085 26.862 1.00 35.40 H +ATOM 257 HB3 ASP A 902 5.173 -8.633 24.526 1.00 38.56 H +ATOM 258 HB2 ASP A 902 4.972 -6.928 24.865 1.00 38.56 H +ATOM 259 N LEU A 903 8.010 -8.838 25.734 1.00 36.92 N +ATOM 260 CA LEU A 903 9.410 -8.772 25.292 1.00 37.38 C +ATOM 261 C LEU A 903 9.562 -8.895 23.763 1.00 44.29 C +ATOM 262 O LEU A 903 10.636 -8.565 23.261 1.00 44.67 O +ATOM 263 CB LEU A 903 10.237 -9.872 26.001 1.00 36.46 C +ATOM 264 CG LEU A 903 10.358 -9.714 27.534 1.00 39.50 C +ATOM 265 CD1 LEU A 903 11.088 -10.925 28.159 1.00 39.29 C +ATOM 266 CD2 LEU A 903 11.006 -8.371 27.940 1.00 39.80 C +ATOM 267 H LEU A 903 7.588 -9.758 25.723 1.00 36.92 H +ATOM 268 HA LEU A 903 9.832 -7.801 25.550 1.00 37.38 H +ATOM 269 HB3 LEU A 903 11.245 -9.898 25.582 1.00 36.46 H +ATOM 270 HB2 LEU A 903 9.797 -10.843 25.774 1.00 36.46 H +ATOM 271 HG LEU A 903 9.348 -9.713 27.941 1.00 39.50 H +ATOM 272 HD11 LEU A 903 11.936 -10.639 28.781 1.00 39.29 H +ATOM 273 HD12 LEU A 903 10.414 -11.504 28.790 1.00 39.29 H +ATOM 274 HD13 LEU A 903 11.476 -11.604 27.399 1.00 39.29 H +ATOM 275 HD21 LEU A 903 11.725 -8.472 28.753 1.00 39.80 H +ATOM 276 HD22 LEU A 903 11.535 -7.904 27.108 1.00 39.80 H +ATOM 277 HD23 LEU A 903 10.245 -7.668 28.279 1.00 39.80 H +ATOM 278 N GLY A 904 8.508 -9.332 23.053 1.00 42.41 N +ATOM 279 CA GLY A 904 8.491 -9.446 21.594 1.00 44.33 C +ATOM 280 C GLY A 904 8.052 -10.848 21.162 1.00 49.60 C +ATOM 281 O GLY A 904 7.815 -11.731 21.987 1.00 47.90 O +ATOM 282 H GLY A 904 7.662 -9.599 23.537 1.00 42.41 H +ATOM 283 HA3 GLY A 904 9.461 -9.227 21.146 1.00 44.33 H +ATOM 284 HA2 GLY A 904 7.784 -8.719 21.196 1.00 44.33 H +ATOM 285 N GLU A 905 7.936 -11.029 19.837 1.00 49.17 N +ATOM 286 CA GLU A 905 7.505 -12.269 19.192 1.00 50.78 C +ATOM 287 C GLU A 905 8.684 -13.217 18.933 1.00 56.67 C +ATOM 288 O GLU A 905 9.704 -12.788 18.390 1.00 57.32 O +ATOM 289 CB GLU A 905 6.780 -11.934 17.868 1.00 54.42 C +ATOM 290 CG GLU A 905 5.469 -11.127 18.036 1.00 65.91 C +ATOM 291 CD GLU A 905 4.287 -11.877 18.679 1.00 89.57 C +ATOM 292 OE1 GLU A 905 4.288 -13.130 18.680 1.00 87.15 O +ATOM 293 OE2 GLU A 905 3.376 -11.168 19.159 1.00 84.19 O1- +ATOM 294 H GLU A 905 8.151 -10.265 19.213 1.00 49.17 H +ATOM 295 HA GLU A 905 6.798 -12.777 19.841 1.00 50.78 H +ATOM 296 HB3 GLU A 905 6.585 -12.849 17.305 1.00 54.42 H +ATOM 297 HB2 GLU A 905 7.453 -11.355 17.233 1.00 54.42 H +ATOM 298 HG3 GLU A 905 5.139 -10.794 17.052 1.00 65.91 H +ATOM 299 HG2 GLU A 905 5.668 -10.217 18.604 1.00 65.91 H +ATOM 300 N GLY A 906 8.482 -14.501 19.269 1.00 53.81 N +ATOM 301 CA GLY A 906 9.340 -15.612 18.858 1.00 55.27 C +ATOM 302 C GLY A 906 8.704 -16.282 17.630 1.00 63.02 C +ATOM 303 O GLY A 906 7.973 -15.641 16.874 1.00 64.19 O +ATOM 304 H GLY A 906 7.607 -14.757 19.708 1.00 53.81 H +ATOM 305 HA3 GLY A 906 9.421 -16.320 19.680 1.00 55.27 H +ATOM 306 HA2 GLY A 906 10.351 -15.284 18.613 1.00 55.27 H +ATOM 307 N HIS A 907 9.008 -17.574 17.415 1.00 61.14 N +ATOM 308 CA HIS A 907 8.473 -18.357 16.297 1.00 64.23 C +ATOM 309 C HIS A 907 6.986 -18.741 16.476 1.00 68.31 C +ATOM 310 O HIS A 907 6.158 -18.276 15.694 1.00 69.45 O +ATOM 311 CB HIS A 907 9.379 -19.573 16.015 1.00 66.85 C +ATOM 312 CG HIS A 907 9.048 -20.270 14.719 1.00 73.79 C +ATOM 313 ND1 HIS A 907 8.304 -21.436 14.660 1.00 76.69 N +ATOM 314 CD2 HIS A 907 9.346 -19.954 13.410 1.00 78.20 C +ATOM 315 CE1 HIS A 907 8.168 -21.751 13.370 1.00 79.44 C +ATOM 316 NE2 HIS A 907 8.771 -20.894 12.553 1.00 80.89 N +ATOM 317 H HIS A 907 9.686 -18.036 18.003 1.00 61.14 H +ATOM 318 HA HIS A 907 8.533 -17.722 15.410 1.00 64.23 H +ATOM 319 HB3 HIS A 907 9.321 -20.294 16.831 1.00 66.85 H +ATOM 320 HB2 HIS A 907 10.422 -19.257 15.962 1.00 66.85 H +ATOM 321 HD1 HIS A 907 7.929 -21.954 15.443 1.00 76.69 H +ATOM 322 HD2 HIS A 907 9.909 -19.118 13.021 1.00 78.20 H +ATOM 323 HE1 HIS A 907 7.626 -22.619 13.025 1.00 79.44 H +ATOM 324 N PHE A 908 6.675 -19.585 17.479 1.00 63.54 N +ATOM 325 CA PHE A 908 5.323 -20.113 17.720 1.00 63.65 C +ATOM 326 C PHE A 908 4.379 -19.178 18.504 1.00 64.97 C +ATOM 327 O PHE A 908 3.180 -19.459 18.553 1.00 65.83 O +ATOM 328 CB PHE A 908 5.413 -21.499 18.397 1.00 65.59 C +ATOM 329 CG PHE A 908 5.984 -22.600 17.519 1.00 70.00 C +ATOM 330 CD1 PHE A 908 5.346 -22.958 16.311 1.00 76.18 C +ATOM 331 CD2 PHE A 908 7.155 -23.283 17.903 1.00 72.11 C +ATOM 332 CE1 PHE A 908 5.886 -23.956 15.510 1.00 80.05 C +ATOM 333 CE2 PHE A 908 7.670 -24.285 17.093 1.00 77.92 C +ATOM 334 CZ PHE A 908 7.045 -24.613 15.897 1.00 79.04 C +ATOM 335 H PHE A 908 7.407 -19.950 18.070 1.00 63.54 H +ATOM 336 HA PHE A 908 4.837 -20.250 16.752 1.00 63.65 H +ATOM 337 HB3 PHE A 908 4.426 -21.832 18.722 1.00 65.59 H +ATOM 338 HB2 PHE A 908 6.011 -21.419 19.305 1.00 65.59 H +ATOM 339 HD1 PHE A 908 4.441 -22.456 16.003 1.00 76.18 H +ATOM 340 HD2 PHE A 908 7.654 -23.037 18.825 1.00 72.11 H +ATOM 341 HE1 PHE A 908 5.401 -24.221 14.582 1.00 80.05 H +ATOM 342 HE2 PHE A 908 8.566 -24.808 17.395 1.00 77.92 H +ATOM 343 HZ PHE A 908 7.461 -25.387 15.270 1.00 79.04 H +ATOM 344 N GLY A 909 4.908 -18.092 19.088 1.00 58.00 N +ATOM 345 CA GLY A 909 4.108 -17.125 19.831 1.00 55.47 C +ATOM 346 C GLY A 909 5.024 -16.190 20.627 1.00 55.80 C +ATOM 347 O GLY A 909 6.250 -16.233 20.503 1.00 55.22 O +ATOM 348 H GLY A 909 5.895 -17.898 19.001 1.00 58.00 H +ATOM 349 HA3 GLY A 909 3.413 -17.631 20.501 1.00 55.47 H +ATOM 350 HA2 GLY A 909 3.516 -16.533 19.131 1.00 55.47 H +ATOM 351 N LYS A 910 4.395 -15.306 21.417 1.00 50.00 N +ATOM 352 CA LYS A 910 5.048 -14.191 22.103 1.00 47.65 C +ATOM 353 C LYS A 910 5.776 -14.597 23.393 1.00 46.70 C +ATOM 354 O LYS A 910 5.348 -15.518 24.088 1.00 45.15 O +ATOM 355 CB LYS A 910 4.009 -13.076 22.353 1.00 50.48 C +ATOM 356 CG LYS A 910 2.942 -13.376 23.420 1.00 69.07 C +ATOM 357 CD LYS A 910 1.890 -12.256 23.502 1.00 81.34 C +ATOM 358 CE LYS A 910 0.849 -12.453 24.616 1.00 93.54 C +ATOM 359 NZ LYS A 910 1.442 -12.334 25.960 1.00103.47 N1+ +ATOM 360 H LYS A 910 3.388 -15.330 21.480 1.00 50.00 H +ATOM 361 HA LYS A 910 5.796 -13.787 21.426 1.00 47.65 H +ATOM 362 HB3 LYS A 910 3.516 -12.834 21.413 1.00 50.48 H +ATOM 363 HB2 LYS A 910 4.538 -12.169 22.648 1.00 50.48 H +ATOM 364 HG3 LYS A 910 3.425 -13.497 24.390 1.00 69.07 H +ATOM 365 HG2 LYS A 910 2.450 -14.323 23.200 1.00 69.07 H +ATOM 366 HD3 LYS A 910 1.367 -12.198 22.547 1.00 81.34 H +ATOM 367 HD2 LYS A 910 2.387 -11.292 23.621 1.00 81.34 H +ATOM 368 HE3 LYS A 910 0.365 -13.426 24.519 1.00 93.54 H +ATOM 369 HE2 LYS A 910 0.069 -11.697 24.524 1.00 93.54 H +ATOM 370 HZ1 LYS A 910 1.882 -11.427 26.048 1.00103.47 H +ATOM 371 HZ2 LYS A 910 0.727 -12.444 26.663 1.00103.47 H +ATOM 372 HZ3 LYS A 910 2.149 -13.046 26.081 1.00103.47 H +ATOM 373 N VAL A 911 6.838 -13.835 23.692 1.00 41.06 N +ATOM 374 CA VAL A 911 7.597 -13.865 24.938 1.00 38.87 C +ATOM 375 C VAL A 911 7.187 -12.640 25.776 1.00 40.63 C +ATOM 376 O VAL A 911 7.015 -11.552 25.222 1.00 40.71 O +ATOM 377 CB VAL A 911 9.130 -13.781 24.678 1.00 42.90 C +ATOM 378 CG1 VAL A 911 9.966 -13.916 25.970 1.00 41.51 C +ATOM 379 CG2 VAL A 911 9.608 -14.834 23.661 1.00 44.14 C +ATOM 380 H VAL A 911 7.102 -13.093 23.055 1.00 41.06 H +ATOM 381 HA VAL A 911 7.381 -14.767 25.503 1.00 38.87 H +ATOM 382 HB VAL A 911 9.357 -12.805 24.244 1.00 42.90 H +ATOM 383 HG11 VAL A 911 11.034 -13.882 25.753 1.00 41.51 H +ATOM 384 HG12 VAL A 911 9.764 -13.117 26.681 1.00 41.51 H +ATOM 385 HG13 VAL A 911 9.762 -14.862 26.473 1.00 41.51 H +ATOM 386 HG21 VAL A 911 10.684 -14.767 23.501 1.00 44.14 H +ATOM 387 HG22 VAL A 911 9.390 -15.842 24.010 1.00 44.14 H +ATOM 388 HG23 VAL A 911 9.134 -14.706 22.687 1.00 44.14 H +ATOM 389 N SER A 912 7.042 -12.842 27.094 1.00 35.08 N +ATOM 390 CA SER A 912 6.620 -11.815 28.041 1.00 33.82 C +ATOM 391 C SER A 912 7.425 -11.928 29.337 1.00 36.30 C +ATOM 392 O SER A 912 7.672 -13.035 29.811 1.00 34.75 O +ATOM 393 CB SER A 912 5.118 -11.979 28.336 1.00 37.09 C +ATOM 394 OG SER A 912 4.327 -11.612 27.227 1.00 45.59 O +ATOM 395 H SER A 912 7.186 -13.767 27.481 1.00 35.08 H +ATOM 396 HA SER A 912 6.815 -10.824 27.633 1.00 33.82 H +ATOM 397 HB3 SER A 912 4.816 -11.364 29.186 1.00 37.09 H +ATOM 398 HB2 SER A 912 4.893 -13.013 28.586 1.00 37.09 H +ATOM 399 HG SER A 912 4.448 -10.676 27.043 1.00 45.59 H +ATOM 400 N LEU A 913 7.782 -10.769 29.905 1.00 32.71 N +ATOM 401 CA LEU A 913 8.447 -10.643 31.194 1.00 31.84 C +ATOM 402 C LEU A 913 7.401 -10.677 32.317 1.00 34.70 C +ATOM 403 O LEU A 913 6.461 -9.881 32.303 1.00 33.55 O +ATOM 404 CB LEU A 913 9.279 -9.341 31.197 1.00 32.17 C +ATOM 405 CG LEU A 913 10.057 -9.037 32.496 1.00 37.18 C +ATOM 406 CD1 LEU A 913 10.989 -10.194 32.917 1.00 37.05 C +ATOM 407 CD2 LEU A 913 10.803 -7.691 32.372 1.00 39.87 C +ATOM 408 H LEU A 913 7.488 -9.898 29.480 1.00 32.71 H +ATOM 409 HA LEU A 913 9.127 -11.488 31.309 1.00 31.84 H +ATOM 410 HB3 LEU A 913 8.621 -8.499 30.974 1.00 32.17 H +ATOM 411 HB2 LEU A 913 9.993 -9.386 30.377 1.00 32.17 H +ATOM 412 HG LEU A 913 9.329 -8.914 33.297 1.00 37.18 H +ATOM 413 HD11 LEU A 913 11.956 -9.844 33.270 1.00 37.05 H +ATOM 414 HD12 LEU A 913 10.549 -10.768 33.733 1.00 37.05 H +ATOM 415 HD13 LEU A 913 11.185 -10.887 32.099 1.00 37.05 H +ATOM 416 HD21 LEU A 913 10.509 -7.005 33.165 1.00 39.87 H +ATOM 417 HD22 LEU A 913 11.885 -7.802 32.427 1.00 39.87 H +ATOM 418 HD23 LEU A 913 10.587 -7.195 31.426 1.00 39.87 H +ATOM 419 N TYR A 914 7.617 -11.594 33.268 1.00 31.69 N +ATOM 420 CA TYR A 914 6.829 -11.762 34.484 1.00 32.27 C +ATOM 421 C TYR A 914 7.763 -11.740 35.699 1.00 38.14 C +ATOM 422 O TYR A 914 8.920 -12.146 35.601 1.00 37.58 O +ATOM 423 CB TYR A 914 6.089 -13.116 34.445 1.00 33.14 C +ATOM 424 CG TYR A 914 4.931 -13.234 33.471 1.00 34.68 C +ATOM 425 CD1 TYR A 914 3.614 -13.003 33.911 1.00 37.57 C +ATOM 426 CD2 TYR A 914 5.152 -13.643 32.141 1.00 35.02 C +ATOM 427 CE1 TYR A 914 2.523 -13.202 33.046 1.00 38.87 C +ATOM 428 CE2 TYR A 914 4.061 -13.846 31.273 1.00 36.25 C +ATOM 429 CZ TYR A 914 2.746 -13.623 31.722 1.00 44.77 C +ATOM 430 OH TYR A 914 1.691 -13.821 30.880 1.00 47.37 O +ATOM 431 H TYR A 914 8.422 -12.204 33.192 1.00 31.69 H +ATOM 432 HA TYR A 914 6.109 -10.950 34.582 1.00 32.27 H +ATOM 433 HB3 TYR A 914 5.682 -13.332 35.435 1.00 33.14 H +ATOM 434 HB2 TYR A 914 6.794 -13.922 34.243 1.00 33.14 H +ATOM 435 HD1 TYR A 914 3.433 -12.700 34.929 1.00 37.57 H +ATOM 436 HD2 TYR A 914 6.158 -13.827 31.797 1.00 35.02 H +ATOM 437 HE1 TYR A 914 1.518 -13.038 33.408 1.00 38.87 H +ATOM 438 HE2 TYR A 914 4.232 -14.196 30.267 1.00 36.25 H +ATOM 439 HH TYR A 914 0.845 -13.629 31.292 1.00 47.37 H +ATOM 440 N CYS A 915 7.202 -11.324 36.841 1.00 36.18 N +ATOM 441 CA CYS A 915 7.784 -11.465 38.168 1.00 36.90 C +ATOM 442 C CYS A 915 7.021 -12.603 38.860 1.00 40.01 C +ATOM 443 O CYS A 915 5.860 -12.417 39.227 1.00 40.31 O +ATOM 444 CB CYS A 915 7.708 -10.132 38.944 1.00 38.56 C +ATOM 445 SG CYS A 915 8.350 -10.275 40.638 1.00 44.41 S +ATOM 446 H CYS A 915 6.246 -10.990 36.823 1.00 36.18 H +ATOM 447 HA CYS A 915 8.838 -11.743 38.096 1.00 36.90 H +ATOM 448 HB3 CYS A 915 6.679 -9.774 38.995 1.00 38.56 H +ATOM 449 HB2 CYS A 915 8.282 -9.365 38.426 1.00 38.56 H +ATOM 450 HG CYS A 915 9.628 -10.475 40.303 1.00 44.41 H +ATOM 451 N TYR A 916 7.679 -13.766 39.003 1.00 35.79 N +ATOM 452 CA TYR A 916 7.145 -14.913 39.732 1.00 36.08 C +ATOM 453 C TYR A 916 7.343 -14.682 41.233 1.00 42.29 C +ATOM 454 O TYR A 916 8.480 -14.728 41.701 1.00 42.28 O +ATOM 455 CB TYR A 916 7.827 -16.210 39.257 1.00 36.11 C +ATOM 456 CG TYR A 916 7.253 -17.473 39.878 1.00 37.32 C +ATOM 457 CD1 TYR A 916 5.921 -17.842 39.605 1.00 38.54 C +ATOM 458 CD2 TYR A 916 8.039 -18.288 40.720 1.00 39.25 C +ATOM 459 CE1 TYR A 916 5.396 -19.040 40.122 1.00 40.04 C +ATOM 460 CE2 TYR A 916 7.506 -19.478 41.255 1.00 41.08 C +ATOM 461 CZ TYR A 916 6.186 -19.860 40.945 1.00 47.41 C +ATOM 462 OH TYR A 916 5.667 -21.023 41.433 1.00 49.13 O +ATOM 463 H TYR A 916 8.641 -13.840 38.696 1.00 35.79 H +ATOM 464 HA TYR A 916 6.079 -14.997 39.517 1.00 36.08 H +ATOM 465 HB3 TYR A 916 8.902 -16.165 39.443 1.00 36.11 H +ATOM 466 HB2 TYR A 916 7.723 -16.300 38.176 1.00 36.11 H +ATOM 467 HD1 TYR A 916 5.303 -17.214 38.984 1.00 38.54 H +ATOM 468 HD2 TYR A 916 9.059 -18.011 40.946 1.00 39.25 H +ATOM 469 HE1 TYR A 916 4.386 -19.331 39.889 1.00 40.04 H +ATOM 470 HE2 TYR A 916 8.120 -20.099 41.890 1.00 41.08 H +ATOM 471 HH TYR A 916 6.300 -21.528 41.951 1.00 49.13 H +ATOM 472 N ASP A 917 6.240 -14.402 41.939 1.00 48.27 N +ATOM 473 CA ASP A 917 6.260 -13.845 43.288 1.00 50.17 C +ATOM 474 C ASP A 917 5.206 -14.554 44.169 1.00 57.13 C +ATOM 475 O ASP A 917 4.132 -13.988 44.383 1.00 57.78 O +ATOM 476 CB ASP A 917 6.062 -12.309 43.188 1.00 51.95 C +ATOM 477 CG ASP A 917 6.205 -11.480 44.471 1.00 62.02 C +ATOM 478 OD1 ASP A 917 6.923 -11.915 45.399 1.00 62.70 O +ATOM 479 OD2 ASP A 917 5.693 -10.341 44.440 1.00 68.32 O1- +ATOM 480 H ASP A 917 5.341 -14.400 41.474 1.00 48.27 H +ATOM 481 HA ASP A 917 7.231 -14.025 43.752 1.00 50.17 H +ATOM 482 HB3 ASP A 917 5.095 -12.100 42.726 1.00 51.95 H +ATOM 483 HB2 ASP A 917 6.787 -11.916 42.476 1.00 51.95 H +ATOM 484 N PRO A 918 5.508 -15.784 44.659 1.00 55.23 N +ATOM 485 CA PRO A 918 4.612 -16.518 45.579 1.00 57.04 C +ATOM 486 C PRO A 918 4.385 -15.852 46.948 1.00 63.53 C +ATOM 487 O PRO A 918 3.292 -15.969 47.499 1.00 64.80 O +ATOM 488 CB PRO A 918 5.273 -17.903 45.734 1.00 58.95 C +ATOM 489 CG PRO A 918 6.214 -18.027 44.549 1.00 61.46 C +ATOM 490 CD PRO A 918 6.683 -16.596 44.340 1.00 56.22 C +ATOM 491 HA PRO A 918 3.653 -16.628 45.082 1.00 57.04 H +ATOM 492 HB3 PRO A 918 4.544 -18.713 45.767 1.00 58.95 H +ATOM 493 HB2 PRO A 918 5.857 -17.955 46.655 1.00 58.95 H +ATOM 494 HG3 PRO A 918 5.653 -18.354 43.672 1.00 61.46 H +ATOM 495 HG2 PRO A 918 7.029 -18.732 44.711 1.00 61.46 H +ATOM 496 HD2 PRO A 918 7.487 -16.341 45.031 1.00 56.22 H +ATOM 497 HD3 PRO A 918 7.057 -16.481 43.326 1.00 56.22 H +ATOM 498 N THR A 919 5.423 -15.168 47.453 1.00 60.71 N +ATOM 499 CA THR A 919 5.452 -14.464 48.735 1.00 62.69 C +ATOM 500 C THR A 919 4.759 -13.081 48.694 1.00 67.35 C +ATOM 501 O THR A 919 4.427 -12.563 49.760 1.00 69.01 O +ATOM 502 CB THR A 919 6.927 -14.282 49.184 1.00 72.79 C +ATOM 503 OG1 THR A 919 7.707 -13.705 48.152 1.00 73.95 O +ATOM 504 CG2 THR A 919 7.598 -15.614 49.552 1.00 71.13 C +ATOM 505 H THR A 919 6.285 -15.117 46.928 1.00 60.71 H +ATOM 506 HA THR A 919 4.931 -15.070 49.479 1.00 62.69 H +ATOM 507 HB THR A 919 6.978 -13.620 50.051 1.00 72.79 H +ATOM 508 HG1 THR A 919 7.623 -12.745 48.181 1.00 73.95 H +ATOM 509 HG21 THR A 919 8.621 -15.454 49.894 1.00 71.13 H +ATOM 510 HG22 THR A 919 7.058 -16.115 50.357 1.00 71.13 H +ATOM 511 HG23 THR A 919 7.637 -16.297 48.703 1.00 71.13 H +ATOM 512 N ASN A 920 4.500 -12.538 47.488 1.00 62.44 N +ATOM 513 CA ASN A 920 3.711 -11.326 47.206 1.00 62.24 C +ATOM 514 C ASN A 920 4.320 -9.997 47.721 1.00 66.98 C +ATOM 515 O ASN A 920 3.627 -8.979 47.698 1.00 66.80 O +ATOM 516 CB ASN A 920 2.236 -11.497 47.682 1.00 63.64 C +ATOM 517 CG ASN A 920 1.165 -11.034 46.681 1.00 84.95 C +ATOM 518 OD1 ASN A 920 0.138 -11.691 46.531 1.00 75.29 O +ATOM 519 ND2 ASN A 920 1.370 -9.901 46.006 1.00 79.29 N +ATOM 520 H ASN A 920 4.837 -13.024 46.669 1.00 62.44 H +ATOM 521 HA ASN A 920 3.717 -11.197 46.125 1.00 62.24 H +ATOM 522 HB3 ASN A 920 2.069 -11.042 48.660 1.00 63.64 H +ATOM 523 HB2 ASN A 920 2.036 -12.561 47.828 1.00 63.64 H +ATOM 524 HD22 ASN A 920 0.675 -9.557 45.361 1.00 79.29 H +ATOM 525 HD21 ASN A 920 2.206 -9.354 46.177 1.00 79.29 H +ATOM 526 N ASP A 921 5.587 -10.011 48.162 1.00 64.01 N +ATOM 527 CA ASP A 921 6.297 -8.861 48.741 1.00 64.56 C +ATOM 528 C ASP A 921 7.046 -8.010 47.693 1.00 67.04 C +ATOM 529 O ASP A 921 7.381 -6.865 47.996 1.00 66.92 O +ATOM 530 CB ASP A 921 7.241 -9.266 49.912 1.00 67.60 C +ATOM 531 CG ASP A 921 8.157 -10.490 49.715 1.00 74.77 C +ATOM 532 OD1 ASP A 921 8.411 -10.880 48.554 1.00 73.06 O +ATOM 533 OD2 ASP A 921 8.688 -10.964 50.742 1.00 80.58 O1- +ATOM 534 H ASP A 921 6.117 -10.870 48.115 1.00 64.01 H +ATOM 535 HA ASP A 921 5.549 -8.197 49.179 1.00 64.56 H +ATOM 536 HB3 ASP A 921 6.621 -9.459 50.789 1.00 67.60 H +ATOM 537 HB2 ASP A 921 7.874 -8.422 50.188 1.00 67.60 H +ATOM 538 N GLY A 922 7.289 -8.568 46.495 1.00 62.22 N +ATOM 539 CA GLY A 922 8.000 -7.915 45.395 1.00 60.32 C +ATOM 540 C GLY A 922 9.435 -8.442 45.231 1.00 62.88 C +ATOM 541 O GLY A 922 10.105 -8.027 44.287 1.00 61.26 O +ATOM 542 H GLY A 922 6.954 -9.506 46.315 1.00 62.22 H +ATOM 543 HA3 GLY A 922 8.029 -6.832 45.518 1.00 60.32 H +ATOM 544 HA2 GLY A 922 7.454 -8.108 44.471 1.00 60.32 H +ATOM 545 N THR A 923 9.910 -9.350 46.106 1.00 59.90 N +ATOM 546 CA THR A 923 11.247 -9.961 46.037 1.00 59.08 C +ATOM 547 C THR A 923 11.325 -11.178 45.081 1.00 59.98 C +ATOM 548 O THR A 923 12.387 -11.798 44.990 1.00 59.31 O +ATOM 549 CB THR A 923 11.769 -10.377 47.445 1.00 69.75 C +ATOM 550 OG1 THR A 923 11.209 -11.585 47.931 1.00 71.05 O +ATOM 551 CG2 THR A 923 11.635 -9.276 48.510 1.00 69.92 C +ATOM 552 H THR A 923 9.314 -9.674 46.858 1.00 59.90 H +ATOM 553 HA THR A 923 11.944 -9.218 45.645 1.00 59.08 H +ATOM 554 HB THR A 923 12.838 -10.575 47.348 1.00 69.75 H +ATOM 555 HG1 THR A 923 10.292 -11.419 48.184 1.00 71.05 H +ATOM 556 HG21 THR A 923 12.066 -9.595 49.459 1.00 69.92 H +ATOM 557 HG22 THR A 923 12.155 -8.369 48.199 1.00 69.92 H +ATOM 558 HG23 THR A 923 10.595 -9.010 48.698 1.00 69.92 H +ATOM 559 N GLY A 924 10.220 -11.486 44.377 1.00 54.43 N +ATOM 560 CA GLY A 924 10.091 -12.576 43.410 1.00 52.22 C +ATOM 561 C GLY A 924 11.044 -12.427 42.213 1.00 52.75 C +ATOM 562 O GLY A 924 11.395 -11.316 41.811 1.00 52.19 O +ATOM 563 H GLY A 924 9.392 -10.927 44.524 1.00 54.43 H +ATOM 564 HA3 GLY A 924 9.068 -12.569 43.040 1.00 52.22 H +ATOM 565 HA2 GLY A 924 10.248 -13.531 43.914 1.00 52.22 H +ATOM 566 N GLU A 925 11.442 -13.575 41.643 1.00 47.12 N +ATOM 567 CA GLU A 925 12.420 -13.684 40.561 1.00 44.97 C +ATOM 568 C GLU A 925 11.797 -13.290 39.208 1.00 45.00 C +ATOM 569 O GLU A 925 10.680 -13.716 38.906 1.00 44.25 O +ATOM 570 CB GLU A 925 12.928 -15.146 40.536 1.00 46.73 C +ATOM 571 CG GLU A 925 14.311 -15.325 39.872 1.00 59.92 C +ATOM 572 CD GLU A 925 15.511 -14.843 40.711 1.00 86.10 C +ATOM 573 OE1 GLU A 925 16.560 -14.586 40.080 1.00 82.34 O +ATOM 574 OE2 GLU A 925 15.390 -14.751 41.953 1.00 82.28 O1- +ATOM 575 H GLU A 925 11.098 -14.451 42.008 1.00 47.12 H +ATOM 576 HA GLU A 925 13.249 -13.012 40.792 1.00 44.97 H +ATOM 577 HB3 GLU A 925 12.213 -15.766 39.991 1.00 46.73 H +ATOM 578 HB2 GLU A 925 12.934 -15.570 41.542 1.00 46.73 H +ATOM 579 HG3 GLU A 925 14.321 -14.840 38.895 1.00 59.92 H +ATOM 580 HG2 GLU A 925 14.466 -16.385 39.682 1.00 59.92 H +ATOM 581 N MET A 926 12.549 -12.519 38.404 1.00 39.83 N +ATOM 582 CA MET A 926 12.168 -12.141 37.041 1.00 38.07 C +ATOM 583 C MET A 926 12.427 -13.306 36.072 1.00 39.21 C +ATOM 584 O MET A 926 13.519 -13.879 36.082 1.00 38.07 O +ATOM 585 CB MET A 926 12.924 -10.870 36.598 1.00 39.90 C +ATOM 586 CG MET A 926 12.649 -9.644 37.485 1.00 44.40 C +ATOM 587 SD MET A 926 13.592 -8.155 37.049 1.00 48.39 S +ATOM 588 CE MET A 926 12.726 -7.631 35.547 1.00 44.03 C +ATOM 589 H MET A 926 13.473 -12.233 38.702 1.00 39.83 H +ATOM 590 HA MET A 926 11.103 -11.907 37.037 1.00 38.07 H +ATOM 591 HB3 MET A 926 12.642 -10.633 35.572 1.00 39.90 H +ATOM 592 HB2 MET A 926 13.997 -11.061 36.570 1.00 39.90 H +ATOM 593 HG3 MET A 926 12.891 -9.875 38.522 1.00 44.40 H +ATOM 594 HG2 MET A 926 11.586 -9.400 37.466 1.00 44.40 H +ATOM 595 HE1 MET A 926 13.153 -6.702 35.171 1.00 44.03 H +ATOM 596 HE2 MET A 926 12.820 -8.387 34.771 1.00 44.03 H +ATOM 597 HE3 MET A 926 11.670 -7.469 35.754 1.00 44.03 H +ATOM 598 N VAL A 927 11.413 -13.626 35.257 1.00 34.99 N +ATOM 599 CA VAL A 927 11.421 -14.721 34.291 1.00 33.96 C +ATOM 600 C VAL A 927 10.788 -14.272 32.963 1.00 35.83 C +ATOM 601 O VAL A 927 9.811 -13.523 32.962 1.00 35.47 O +ATOM 602 CB VAL A 927 10.650 -15.970 34.817 1.00 38.68 C +ATOM 603 CG1 VAL A 927 11.436 -16.703 35.913 1.00 39.31 C +ATOM 604 CG2 VAL A 927 9.203 -15.700 35.279 1.00 39.22 C +ATOM 605 H VAL A 927 10.548 -13.100 35.310 1.00 34.99 H +ATOM 606 HA VAL A 927 12.453 -15.009 34.076 1.00 33.96 H +ATOM 607 HB VAL A 927 10.578 -16.676 33.988 1.00 38.68 H +ATOM 608 HG11 VAL A 927 10.939 -17.629 36.204 1.00 39.31 H +ATOM 609 HG12 VAL A 927 12.431 -16.963 35.554 1.00 39.31 H +ATOM 610 HG13 VAL A 927 11.549 -16.091 36.809 1.00 39.31 H +ATOM 611 HG21 VAL A 927 8.724 -16.620 35.617 1.00 39.22 H +ATOM 612 HG22 VAL A 927 9.169 -14.992 36.108 1.00 39.22 H +ATOM 613 HG23 VAL A 927 8.590 -15.302 34.475 1.00 39.22 H +ATOM 614 N ALA A 928 11.362 -14.766 31.856 1.00 31.63 N +ATOM 615 CA ALA A 928 10.869 -14.575 30.497 1.00 30.90 C +ATOM 616 C ALA A 928 10.049 -15.810 30.103 1.00 35.29 C +ATOM 617 O ALA A 928 10.627 -16.854 29.807 1.00 35.60 O +ATOM 618 CB ALA A 928 12.071 -14.366 29.562 1.00 30.57 C +ATOM 619 H ALA A 928 12.140 -15.406 31.949 1.00 31.63 H +ATOM 620 HA ALA A 928 10.238 -13.686 30.438 1.00 30.90 H +ATOM 621 HB1 ALA A 928 11.749 -14.245 28.528 1.00 30.57 H +ATOM 622 HB2 ALA A 928 12.627 -13.469 29.838 1.00 30.57 H +ATOM 623 HB3 ALA A 928 12.766 -15.206 29.599 1.00 30.57 H +ATOM 624 N VAL A 929 8.717 -15.679 30.136 1.00 32.06 N +ATOM 625 CA VAL A 929 7.784 -16.760 29.832 1.00 32.55 C +ATOM 626 C VAL A 929 7.301 -16.618 28.381 1.00 36.41 C +ATOM 627 O VAL A 929 6.663 -15.617 28.049 1.00 36.12 O +ATOM 628 CB VAL A 929 6.538 -16.726 30.759 1.00 37.19 C +ATOM 629 CG1 VAL A 929 5.558 -17.885 30.494 1.00 37.71 C +ATOM 630 CG2 VAL A 929 6.928 -16.713 32.246 1.00 37.30 C +ATOM 631 H VAL A 929 8.305 -14.780 30.351 1.00 32.06 H +ATOM 632 HA VAL A 929 8.272 -17.727 29.956 1.00 32.55 H +ATOM 633 HB VAL A 929 5.990 -15.805 30.571 1.00 37.19 H +ATOM 634 HG11 VAL A 929 4.738 -17.882 31.213 1.00 37.71 H +ATOM 635 HG12 VAL A 929 5.107 -17.830 29.503 1.00 37.71 H +ATOM 636 HG13 VAL A 929 6.068 -18.845 30.574 1.00 37.71 H +ATOM 637 HG21 VAL A 929 6.046 -16.746 32.885 1.00 37.30 H +ATOM 638 HG22 VAL A 929 7.556 -17.566 32.494 1.00 37.30 H +ATOM 639 HG23 VAL A 929 7.478 -15.809 32.504 1.00 37.30 H +ATOM 640 N LYS A 930 7.593 -17.637 27.560 1.00 33.27 N +ATOM 641 CA LYS A 930 7.079 -17.754 26.199 1.00 33.22 C +ATOM 642 C LYS A 930 5.791 -18.590 26.204 1.00 39.34 C +ATOM 643 O LYS A 930 5.727 -19.605 26.896 1.00 39.05 O +ATOM 644 CB LYS A 930 8.177 -18.326 25.281 1.00 35.04 C +ATOM 645 CG LYS A 930 7.799 -18.295 23.788 1.00 44.51 C +ATOM 646 CD LYS A 930 8.934 -18.767 22.872 1.00 50.89 C +ATOM 647 CE LYS A 930 8.511 -18.750 21.395 1.00 59.05 C +ATOM 648 NZ LYS A 930 9.564 -19.278 20.514 1.00 61.89 N1+ +ATOM 649 H LYS A 930 8.114 -18.431 27.910 1.00 33.27 H +ATOM 650 HA LYS A 930 6.823 -16.769 25.823 1.00 33.22 H +ATOM 651 HB3 LYS A 930 8.439 -19.339 25.586 1.00 35.04 H +ATOM 652 HB2 LYS A 930 9.083 -17.735 25.416 1.00 35.04 H +ATOM 653 HG3 LYS A 930 7.511 -17.281 23.508 1.00 44.51 H +ATOM 654 HG2 LYS A 930 6.918 -18.911 23.610 1.00 44.51 H +ATOM 655 HD3 LYS A 930 9.248 -19.768 23.172 1.00 50.89 H +ATOM 656 HD2 LYS A 930 9.803 -18.123 23.014 1.00 50.89 H +ATOM 657 HE3 LYS A 930 8.274 -17.733 21.089 1.00 59.05 H +ATOM 658 HE2 LYS A 930 7.609 -19.346 21.247 1.00 59.05 H +ATOM 659 HZ1 LYS A 930 9.782 -20.230 20.788 1.00 61.89 H +ATOM 660 HZ2 LYS A 930 9.249 -19.278 19.557 1.00 61.89 H +ATOM 661 HZ3 LYS A 930 10.406 -18.724 20.592 1.00 61.89 H +ATOM 662 N ALA A 931 4.796 -18.139 25.428 1.00 38.22 N +ATOM 663 CA ALA A 931 3.484 -18.766 25.311 1.00 40.05 C +ATOM 664 C ALA A 931 3.174 -19.073 23.843 1.00 46.81 C +ATOM 665 O ALA A 931 3.527 -18.288 22.963 1.00 45.18 O +ATOM 666 CB ALA A 931 2.431 -17.803 25.883 1.00 41.21 C +ATOM 667 H ALA A 931 4.935 -17.304 24.873 1.00 38.22 H +ATOM 668 HA ALA A 931 3.449 -19.699 25.877 1.00 40.05 H +ATOM 669 HB1 ALA A 931 1.442 -18.263 25.894 1.00 41.21 H +ATOM 670 HB2 ALA A 931 2.673 -17.519 26.906 1.00 41.21 H +ATOM 671 HB3 ALA A 931 2.366 -16.885 25.296 1.00 41.21 H +ATOM 672 N LEU A 932 2.472 -20.194 23.630 1.00 46.93 N +ATOM 673 CA LEU A 932 1.871 -20.596 22.361 1.00 48.86 C +ATOM 674 C LEU A 932 0.469 -19.977 22.271 1.00 56.77 C +ATOM 675 O LEU A 932 -0.294 -20.067 23.234 1.00 57.21 O +ATOM 676 CB LEU A 932 1.899 -22.143 22.314 1.00 49.94 C +ATOM 677 CG LEU A 932 1.146 -22.912 21.202 1.00 56.17 C +ATOM 678 CD1 LEU A 932 -0.328 -23.202 21.549 1.00 58.55 C +ATOM 679 CD2 LEU A 932 1.350 -22.322 19.795 1.00 57.84 C +ATOM 680 H LEU A 932 2.198 -20.755 24.427 1.00 46.93 H +ATOM 681 HA LEU A 932 2.478 -20.212 21.538 1.00 48.86 H +ATOM 682 HB3 LEU A 932 1.597 -22.552 23.280 1.00 49.94 H +ATOM 683 HB2 LEU A 932 2.949 -22.397 22.209 1.00 49.94 H +ATOM 684 HG LEU A 932 1.622 -23.893 21.170 1.00 56.17 H +ATOM 685 HD11 LEU A 932 -0.998 -22.989 20.721 1.00 58.55 H +ATOM 686 HD12 LEU A 932 -0.463 -24.255 21.800 1.00 58.55 H +ATOM 687 HD13 LEU A 932 -0.676 -22.632 22.410 1.00 58.55 H +ATOM 688 HD21 LEU A 932 1.458 -23.113 19.052 1.00 57.84 H +ATOM 689 HD22 LEU A 932 0.511 -21.695 19.495 1.00 57.84 H +ATOM 690 HD23 LEU A 932 2.247 -21.709 19.742 1.00 57.84 H +ATOM 691 N LYS A 933 0.168 -19.343 21.124 1.00 55.83 N +ATOM 692 CA LYS A 933 -1.098 -18.650 20.874 1.00 58.05 C +ATOM 693 C LYS A 933 -2.298 -19.622 20.848 1.00 65.72 C +ATOM 694 O LYS A 933 -2.170 -20.735 20.339 1.00 66.33 O +ATOM 695 CB LYS A 933 -0.970 -17.805 19.584 1.00 61.02 C +ATOM 696 CG LYS A 933 -0.914 -18.598 18.264 1.00 76.77 C +ATOM 697 CD LYS A 933 -0.883 -17.698 17.021 1.00 88.30 C +ATOM 698 CE LYS A 933 -1.258 -18.469 15.743 1.00101.78 C +ATOM 699 NZ LYS A 933 -1.514 -17.560 14.612 1.00111.03 N1+ +ATOM 700 H LYS A 933 0.846 -19.316 20.376 1.00 55.83 H +ATOM 701 HA LYS A 933 -1.250 -17.956 21.704 1.00 58.05 H +ATOM 702 HB3 LYS A 933 -0.100 -17.150 19.659 1.00 61.02 H +ATOM 703 HB2 LYS A 933 -1.833 -17.140 19.538 1.00 61.02 H +ATOM 704 HG3 LYS A 933 -1.793 -19.235 18.192 1.00 76.77 H +ATOM 705 HG2 LYS A 933 -0.046 -19.259 18.261 1.00 76.77 H +ATOM 706 HD3 LYS A 933 0.120 -17.281 16.912 1.00 88.30 H +ATOM 707 HD2 LYS A 933 -1.547 -16.845 17.165 1.00 88.30 H +ATOM 708 HE3 LYS A 933 -2.169 -19.047 15.904 1.00101.78 H +ATOM 709 HE2 LYS A 933 -0.472 -19.176 15.479 1.00101.78 H +ATOM 710 HZ1 LYS A 933 -0.696 -16.997 14.429 1.00111.03 H +ATOM 711 HZ2 LYS A 933 -1.750 -18.099 13.792 1.00111.03 H +ATOM 712 HZ3 LYS A 933 -2.295 -16.960 14.849 1.00111.03 H +ATOM 713 N ALA A 934 -3.439 -19.180 21.402 1.00 64.09 N +ATOM 714 CA ALA A 934 -4.646 -19.997 21.581 1.00 66.26 C +ATOM 715 C ALA A 934 -5.324 -20.465 20.280 1.00 72.73 C +ATOM 716 O ALA A 934 -5.939 -21.531 20.284 1.00 74.05 O +ATOM 717 CB ALA A 934 -5.640 -19.229 22.465 1.00 67.74 C +ATOM 718 H ALA A 934 -3.473 -18.250 21.792 1.00 64.09 H +ATOM 719 HA ALA A 934 -4.349 -20.898 22.116 1.00 66.26 H +ATOM 720 HB1 ALA A 934 -6.531 -19.824 22.666 1.00 67.74 H +ATOM 721 HB2 ALA A 934 -5.196 -18.974 23.427 1.00 67.74 H +ATOM 722 HB3 ALA A 934 -5.961 -18.300 21.990 1.00 67.74 H +ATOM 723 N ASP A 935 -5.186 -19.678 19.201 1.00 69.72 N +ATOM 724 CA ASP A 935 -5.757 -19.930 17.872 1.00 71.46 C +ATOM 725 C ASP A 935 -4.911 -20.888 17.002 1.00 74.30 C +ATOM 726 O ASP A 935 -5.368 -21.240 15.915 1.00 75.17 O +ATOM 727 CB ASP A 935 -6.060 -18.624 17.081 1.00 74.32 C +ATOM 728 CG ASP A 935 -4.885 -17.654 16.840 1.00 85.42 C +ATOM 729 OD1 ASP A 935 -4.167 -17.325 17.810 1.00 84.36 O +ATOM 730 OD2 ASP A 935 -4.756 -17.197 15.683 1.00 92.83 O1- +ATOM 731 H ASP A 935 -4.655 -18.819 19.277 1.00 69.72 H +ATOM 732 HA ASP A 935 -6.716 -20.431 18.020 1.00 71.46 H +ATOM 733 HB3 ASP A 935 -6.807 -18.058 17.641 1.00 74.32 H +ATOM 734 HB2 ASP A 935 -6.551 -18.867 16.136 1.00 74.32 H +ATOM 735 N ALA A 936 -3.711 -21.289 17.465 1.00 68.69 N +ATOM 736 CA ALA A 936 -2.793 -22.183 16.752 1.00 68.02 C +ATOM 737 C ALA A 936 -3.386 -23.575 16.476 1.00 72.87 C +ATOM 738 O ALA A 936 -4.072 -24.126 17.337 1.00 73.20 O +ATOM 739 CB ALA A 936 -1.510 -22.332 17.577 1.00 66.59 C +ATOM 740 H ALA A 936 -3.405 -20.970 18.374 1.00 68.69 H +ATOM 741 HA ALA A 936 -2.541 -21.712 15.800 1.00 68.02 H +ATOM 742 HB1 ALA A 936 -0.813 -23.023 17.111 1.00 66.59 H +ATOM 743 HB2 ALA A 936 -0.996 -21.379 17.683 1.00 66.59 H +ATOM 744 HB3 ALA A 936 -1.727 -22.717 18.573 1.00 66.59 H +ATOM 745 N GLY A 937 -3.078 -24.120 15.288 1.00 69.56 N +ATOM 746 CA GLY A 937 -3.521 -25.447 14.862 1.00 70.85 C +ATOM 747 C GLY A 937 -2.536 -26.539 15.329 1.00 72.81 C +ATOM 748 O GLY A 937 -1.507 -26.223 15.931 1.00 70.15 O +ATOM 749 H GLY A 937 -2.496 -23.608 14.641 1.00 69.56 H +ATOM 750 HA3 GLY A 937 -3.591 -25.461 13.774 1.00 70.85 H +ATOM 751 HA2 GLY A 937 -4.520 -25.643 15.251 1.00 70.85 H +ATOM 752 N PRO A 938 -2.833 -27.830 15.044 1.00 70.56 N +ATOM 753 CA PRO A 938 -2.009 -28.986 15.462 1.00 69.75 C +ATOM 754 C PRO A 938 -0.533 -28.983 15.020 1.00 71.53 C +ATOM 755 O PRO A 938 0.304 -29.506 15.755 1.00 69.83 O +ATOM 756 CB PRO A 938 -2.755 -30.204 14.887 1.00 74.13 C +ATOM 757 CG PRO A 938 -4.192 -29.740 14.737 1.00 80.34 C +ATOM 758 CD PRO A 938 -4.040 -28.277 14.346 1.00 74.56 C +ATOM 759 HA PRO A 938 -2.052 -29.026 16.552 1.00 69.75 H +ATOM 760 HB3 PRO A 938 -2.671 -31.086 15.523 1.00 74.13 H +ATOM 761 HB2 PRO A 938 -2.362 -30.470 13.904 1.00 74.13 H +ATOM 762 HG3 PRO A 938 -4.695 -29.807 15.703 1.00 80.34 H +ATOM 763 HG2 PRO A 938 -4.765 -30.325 14.018 1.00 80.34 H +ATOM 764 HD2 PRO A 938 -3.879 -28.179 13.272 1.00 74.56 H +ATOM 765 HD3 PRO A 938 -4.941 -27.724 14.609 1.00 74.56 H +ATOM 766 N GLN A 939 -0.242 -28.388 13.849 1.00 67.82 N +ATOM 767 CA GLN A 939 1.103 -28.264 13.280 1.00 66.27 C +ATOM 768 C GLN A 939 2.051 -27.386 14.120 1.00 68.35 C +ATOM 769 O GLN A 939 3.225 -27.732 14.245 1.00 66.93 O +ATOM 770 CB GLN A 939 1.032 -27.817 11.796 1.00 68.21 C +ATOM 771 CG GLN A 939 0.576 -26.368 11.481 1.00 72.84 C +ATOM 772 CD GLN A 939 -0.883 -26.060 11.828 1.00 77.03 C +ATOM 773 OE1 GLN A 939 -1.158 -25.159 12.616 1.00 74.05 O +ATOM 774 NE2 GLN A 939 -1.826 -26.808 11.252 1.00 57.91 N +ATOM 775 H GLN A 939 -0.988 -27.980 13.305 1.00 67.82 H +ATOM 776 HA GLN A 939 1.529 -29.270 13.283 1.00 66.27 H +ATOM 777 HB3 GLN A 939 0.415 -28.525 11.241 1.00 68.21 H +ATOM 778 HB2 GLN A 939 2.031 -27.933 11.373 1.00 68.21 H +ATOM 779 HG3 GLN A 939 0.702 -26.182 10.414 1.00 72.84 H +ATOM 780 HG2 GLN A 939 1.223 -25.646 11.980 1.00 72.84 H +ATOM 781 HE22 GLN A 939 -2.802 -26.626 11.439 1.00 57.91 H +ATOM 782 HE21 GLN A 939 -1.575 -27.534 10.596 1.00 57.91 H +ATOM 783 N HIS A 940 1.521 -26.300 14.706 1.00 64.16 N +ATOM 784 CA HIS A 940 2.260 -25.403 15.595 1.00 61.75 C +ATOM 785 C HIS A 940 2.348 -25.929 17.036 1.00 63.28 C +ATOM 786 O HIS A 940 3.336 -25.642 17.706 1.00 61.23 O +ATOM 787 CB HIS A 940 1.616 -24.005 15.574 1.00 62.57 C +ATOM 788 CG HIS A 940 1.726 -23.271 14.262 1.00 66.77 C +ATOM 789 ND1 HIS A 940 2.955 -23.020 13.641 1.00 67.37 N +ATOM 790 CD2 HIS A 940 0.720 -22.734 13.487 1.00 70.59 C +ATOM 791 CE1 HIS A 940 2.650 -22.360 12.532 1.00 67.79 C +ATOM 792 NE2 HIS A 940 1.338 -22.165 12.388 1.00 70.04 N +ATOM 793 H HIS A 940 0.544 -26.084 14.565 1.00 64.16 H +ATOM 794 HA HIS A 940 3.285 -25.309 15.232 1.00 61.75 H +ATOM 795 HB3 HIS A 940 2.056 -23.369 16.344 1.00 62.57 H +ATOM 796 HB2 HIS A 940 0.559 -24.101 15.814 1.00 62.57 H +ATOM 797 HD2 HIS A 940 -0.351 -22.717 13.621 1.00 70.59 H +ATOM 798 HE1 HIS A 940 3.386 -22.017 11.820 1.00 67.79 H +ATOM 799 HE2 HIS A 940 0.887 -21.689 11.620 1.00 70.04 H +ATOM 800 N ARG A 941 1.334 -26.690 17.482 1.00 60.02 N +ATOM 801 CA ARG A 941 1.267 -27.291 18.818 1.00 59.31 C +ATOM 802 C ARG A 941 2.234 -28.472 18.992 1.00 62.03 C +ATOM 803 O ARG A 941 2.805 -28.613 20.072 1.00 60.86 O +ATOM 804 CB ARG A 941 -0.178 -27.729 19.109 1.00 60.88 C +ATOM 805 CG ARG A 941 -1.137 -26.544 19.283 1.00 68.75 C +ATOM 806 CD ARG A 941 -2.606 -26.980 19.351 1.00 77.71 C +ATOM 807 NE ARG A 941 -3.467 -25.863 19.762 1.00 82.45 N +ATOM 808 CZ ARG A 941 -3.758 -25.489 21.020 1.00 92.13 C +ATOM 809 NH1 ARG A 941 -3.322 -26.176 22.088 1.00 76.77 N +ATOM 810 NH2 ARG A 941 -4.503 -24.394 21.210 1.00 77.04 N1+ +ATOM 811 H ARG A 941 0.550 -26.872 16.871 1.00 60.02 H +ATOM 812 HA ARG A 941 1.546 -26.532 19.551 1.00 59.31 H +ATOM 813 HB3 ARG A 941 -0.207 -28.313 20.030 1.00 60.88 H +ATOM 814 HB2 ARG A 941 -0.533 -28.392 18.319 1.00 60.88 H +ATOM 815 HG3 ARG A 941 -1.026 -25.909 18.405 1.00 68.75 H +ATOM 816 HG2 ARG A 941 -0.856 -25.914 20.128 1.00 68.75 H +ATOM 817 HD3 ARG A 941 -2.756 -27.895 19.923 1.00 77.71 H +ATOM 818 HD2 ARG A 941 -2.937 -27.203 18.337 1.00 77.71 H +ATOM 819 HE ARG A 941 -3.804 -25.278 19.005 1.00 82.45 H +ATOM 820 HH12 ARG A 941 -3.575 -25.871 23.021 1.00 76.77 H +ATOM 821 HH11 ARG A 941 -2.770 -27.011 21.966 1.00 76.77 H +ATOM 822 HH22 ARG A 941 -4.739 -24.108 22.151 1.00 77.04 H +ATOM 823 HH21 ARG A 941 -4.838 -23.847 20.429 1.00 77.04 H +ATOM 824 N SER A 942 2.417 -29.280 17.934 1.00 58.42 N +ATOM 825 CA SER A 942 3.384 -30.380 17.891 1.00 57.70 C +ATOM 826 C SER A 942 4.846 -29.892 17.843 1.00 57.72 C +ATOM 827 O SER A 942 5.709 -30.536 18.441 1.00 56.80 O +ATOM 828 CB SER A 942 3.028 -31.332 16.729 1.00 62.97 C +ATOM 829 OG SER A 942 3.240 -30.751 15.456 1.00 72.94 O +ATOM 830 H SER A 942 1.889 -29.117 17.087 1.00 58.42 H +ATOM 831 HA SER A 942 3.267 -30.948 18.816 1.00 57.70 H +ATOM 832 HB3 SER A 942 1.988 -31.653 16.802 1.00 62.97 H +ATOM 833 HB2 SER A 942 3.635 -32.236 16.791 1.00 62.97 H +ATOM 834 HG SER A 942 2.522 -30.139 15.273 1.00 72.94 H +ATOM 835 N GLY A 943 5.086 -28.748 17.179 1.00 52.04 N +ATOM 836 CA GLY A 943 6.397 -28.109 17.105 1.00 49.74 C +ATOM 837 C GLY A 943 6.715 -27.328 18.390 1.00 51.51 C +ATOM 838 O GLY A 943 7.888 -27.213 18.744 1.00 50.79 O +ATOM 839 H GLY A 943 4.324 -28.284 16.704 1.00 52.04 H +ATOM 840 HA3 GLY A 943 6.401 -27.421 16.261 1.00 49.74 H +ATOM 841 HA2 GLY A 943 7.173 -28.852 16.915 1.00 49.74 H +ATOM 842 N TRP A 944 5.690 -26.810 19.089 1.00 46.76 N +ATOM 843 CA TRP A 944 5.812 -26.106 20.366 1.00 44.94 C +ATOM 844 C TRP A 944 6.249 -27.022 21.521 1.00 47.69 C +ATOM 845 O TRP A 944 7.121 -26.631 22.297 1.00 45.93 O +ATOM 846 CB TRP A 944 4.497 -25.370 20.685 1.00 44.33 C +ATOM 847 CG TRP A 944 4.410 -24.767 22.054 1.00 44.62 C +ATOM 848 CD1 TRP A 944 3.576 -25.159 23.044 1.00 48.43 C +ATOM 849 CD2 TRP A 944 5.230 -23.701 22.615 1.00 43.00 C +ATOM 850 NE1 TRP A 944 3.807 -24.391 24.165 1.00 47.01 N +ATOM 851 CE2 TRP A 944 4.818 -23.477 23.963 1.00 47.00 C +ATOM 852 CE3 TRP A 944 6.281 -22.898 22.121 1.00 42.95 C +ATOM 853 CZ2 TRP A 944 5.409 -22.495 24.775 1.00 45.25 C +ATOM 854 CZ3 TRP A 944 6.886 -21.918 22.929 1.00 43.20 C +ATOM 855 CH2 TRP A 944 6.448 -21.712 24.249 1.00 43.98 C +ATOM 856 H TRP A 944 4.752 -26.897 18.723 1.00 46.76 H +ATOM 857 HA TRP A 944 6.593 -25.351 20.258 1.00 44.94 H +ATOM 858 HB3 TRP A 944 3.654 -26.051 20.569 1.00 44.33 H +ATOM 859 HB2 TRP A 944 4.343 -24.569 19.961 1.00 44.33 H +ATOM 860 HD1 TRP A 944 2.844 -25.948 22.952 1.00 48.43 H +ATOM 861 HE1 TRP A 944 3.291 -24.492 25.030 1.00 47.01 H +ATOM 862 HE3 TRP A 944 6.626 -23.041 21.109 1.00 42.95 H +ATOM 863 HZ2 TRP A 944 5.070 -22.342 25.788 1.00 45.25 H +ATOM 864 HZ3 TRP A 944 7.691 -21.323 22.532 1.00 43.20 H +ATOM 865 HH2 TRP A 944 6.911 -20.952 24.854 1.00 43.98 H +ATOM 866 N LYS A 945 5.659 -28.228 21.592 1.00 45.36 N +ATOM 867 CA LYS A 945 6.053 -29.279 22.534 1.00 45.57 C +ATOM 868 C LYS A 945 7.501 -29.741 22.313 1.00 48.34 C +ATOM 869 O LYS A 945 8.206 -29.975 23.291 1.00 47.71 O +ATOM 870 CB LYS A 945 5.083 -30.470 22.424 1.00 49.99 C +ATOM 871 CG LYS A 945 3.685 -30.177 22.987 1.00 63.75 C +ATOM 872 CD LYS A 945 2.722 -31.358 22.774 1.00 74.99 C +ATOM 873 CE LYS A 945 1.285 -31.100 23.257 1.00 83.90 C +ATOM 874 NZ LYS A 945 0.588 -30.104 22.424 1.00 93.10 N1+ +ATOM 875 H LYS A 945 4.941 -28.472 20.923 1.00 45.36 H +ATOM 876 HA LYS A 945 5.988 -28.866 23.543 1.00 45.57 H +ATOM 877 HB3 LYS A 945 5.490 -31.321 22.972 1.00 49.99 H +ATOM 878 HB2 LYS A 945 5.011 -30.789 21.382 1.00 49.99 H +ATOM 879 HG3 LYS A 945 3.286 -29.272 22.530 1.00 63.75 H +ATOM 880 HG2 LYS A 945 3.764 -29.963 24.054 1.00 63.75 H +ATOM 881 HD3 LYS A 945 3.114 -32.228 23.304 1.00 74.99 H +ATOM 882 HD2 LYS A 945 2.714 -31.639 21.719 1.00 74.99 H +ATOM 883 HE3 LYS A 945 1.283 -30.770 24.297 1.00 83.90 H +ATOM 884 HE2 LYS A 945 0.715 -32.028 23.217 1.00 83.90 H +ATOM 885 HZ1 LYS A 945 0.580 -30.420 21.464 1.00 93.10 H +ATOM 886 HZ2 LYS A 945 -0.365 -29.994 22.743 1.00 93.10 H +ATOM 887 HZ3 LYS A 945 1.071 -29.219 22.479 1.00 93.10 H +ATOM 888 N GLN A 946 7.924 -29.808 21.038 1.00 44.22 N +ATOM 889 CA GLN A 946 9.284 -30.154 20.641 1.00 43.45 C +ATOM 890 C GLN A 946 10.318 -29.084 21.046 1.00 43.51 C +ATOM 891 O GLN A 946 11.411 -29.471 21.452 1.00 42.87 O +ATOM 892 CB GLN A 946 9.308 -30.465 19.133 1.00 45.76 C +ATOM 893 CG GLN A 946 10.656 -31.033 18.642 1.00 69.48 C +ATOM 894 CD GLN A 946 10.726 -31.346 17.146 1.00 90.75 C +ATOM 895 OE1 GLN A 946 11.769 -31.789 16.672 1.00 85.35 O +ATOM 896 NE2 GLN A 946 9.645 -31.126 16.390 1.00 84.55 N +ATOM 897 H GLN A 946 7.281 -29.594 20.289 1.00 44.22 H +ATOM 898 HA GLN A 946 9.544 -31.073 21.172 1.00 43.45 H +ATOM 899 HB3 GLN A 946 9.061 -29.563 18.574 1.00 45.76 H +ATOM 900 HB2 GLN A 946 8.520 -31.188 18.916 1.00 45.76 H +ATOM 901 HG3 GLN A 946 10.892 -31.945 19.191 1.00 69.48 H +ATOM 902 HG2 GLN A 946 11.459 -30.328 18.852 1.00 69.48 H +ATOM 903 HE22 GLN A 946 9.661 -31.304 15.398 1.00 84.55 H +ATOM 904 HE21 GLN A 946 8.803 -30.759 16.810 1.00 84.55 H +ATOM 905 N GLU A 947 9.960 -27.784 20.986 1.00 37.60 N +ATOM 906 CA GLU A 947 10.785 -26.680 21.497 1.00 35.45 C +ATOM 907 C GLU A 947 11.062 -26.792 23.006 1.00 39.34 C +ATOM 908 O GLU A 947 12.210 -26.624 23.420 1.00 37.56 O +ATOM 909 CB GLU A 947 10.182 -25.300 21.122 1.00 35.85 C +ATOM 910 CG GLU A 947 10.879 -24.098 21.820 1.00 39.54 C +ATOM 911 CD GLU A 947 10.366 -22.697 21.474 1.00 49.95 C +ATOM 912 OE1 GLU A 947 9.357 -22.570 20.747 1.00 42.72 O +ATOM 913 OE2 GLU A 947 11.007 -21.740 21.960 1.00 38.87 O1- +ATOM 914 H GLU A 947 9.052 -27.532 20.618 1.00 37.60 H +ATOM 915 HA GLU A 947 11.753 -26.751 20.997 1.00 35.45 H +ATOM 916 HB3 GLU A 947 9.117 -25.288 21.352 1.00 35.85 H +ATOM 917 HB2 GLU A 947 10.253 -25.172 20.042 1.00 35.85 H +ATOM 918 HG3 GLU A 947 11.950 -24.136 21.617 1.00 39.54 H +ATOM 919 HG2 GLU A 947 10.770 -24.178 22.901 1.00 39.54 H +ATOM 920 N ILE A 948 10.001 -27.070 23.783 1.00 36.81 N +ATOM 921 CA ILE A 948 10.046 -27.241 25.236 1.00 36.97 C +ATOM 922 C ILE A 948 10.957 -28.411 25.656 1.00 41.95 C +ATOM 923 O ILE A 948 11.768 -28.234 26.563 1.00 40.50 O +ATOM 924 CB ILE A 948 8.618 -27.432 25.837 1.00 40.96 C +ATOM 925 CG1 ILE A 948 7.784 -26.138 25.695 1.00 40.52 C +ATOM 926 CG2 ILE A 948 8.594 -27.914 27.308 1.00 42.01 C +ATOM 927 CD1 ILE A 948 6.263 -26.358 25.733 1.00 48.11 C +ATOM 928 H ILE A 948 9.092 -27.178 23.353 1.00 36.81 H +ATOM 929 HA ILE A 948 10.473 -26.328 25.656 1.00 36.97 H +ATOM 930 HB ILE A 948 8.116 -28.198 25.245 1.00 40.96 H +ATOM 931 HG13 ILE A 948 8.017 -25.636 24.755 1.00 40.52 H +ATOM 932 HG12 ILE A 948 8.070 -25.437 26.476 1.00 40.52 H +ATOM 933 HG21 ILE A 948 7.583 -27.941 27.710 1.00 42.01 H +ATOM 934 HG22 ILE A 948 8.991 -28.922 27.416 1.00 42.01 H +ATOM 935 HG23 ILE A 948 9.183 -27.253 27.945 1.00 42.01 H +ATOM 936 HD11 ILE A 948 5.769 -25.540 26.258 1.00 48.11 H +ATOM 937 HD12 ILE A 948 5.852 -26.398 24.725 1.00 48.11 H +ATOM 938 HD13 ILE A 948 5.986 -27.287 26.231 1.00 48.11 H +ATOM 939 N ASP A 949 10.831 -29.555 24.959 1.00 40.75 N +ATOM 940 CA ASP A 949 11.646 -30.757 25.159 1.00 42.04 C +ATOM 941 C ASP A 949 13.116 -30.562 24.749 1.00 44.86 C +ATOM 942 O ASP A 949 13.991 -31.045 25.465 1.00 44.55 O +ATOM 943 CB ASP A 949 11.054 -32.010 24.465 1.00 45.74 C +ATOM 944 CG ASP A 949 9.621 -32.402 24.877 1.00 60.54 C +ATOM 945 OD1 ASP A 949 9.192 -32.039 25.998 1.00 60.92 O +ATOM 946 OD2 ASP A 949 9.011 -33.176 24.106 1.00 69.53 O1- +ATOM 947 H ASP A 949 10.123 -29.617 24.240 1.00 40.75 H +ATOM 948 HA ASP A 949 11.658 -30.952 26.233 1.00 42.04 H +ATOM 949 HB3 ASP A 949 11.694 -32.873 24.657 1.00 45.74 H +ATOM 950 HB2 ASP A 949 11.056 -31.849 23.385 1.00 45.74 H +ATOM 951 N ILE A 950 13.369 -29.834 23.645 1.00 40.87 N +ATOM 952 CA ILE A 950 14.712 -29.458 23.191 1.00 40.04 C +ATOM 953 C ILE A 950 15.451 -28.586 24.224 1.00 43.57 C +ATOM 954 O ILE A 950 16.553 -28.953 24.623 1.00 43.48 O +ATOM 955 CB ILE A 950 14.696 -28.782 21.778 1.00 42.52 C +ATOM 956 CG1 ILE A 950 14.511 -29.864 20.688 1.00 44.02 C +ATOM 957 CG2 ILE A 950 15.921 -27.898 21.434 1.00 42.09 C +ATOM 958 CD1 ILE A 950 14.169 -29.322 19.293 1.00 50.45 C +ATOM 959 H ILE A 950 12.598 -29.489 23.087 1.00 40.87 H +ATOM 960 HA ILE A 950 15.282 -30.385 23.105 1.00 40.04 H +ATOM 961 HB ILE A 950 13.823 -28.131 21.737 1.00 42.52 H +ATOM 962 HG13 ILE A 950 13.735 -30.570 20.984 1.00 44.02 H +ATOM 963 HG12 ILE A 950 15.423 -30.451 20.621 1.00 44.02 H +ATOM 964 HG21 ILE A 950 15.867 -27.509 20.418 1.00 42.09 H +ATOM 965 HG22 ILE A 950 15.984 -27.020 22.077 1.00 42.09 H +ATOM 966 HG23 ILE A 950 16.854 -28.456 21.523 1.00 42.09 H +ATOM 967 HD11 ILE A 950 13.783 -30.116 18.653 1.00 50.45 H +ATOM 968 HD12 ILE A 950 13.414 -28.537 19.343 1.00 50.45 H +ATOM 969 HD13 ILE A 950 15.050 -28.916 18.796 1.00 50.45 H +ATOM 970 N LEU A 951 14.818 -27.489 24.673 1.00 40.23 N +ATOM 971 CA LEU A 951 15.395 -26.546 25.634 1.00 39.79 C +ATOM 972 C LEU A 951 15.576 -27.134 27.051 1.00 45.30 C +ATOM 973 O LEU A 951 16.537 -26.765 27.725 1.00 45.03 O +ATOM 974 CB LEU A 951 14.548 -25.252 25.626 1.00 39.14 C +ATOM 975 CG LEU A 951 15.154 -24.058 26.398 1.00 43.09 C +ATOM 976 CD1 LEU A 951 16.495 -23.588 25.789 1.00 42.01 C +ATOM 977 CD2 LEU A 951 14.130 -22.915 26.516 1.00 45.91 C +ATOM 978 H LEU A 951 13.901 -27.257 24.312 1.00 40.23 H +ATOM 979 HA LEU A 951 16.393 -26.306 25.267 1.00 39.79 H +ATOM 980 HB3 LEU A 951 13.561 -25.480 26.033 1.00 39.14 H +ATOM 981 HB2 LEU A 951 14.376 -24.942 24.593 1.00 39.14 H +ATOM 982 HG LEU A 951 15.366 -24.371 27.418 1.00 43.09 H +ATOM 983 HD11 LEU A 951 16.513 -22.521 25.570 1.00 42.01 H +ATOM 984 HD12 LEU A 951 17.320 -23.790 26.473 1.00 42.01 H +ATOM 985 HD13 LEU A 951 16.724 -24.097 24.853 1.00 42.01 H +ATOM 986 HD21 LEU A 951 14.591 -21.932 26.439 1.00 45.91 H +ATOM 987 HD22 LEU A 951 13.365 -22.975 25.742 1.00 45.91 H +ATOM 988 HD23 LEU A 951 13.621 -22.958 27.479 1.00 45.91 H +ATOM 989 N ARG A 952 14.691 -28.063 27.456 1.00 43.44 N +ATOM 990 CA ARG A 952 14.754 -28.789 28.729 1.00 44.71 C +ATOM 991 C ARG A 952 15.932 -29.783 28.833 1.00 48.62 C +ATOM 992 O ARG A 952 16.357 -30.063 29.953 1.00 48.93 O +ATOM 993 CB ARG A 952 13.371 -29.431 29.009 1.00 47.60 C +ATOM 994 CG ARG A 952 13.295 -30.396 30.214 1.00 64.51 C +ATOM 995 CD ARG A 952 11.900 -30.578 30.843 1.00 81.83 C +ATOM 996 NE ARG A 952 10.835 -30.921 29.881 1.00 97.02 N +ATOM 997 CZ ARG A 952 9.511 -30.965 30.134 1.00115.33 C +ATOM 998 NH1 ARG A 952 9.000 -30.677 31.342 1.00104.57 N +ATOM 999 NH2 ARG A 952 8.672 -31.308 29.149 1.00103.27 N1+ +ATOM 1000 H ARG A 952 13.919 -28.305 26.848 1.00 43.44 H +ATOM 1001 HA ARG A 952 14.925 -28.050 29.514 1.00 44.71 H +ATOM 1002 HB3 ARG A 952 13.060 -29.992 28.127 1.00 47.60 H +ATOM 1003 HB2 ARG A 952 12.638 -28.633 29.134 1.00 47.60 H +ATOM 1004 HG3 ARG A 952 13.888 -29.917 30.995 1.00 64.51 H +ATOM 1005 HG2 ARG A 952 13.780 -31.355 30.027 1.00 64.51 H +ATOM 1006 HD3 ARG A 952 11.645 -29.765 31.518 1.00 81.83 H +ATOM 1007 HD2 ARG A 952 11.955 -31.469 31.469 1.00 81.83 H +ATOM 1008 HE ARG A 952 11.147 -31.149 28.947 1.00 97.02 H +ATOM 1009 HH12 ARG A 952 8.006 -30.727 31.508 1.00104.57 H +ATOM 1010 HH11 ARG A 952 9.614 -30.383 32.087 1.00104.57 H +ATOM 1011 HH22 ARG A 952 7.677 -31.355 29.315 1.00103.27 H +ATOM 1012 HH21 ARG A 952 9.018 -31.534 28.223 1.00103.27 H +ATOM 1013 N THR A 953 16.452 -30.280 27.696 1.00 44.83 N +ATOM 1014 CA THR A 953 17.615 -31.177 27.654 1.00 45.20 C +ATOM 1015 C THR A 953 18.946 -30.434 27.392 1.00 47.39 C +ATOM 1016 O THR A 953 19.996 -31.042 27.605 1.00 47.77 O +ATOM 1017 CB THR A 953 17.448 -32.284 26.577 1.00 54.65 C +ATOM 1018 OG1 THR A 953 17.391 -31.766 25.261 1.00 56.65 O +ATOM 1019 CG2 THR A 953 16.236 -33.195 26.829 1.00 54.92 C +ATOM 1020 H THR A 953 16.059 -30.008 26.806 1.00 44.83 H +ATOM 1021 HA THR A 953 17.724 -31.680 28.617 1.00 45.20 H +ATOM 1022 HB THR A 953 18.330 -32.926 26.603 1.00 54.65 H +ATOM 1023 HG1 THR A 953 16.578 -31.262 25.162 1.00 56.65 H +ATOM 1024 HG21 THR A 953 16.128 -33.936 26.036 1.00 54.92 H +ATOM 1025 HG22 THR A 953 16.353 -33.737 27.768 1.00 54.92 H +ATOM 1026 HG23 THR A 953 15.305 -32.637 26.895 1.00 54.92 H +ATOM 1027 N LEU A 954 18.904 -29.153 26.981 1.00 42.06 N +ATOM 1028 CA LEU A 954 20.095 -28.320 26.786 1.00 41.03 C +ATOM 1029 C LEU A 954 20.497 -27.631 28.099 1.00 46.33 C +ATOM 1030 O LEU A 954 19.647 -27.030 28.757 1.00 45.86 O +ATOM 1031 CB LEU A 954 19.827 -27.256 25.700 1.00 39.44 C +ATOM 1032 CG LEU A 954 19.653 -27.799 24.266 1.00 43.41 C +ATOM 1033 CD1 LEU A 954 18.998 -26.739 23.364 1.00 42.21 C +ATOM 1034 CD2 LEU A 954 20.965 -28.317 23.654 1.00 44.73 C +ATOM 1035 H LEU A 954 18.013 -28.699 26.841 1.00 42.06 H +ATOM 1036 HA LEU A 954 20.925 -28.950 26.465 1.00 41.03 H +ATOM 1037 HB3 LEU A 954 20.636 -26.524 25.692 1.00 39.44 H +ATOM 1038 HB2 LEU A 954 18.930 -26.700 25.981 1.00 39.44 H +ATOM 1039 HG LEU A 954 18.984 -28.656 24.303 1.00 43.41 H +ATOM 1040 HD11 LEU A 954 19.311 -26.837 22.326 1.00 42.21 H +ATOM 1041 HD12 LEU A 954 17.915 -26.837 23.379 1.00 42.21 H +ATOM 1042 HD13 LEU A 954 19.236 -25.725 23.687 1.00 42.21 H +ATOM 1043 HD21 LEU A 954 20.759 -28.981 22.816 1.00 44.73 H +ATOM 1044 HD22 LEU A 954 21.587 -27.501 23.286 1.00 44.73 H +ATOM 1045 HD23 LEU A 954 21.558 -28.892 24.362 1.00 44.73 H +ATOM 1046 N TYR A 955 21.797 -27.713 28.425 1.00 43.56 N +ATOM 1047 CA TYR A 955 22.416 -27.103 29.599 1.00 43.67 C +ATOM 1048 C TYR A 955 23.818 -26.618 29.212 1.00 44.27 C +ATOM 1049 O TYR A 955 24.735 -27.432 29.096 1.00 45.00 O +ATOM 1050 CB TYR A 955 22.459 -28.110 30.771 1.00 48.11 C +ATOM 1051 CG TYR A 955 21.097 -28.472 31.336 1.00 52.94 C +ATOM 1052 CD1 TYR A 955 20.430 -27.572 32.193 1.00 55.30 C +ATOM 1053 CD2 TYR A 955 20.479 -29.688 30.979 1.00 55.29 C +ATOM 1054 CE1 TYR A 955 19.145 -27.880 32.681 1.00 58.20 C +ATOM 1055 CE2 TYR A 955 19.194 -29.995 31.465 1.00 57.21 C +ATOM 1056 CZ TYR A 955 18.524 -29.089 32.312 1.00 66.90 C +ATOM 1057 OH TYR A 955 17.270 -29.375 32.766 1.00 70.23 O +ATOM 1058 H TYR A 955 22.422 -28.245 27.833 1.00 43.56 H +ATOM 1059 HA TYR A 955 21.832 -26.235 29.911 1.00 43.67 H +ATOM 1060 HB3 TYR A 955 23.045 -27.690 31.590 1.00 48.11 H +ATOM 1061 HB2 TYR A 955 22.978 -29.022 30.471 1.00 48.11 H +ATOM 1062 HD1 TYR A 955 20.894 -26.635 32.464 1.00 55.30 H +ATOM 1063 HD2 TYR A 955 20.977 -30.379 30.314 1.00 55.29 H +ATOM 1064 HE1 TYR A 955 18.632 -27.183 33.327 1.00 58.20 H +ATOM 1065 HE2 TYR A 955 18.721 -30.921 31.174 1.00 57.21 H +ATOM 1066 HH TYR A 955 16.892 -30.146 32.336 1.00 70.23 H +ATOM 1067 N HIS A 956 23.951 -25.297 29.016 1.00 37.42 N +ATOM 1068 CA HIS A 956 25.205 -24.628 28.665 1.00 35.60 C +ATOM 1069 C HIS A 956 25.145 -23.161 29.107 1.00 38.73 C +ATOM 1070 O HIS A 956 24.067 -22.567 29.095 1.00 38.06 O +ATOM 1071 CB HIS A 956 25.450 -24.758 27.146 1.00 34.89 C +ATOM 1072 CG HIS A 956 26.880 -24.547 26.722 1.00 37.75 C +ATOM 1073 ND1 HIS A 956 27.368 -23.306 26.302 1.00 38.26 N +ATOM 1074 CD2 HIS A 956 27.905 -25.469 26.672 1.00 39.89 C +ATOM 1075 CE1 HIS A 956 28.645 -23.523 26.021 1.00 37.89 C +ATOM 1076 NE2 HIS A 956 29.018 -24.787 26.217 1.00 39.23 N +ATOM 1077 H HIS A 956 23.148 -24.691 29.120 1.00 37.42 H +ATOM 1078 HA HIS A 956 26.013 -25.122 29.208 1.00 35.60 H +ATOM 1079 HB3 HIS A 956 24.811 -24.072 26.588 1.00 34.89 H +ATOM 1080 HB2 HIS A 956 25.174 -25.757 26.816 1.00 34.89 H +ATOM 1081 HD2 HIS A 956 27.927 -26.521 26.916 1.00 39.89 H +ATOM 1082 HE1 HIS A 956 29.313 -22.760 25.657 1.00 37.89 H +ATOM 1083 HE2 HIS A 956 29.940 -25.171 26.065 1.00 39.23 H +ATOM 1084 N GLU A 957 26.309 -22.588 29.456 1.00 35.85 N +ATOM 1085 CA GLU A 957 26.452 -21.183 29.862 1.00 35.07 C +ATOM 1086 C GLU A 957 26.181 -20.163 28.734 1.00 36.31 C +ATOM 1087 O GLU A 957 25.937 -18.998 29.047 1.00 35.28 O +ATOM 1088 CB GLU A 957 27.841 -20.962 30.496 1.00 37.47 C +ATOM 1089 CG GLU A 957 29.038 -21.139 29.529 1.00 48.12 C +ATOM 1090 CD GLU A 957 30.418 -20.850 30.142 1.00 71.53 C +ATOM 1091 OE1 GLU A 957 31.389 -21.454 29.637 1.00 74.04 O +ATOM 1092 OE2 GLU A 957 30.500 -20.031 31.086 1.00 59.06 O1- +ATOM 1093 H GLU A 957 27.159 -23.137 29.445 1.00 35.85 H +ATOM 1094 HA GLU A 957 25.707 -20.997 30.638 1.00 35.07 H +ATOM 1095 HB3 GLU A 957 27.960 -21.639 31.343 1.00 37.47 H +ATOM 1096 HB2 GLU A 957 27.859 -19.958 30.922 1.00 37.47 H +ATOM 1097 HG3 GLU A 957 28.925 -20.464 28.686 1.00 48.12 H +ATOM 1098 HG2 GLU A 957 29.031 -22.144 29.105 1.00 48.12 H +ATOM 1099 N HIS A 958 26.226 -20.613 27.467 1.00 31.10 N +ATOM 1100 CA HIS A 958 25.948 -19.813 26.272 1.00 28.96 C +ATOM 1101 C HIS A 958 24.663 -20.269 25.555 1.00 32.57 C +ATOM 1102 O HIS A 958 24.519 -20.037 24.355 1.00 31.73 O +ATOM 1103 CB HIS A 958 27.187 -19.786 25.352 1.00 29.04 C +ATOM 1104 CG HIS A 958 28.456 -19.315 26.023 1.00 32.49 C +ATOM 1105 ND1 HIS A 958 28.507 -18.181 26.814 1.00 33.92 N +ATOM 1106 CD2 HIS A 958 29.726 -19.846 26.066 1.00 35.02 C +ATOM 1107 CE1 HIS A 958 29.748 -18.089 27.296 1.00 34.19 C +ATOM 1108 NE2 HIS A 958 30.545 -19.062 26.878 1.00 35.23 N +ATOM 1109 H HIS A 958 26.461 -21.582 27.299 1.00 31.10 H +ATOM 1110 HA HIS A 958 25.747 -18.786 26.573 1.00 28.96 H +ATOM 1111 HB3 HIS A 958 27.000 -19.122 24.507 1.00 29.04 H +ATOM 1112 HB2 HIS A 958 27.368 -20.776 24.932 1.00 29.04 H +ATOM 1113 HD1 HIS A 958 27.740 -17.548 26.997 1.00 33.92 H +ATOM 1114 HD2 HIS A 958 30.112 -20.735 25.597 1.00 35.02 H +ATOM 1115 HE1 HIS A 958 30.079 -17.298 27.951 1.00 34.19 H +ATOM 1116 N ILE A 959 23.729 -20.852 26.321 1.00 29.43 N +ATOM 1117 CA ILE A 959 22.342 -21.118 25.945 1.00 29.06 C +ATOM 1118 C ILE A 959 21.453 -20.628 27.104 1.00 34.19 C +ATOM 1119 O ILE A 959 21.832 -20.796 28.264 1.00 34.87 O +ATOM 1120 CB ILE A 959 22.102 -22.640 25.667 1.00 32.42 C +ATOM 1121 CG1 ILE A 959 22.779 -23.049 24.335 1.00 31.82 C +ATOM 1122 CG2 ILE A 959 20.616 -23.070 25.673 1.00 33.60 C +ATOM 1123 CD1 ILE A 959 22.706 -24.545 24.000 1.00 34.12 C +ATOM 1124 H ILE A 959 23.937 -21.011 27.297 1.00 29.43 H +ATOM 1125 HA ILE A 959 22.080 -20.543 25.056 1.00 29.06 H +ATOM 1126 HB ILE A 959 22.591 -23.204 26.464 1.00 32.42 H +ATOM 1127 HG13 ILE A 959 23.830 -22.764 24.347 1.00 31.82 H +ATOM 1128 HG12 ILE A 959 22.330 -22.487 23.517 1.00 31.82 H +ATOM 1129 HG21 ILE A 959 20.485 -24.113 25.388 1.00 33.60 H +ATOM 1130 HG22 ILE A 959 20.172 -22.984 26.663 1.00 33.60 H +ATOM 1131 HG23 ILE A 959 20.027 -22.463 24.987 1.00 33.60 H +ATOM 1132 HD11 ILE A 959 23.495 -24.818 23.300 1.00 34.12 H +ATOM 1133 HD12 ILE A 959 22.818 -25.162 24.892 1.00 34.12 H +ATOM 1134 HD13 ILE A 959 21.757 -24.802 23.528 1.00 34.12 H +ATOM 1135 N ILE A 960 20.288 -20.035 26.779 1.00 30.03 N +ATOM 1136 CA ILE A 960 19.306 -19.567 27.764 1.00 29.96 C +ATOM 1137 C ILE A 960 18.755 -20.737 28.607 1.00 36.51 C +ATOM 1138 O ILE A 960 18.331 -21.751 28.050 1.00 36.48 O +ATOM 1139 CB ILE A 960 18.126 -18.785 27.108 1.00 31.92 C +ATOM 1140 CG1 ILE A 960 17.284 -18.036 28.169 1.00 32.20 C +ATOM 1141 CG2 ILE A 960 17.217 -19.643 26.199 1.00 32.38 C +ATOM 1142 CD1 ILE A 960 16.394 -16.910 27.618 1.00 35.95 C +ATOM 1143 H ILE A 960 20.037 -19.912 25.806 1.00 30.03 H +ATOM 1144 HA ILE A 960 19.840 -18.880 28.424 1.00 29.96 H +ATOM 1145 HB ILE A 960 18.586 -18.024 26.474 1.00 31.92 H +ATOM 1146 HG13 ILE A 960 17.958 -17.590 28.899 1.00 32.20 H +ATOM 1147 HG12 ILE A 960 16.668 -18.741 28.729 1.00 32.20 H +ATOM 1148 HG21 ILE A 960 16.534 -19.021 25.626 1.00 32.38 H +ATOM 1149 HG22 ILE A 960 17.796 -20.226 25.484 1.00 32.38 H +ATOM 1150 HG23 ILE A 960 16.598 -20.333 26.770 1.00 32.38 H +ATOM 1151 HD11 ILE A 960 15.411 -16.931 28.087 1.00 35.95 H +ATOM 1152 HD12 ILE A 960 16.824 -15.933 27.831 1.00 35.95 H +ATOM 1153 HD13 ILE A 960 16.255 -16.972 26.540 1.00 35.95 H +ATOM 1154 N LYS A 961 18.829 -20.591 29.937 1.00 34.67 N +ATOM 1155 CA LYS A 961 18.499 -21.657 30.875 1.00 35.80 C +ATOM 1156 C LYS A 961 16.981 -21.857 30.988 1.00 39.43 C +ATOM 1157 O LYS A 961 16.245 -20.898 31.234 1.00 38.19 O +ATOM 1158 CB LYS A 961 19.124 -21.361 32.253 1.00 38.94 C +ATOM 1159 CG LYS A 961 19.230 -22.619 33.138 1.00 58.93 C +ATOM 1160 CD LYS A 961 19.427 -22.321 34.630 1.00 70.54 C +ATOM 1161 CE LYS A 961 18.115 -21.925 35.328 1.00 82.57 C +ATOM 1162 NZ LYS A 961 18.315 -21.714 36.771 1.00 92.68 N1+ +ATOM 1163 H LYS A 961 19.203 -19.736 30.333 1.00 34.67 H +ATOM 1164 HA LYS A 961 18.946 -22.580 30.500 1.00 35.80 H +ATOM 1165 HB3 LYS A 961 18.558 -20.573 32.751 1.00 38.94 H +ATOM 1166 HB2 LYS A 961 20.132 -20.964 32.125 1.00 38.94 H +ATOM 1167 HG3 LYS A 961 20.072 -23.215 32.784 1.00 58.93 H +ATOM 1168 HG2 LYS A 961 18.356 -23.259 33.019 1.00 58.93 H +ATOM 1169 HD3 LYS A 961 20.163 -21.523 34.742 1.00 70.54 H +ATOM 1170 HD2 LYS A 961 19.857 -23.202 35.109 1.00 70.54 H +ATOM 1171 HE3 LYS A 961 17.367 -22.709 35.197 1.00 82.57 H +ATOM 1172 HE2 LYS A 961 17.703 -21.016 34.891 1.00 82.57 H +ATOM 1173 HZ1 LYS A 961 18.971 -20.959 36.913 1.00 92.68 H +ATOM 1174 HZ2 LYS A 961 17.433 -21.484 37.205 1.00 92.68 H +ATOM 1175 HZ3 LYS A 961 18.682 -22.559 37.186 1.00 92.68 H +ATOM 1176 N TYR A 962 16.570 -23.126 30.861 1.00 36.80 N +ATOM 1177 CA TYR A 962 15.235 -23.616 31.177 1.00 36.96 C +ATOM 1178 C TYR A 962 14.997 -23.543 32.698 1.00 41.79 C +ATOM 1179 O TYR A 962 15.725 -24.192 33.450 1.00 42.42 O +ATOM 1180 CB TYR A 962 15.121 -25.058 30.636 1.00 38.66 C +ATOM 1181 CG TYR A 962 13.801 -25.751 30.908 1.00 41.29 C +ATOM 1182 CD1 TYR A 962 12.707 -25.544 30.044 1.00 42.98 C +ATOM 1183 CD2 TYR A 962 13.661 -26.596 32.027 1.00 43.42 C +ATOM 1184 CE1 TYR A 962 11.471 -26.163 30.311 1.00 44.89 C +ATOM 1185 CE2 TYR A 962 12.424 -27.211 32.296 1.00 45.38 C +ATOM 1186 CZ TYR A 962 11.327 -26.988 31.442 1.00 52.70 C +ATOM 1187 OH TYR A 962 10.123 -27.566 31.719 1.00 55.50 O +ATOM 1188 H TYR A 962 17.250 -23.838 30.634 1.00 36.80 H +ATOM 1189 HA TYR A 962 14.503 -22.990 30.661 1.00 36.96 H +ATOM 1190 HB3 TYR A 962 15.921 -25.676 31.049 1.00 38.66 H +ATOM 1191 HB2 TYR A 962 15.285 -25.058 29.560 1.00 38.66 H +ATOM 1192 HD1 TYR A 962 12.815 -24.905 29.179 1.00 42.98 H +ATOM 1193 HD2 TYR A 962 14.496 -26.764 32.692 1.00 43.42 H +ATOM 1194 HE1 TYR A 962 10.633 -25.997 29.653 1.00 44.89 H +ATOM 1195 HE2 TYR A 962 12.317 -27.844 33.164 1.00 45.38 H +ATOM 1196 HH TYR A 962 9.430 -27.285 31.115 1.00 55.50 H +ATOM 1197 N LYS A 963 13.993 -22.755 33.115 1.00 38.30 N +ATOM 1198 CA LYS A 963 13.589 -22.625 34.517 1.00 39.16 C +ATOM 1199 C LYS A 963 12.521 -23.666 34.893 1.00 45.40 C +ATOM 1200 O LYS A 963 12.587 -24.205 35.997 1.00 46.37 O +ATOM 1201 CB LYS A 963 13.082 -21.191 34.783 1.00 40.34 C +ATOM 1202 CG LYS A 963 14.171 -20.101 34.717 1.00 48.32 C +ATOM 1203 CD LYS A 963 14.981 -19.919 36.012 1.00 58.85 C +ATOM 1204 CE LYS A 963 14.254 -19.036 37.044 1.00 66.91 C +ATOM 1205 NZ LYS A 963 15.022 -18.883 38.292 1.00 76.46 N1+ +ATOM 1206 H LYS A 963 13.434 -22.250 32.440 1.00 38.30 H +ATOM 1207 HA LYS A 963 14.454 -22.797 35.161 1.00 39.16 H +ATOM 1208 HB3 LYS A 963 12.587 -21.138 35.753 1.00 40.34 H +ATOM 1209 HB2 LYS A 963 12.312 -20.959 34.053 1.00 40.34 H +ATOM 1210 HG3 LYS A 963 13.698 -19.152 34.467 1.00 48.32 H +ATOM 1211 HG2 LYS A 963 14.854 -20.313 33.894 1.00 48.32 H +ATOM 1212 HD3 LYS A 963 15.946 -19.476 35.763 1.00 58.85 H +ATOM 1213 HD2 LYS A 963 15.194 -20.896 36.446 1.00 58.85 H +ATOM 1214 HE3 LYS A 963 13.274 -19.448 37.285 1.00 66.91 H +ATOM 1215 HE2 LYS A 963 14.094 -18.041 36.630 1.00 66.91 H +ATOM 1216 HZ1 LYS A 963 15.918 -18.462 38.093 1.00 76.46 H +ATOM 1217 HZ2 LYS A 963 14.512 -18.283 38.925 1.00 76.46 H +ATOM 1218 HZ3 LYS A 963 15.156 -19.784 38.726 1.00 76.46 H +ATOM 1219 N GLY A 964 11.574 -23.934 33.979 1.00 42.35 N +ATOM 1220 CA GLY A 964 10.457 -24.843 34.212 1.00 43.67 C +ATOM 1221 C GLY A 964 9.367 -24.580 33.168 1.00 48.54 C +ATOM 1222 O GLY A 964 9.619 -23.982 32.121 1.00 46.06 O +ATOM 1223 H GLY A 964 11.583 -23.452 33.090 1.00 42.35 H +ATOM 1224 HA3 GLY A 964 10.043 -24.691 35.209 1.00 43.67 H +ATOM 1225 HA2 GLY A 964 10.790 -25.878 34.149 1.00 43.67 H +ATOM 1226 N CYS A 965 8.147 -25.054 33.462 1.00 48.74 N +ATOM 1227 CA CYS A 965 6.945 -24.812 32.665 1.00 49.68 C +ATOM 1228 C CYS A 965 5.776 -24.470 33.595 1.00 55.91 C +ATOM 1229 O CYS A 965 5.690 -25.005 34.697 1.00 56.38 O +ATOM 1230 CB CYS A 965 6.565 -26.013 31.772 1.00 51.11 C +ATOM 1231 SG CYS A 965 7.545 -26.019 30.247 1.00 54.06 S +ATOM 1232 H CYS A 965 8.006 -25.562 34.327 1.00 48.74 H +ATOM 1233 HA CYS A 965 7.114 -23.936 32.040 1.00 49.68 H +ATOM 1234 HB3 CYS A 965 5.519 -25.961 31.469 1.00 51.11 H +ATOM 1235 HB2 CYS A 965 6.696 -26.958 32.301 1.00 51.11 H +ATOM 1236 HG CYS A 965 7.006 -24.910 29.733 1.00 54.06 H +ATOM 1237 N CYS A 966 4.876 -23.608 33.101 1.00 54.09 N +ATOM 1238 CA CYS A 966 3.621 -23.241 33.748 1.00 55.96 C +ATOM 1239 C CYS A 966 2.463 -23.870 32.961 1.00 62.28 C +ATOM 1240 O CYS A 966 2.467 -23.794 31.733 1.00 61.29 O +ATOM 1241 CB CYS A 966 3.492 -21.703 33.847 1.00 55.69 C +ATOM 1242 SG CYS A 966 1.919 -21.169 34.579 1.00 61.04 S +ATOM 1243 H CYS A 966 5.016 -23.230 32.172 1.00 54.09 H +ATOM 1244 HA CYS A 966 3.595 -23.652 34.755 1.00 55.96 H +ATOM 1245 HB3 CYS A 966 3.581 -21.244 32.864 1.00 55.69 H +ATOM 1246 HB2 CYS A 966 4.300 -21.288 34.446 1.00 55.69 H +ATOM 1247 HG CYS A 966 2.144 -21.699 35.786 1.00 61.04 H +ATOM 1248 N GLU A 967 1.479 -24.451 33.671 1.00 61.77 N +ATOM 1249 CA GLU A 967 0.229 -24.915 33.068 1.00 63.41 C +ATOM 1250 C GLU A 967 -0.655 -23.719 32.667 1.00 68.16 C +ATOM 1251 O GLU A 967 -1.154 -23.002 33.535 1.00 67.99 O +ATOM 1252 CB GLU A 967 -0.509 -25.915 33.989 1.00 66.64 C +ATOM 1253 CG GLU A 967 -0.710 -25.481 35.465 1.00 77.60 C +ATOM 1254 CD GLU A 967 -1.888 -26.181 36.161 1.00 97.39 C +ATOM 1255 OE1 GLU A 967 -3.010 -26.133 35.606 1.00 80.73 O +ATOM 1256 OE2 GLU A 967 -1.658 -26.730 37.260 1.00 93.21 O1- +ATOM 1257 H GLU A 967 1.526 -24.478 34.680 1.00 61.77 H +ATOM 1258 HA GLU A 967 0.478 -25.465 32.158 1.00 63.41 H +ATOM 1259 HB3 GLU A 967 0.029 -26.863 33.977 1.00 66.64 H +ATOM 1260 HB2 GLU A 967 -1.469 -26.139 33.520 1.00 66.64 H +ATOM 1261 HG3 GLU A 967 -0.892 -24.411 35.545 1.00 77.60 H +ATOM 1262 HG2 GLU A 967 0.215 -25.658 36.017 1.00 77.60 H +ATOM 1263 N ASP A 968 -0.813 -23.521 31.349 1.00 65.01 N +ATOM 1264 CA ASP A 968 -1.652 -22.472 30.780 1.00 65.30 C +ATOM 1265 C ASP A 968 -3.050 -23.082 30.577 1.00 71.73 C +ATOM 1266 O ASP A 968 -3.240 -23.888 29.664 1.00 72.14 O +ATOM 1267 CB ASP A 968 -1.028 -21.910 29.472 1.00 65.98 C +ATOM 1268 CG ASP A 968 -1.520 -20.533 28.988 1.00 76.78 C +ATOM 1269 OD1 ASP A 968 -2.364 -19.906 29.668 1.00 78.62 O +ATOM 1270 OD2 ASP A 968 -1.009 -20.108 27.929 1.00 81.41 O1- +ATOM 1271 H ASP A 968 -0.383 -24.149 30.684 1.00 65.01 H +ATOM 1272 HA ASP A 968 -1.722 -21.654 31.501 1.00 65.30 H +ATOM 1273 HB3 ASP A 968 -1.170 -22.612 28.652 1.00 65.98 H +ATOM 1274 HB2 ASP A 968 0.053 -21.854 29.603 1.00 65.98 H +ATOM 1275 N ALA A 969 -3.986 -22.710 31.468 1.00 69.40 N +ATOM 1276 CA ALA A 969 -5.380 -23.165 31.456 1.00 71.06 C +ATOM 1277 C ALA A 969 -6.167 -22.665 30.231 1.00 74.82 C +ATOM 1278 O ALA A 969 -6.974 -23.419 29.688 1.00 75.65 O +ATOM 1279 CB ALA A 969 -6.063 -22.742 32.765 1.00 72.75 C +ATOM 1280 H ALA A 969 -3.733 -22.073 32.209 1.00 69.40 H +ATOM 1281 HA ALA A 969 -5.371 -24.257 31.420 1.00 71.06 H +ATOM 1282 HB1 ALA A 969 -7.098 -23.085 32.800 1.00 72.75 H +ATOM 1283 HB2 ALA A 969 -5.550 -23.167 33.628 1.00 72.75 H +ATOM 1284 HB3 ALA A 969 -6.068 -21.657 32.883 1.00 72.75 H +ATOM 1285 N GLY A 970 -5.862 -21.433 29.784 1.00 69.85 N +ATOM 1286 CA GLY A 970 -6.248 -20.920 28.471 1.00 69.63 C +ATOM 1287 C GLY A 970 -5.288 -21.514 27.430 1.00 72.04 C +ATOM 1288 O GLY A 970 -4.125 -21.767 27.731 1.00 70.47 O +ATOM 1289 H GLY A 970 -5.169 -20.896 30.286 1.00 69.85 H +ATOM 1290 HA3 GLY A 970 -6.158 -19.834 28.467 1.00 69.63 H +ATOM 1291 HA2 GLY A 970 -7.285 -21.169 28.240 1.00 69.63 H +ATOM 1292 N ALA A 971 -5.786 -21.759 26.208 1.00 68.75 N +ATOM 1293 CA ALA A 971 -5.097 -22.444 25.101 1.00 67.63 C +ATOM 1294 C ALA A 971 -4.894 -23.962 25.295 1.00 70.96 C +ATOM 1295 O ALA A 971 -4.719 -24.643 24.288 1.00 70.74 O +ATOM 1296 CB ALA A 971 -3.758 -21.761 24.737 1.00 66.33 C +ATOM 1297 H ALA A 971 -6.749 -21.517 26.025 1.00 68.75 H +ATOM 1298 HA ALA A 971 -5.760 -22.329 24.243 1.00 67.63 H +ATOM 1299 HB1 ALA A 971 -3.359 -22.157 23.803 1.00 66.33 H +ATOM 1300 HB2 ALA A 971 -3.881 -20.686 24.611 1.00 66.33 H +ATOM 1301 HB3 ALA A 971 -2.988 -21.920 25.492 1.00 66.33 H +ATOM 1302 N ALA A 972 -4.929 -24.476 26.540 1.00 67.08 N +ATOM 1303 CA ALA A 972 -4.725 -25.882 26.919 1.00 67.03 C +ATOM 1304 C ALA A 972 -3.347 -26.418 26.479 1.00 68.25 C +ATOM 1305 O ALA A 972 -3.263 -27.413 25.757 1.00 68.65 O +ATOM 1306 CB ALA A 972 -5.901 -26.750 26.424 1.00 69.99 C +ATOM 1307 H ALA A 972 -5.060 -23.840 27.315 1.00 67.08 H +ATOM 1308 HA ALA A 972 -4.733 -25.906 28.009 1.00 67.03 H +ATOM 1309 HB1 ALA A 972 -5.809 -27.776 26.781 1.00 69.99 H +ATOM 1310 HB2 ALA A 972 -6.851 -26.364 26.794 1.00 69.99 H +ATOM 1311 HB3 ALA A 972 -5.959 -26.784 25.336 1.00 69.99 H +ATOM 1312 N SER A 973 -2.293 -25.709 26.907 1.00 61.75 N +ATOM 1313 CA SER A 973 -0.897 -25.966 26.555 1.00 59.58 C +ATOM 1314 C SER A 973 0.032 -25.538 27.704 1.00 60.06 C +ATOM 1315 O SER A 973 -0.437 -25.018 28.715 1.00 59.90 O +ATOM 1316 CB SER A 973 -0.580 -25.289 25.197 1.00 62.25 C +ATOM 1317 OG SER A 973 -0.668 -23.877 25.250 1.00 70.06 O +ATOM 1318 H SER A 973 -2.446 -24.912 27.510 1.00 61.75 H +ATOM 1319 HA SER A 973 -0.761 -27.043 26.442 1.00 59.58 H +ATOM 1320 HB3 SER A 973 -1.259 -25.649 24.423 1.00 62.25 H +ATOM 1321 HB2 SER A 973 0.425 -25.553 24.867 1.00 62.25 H +ATOM 1322 HG SER A 973 0.087 -23.524 25.728 1.00 70.06 H +ATOM 1323 N LEU A 974 1.341 -25.783 27.539 1.00 53.16 N +ATOM 1324 CA LEU A 974 2.366 -25.329 28.479 1.00 50.95 C +ATOM 1325 C LEU A 974 2.904 -23.958 28.051 1.00 51.52 C +ATOM 1326 O LEU A 974 3.071 -23.709 26.860 1.00 51.02 O +ATOM 1327 CB LEU A 974 3.525 -26.350 28.527 1.00 50.91 C +ATOM 1328 CG LEU A 974 3.184 -27.677 29.238 1.00 56.89 C +ATOM 1329 CD1 LEU A 974 4.307 -28.716 29.018 1.00 57.08 C +ATOM 1330 CD2 LEU A 974 2.857 -27.470 30.735 1.00 58.93 C +ATOM 1331 H LEU A 974 1.673 -26.231 26.698 1.00 53.16 H +ATOM 1332 HA LEU A 974 1.939 -25.228 29.478 1.00 50.95 H +ATOM 1333 HB3 LEU A 974 4.388 -25.907 29.030 1.00 50.91 H +ATOM 1334 HB2 LEU A 974 3.852 -26.557 27.507 1.00 50.91 H +ATOM 1335 HG LEU A 974 2.289 -28.085 28.767 1.00 56.89 H +ATOM 1336 HD11 LEU A 974 4.654 -29.176 29.942 1.00 57.08 H +ATOM 1337 HD12 LEU A 974 3.962 -29.523 28.371 1.00 57.08 H +ATOM 1338 HD13 LEU A 974 5.182 -28.275 28.540 1.00 57.08 H +ATOM 1339 HD21 LEU A 974 1.798 -27.647 30.925 1.00 58.93 H +ATOM 1340 HD22 LEU A 974 3.413 -28.138 31.392 1.00 58.93 H +ATOM 1341 HD23 LEU A 974 3.077 -26.456 31.069 1.00 58.93 H +ATOM 1342 N GLN A 975 3.209 -23.125 29.051 1.00 45.41 N +ATOM 1343 CA GLN A 975 4.022 -21.921 28.933 1.00 42.99 C +ATOM 1344 C GLN A 975 5.470 -22.276 29.295 1.00 44.61 C +ATOM 1345 O GLN A 975 5.701 -22.803 30.380 1.00 44.04 O +ATOM 1346 CB GLN A 975 3.448 -20.840 29.871 1.00 44.53 C +ATOM 1347 CG GLN A 975 2.469 -19.892 29.162 1.00 61.21 C +ATOM 1348 CD GLN A 975 1.825 -18.885 30.119 1.00 81.10 C +ATOM 1349 OE1 GLN A 975 1.355 -19.246 31.196 1.00 78.12 O +ATOM 1350 NE2 GLN A 975 1.779 -17.614 29.717 1.00 72.94 N +ATOM 1351 H GLN A 975 3.001 -23.408 30.001 1.00 45.41 H +ATOM 1352 HA GLN A 975 4.000 -21.549 27.906 1.00 42.99 H +ATOM 1353 HB3 GLN A 975 4.252 -20.248 30.303 1.00 44.53 H +ATOM 1354 HB2 GLN A 975 2.950 -21.316 30.716 1.00 44.53 H +ATOM 1355 HG3 GLN A 975 1.677 -20.467 28.685 1.00 61.21 H +ATOM 1356 HG2 GLN A 975 2.994 -19.364 28.366 1.00 61.21 H +ATOM 1357 HE22 GLN A 975 1.376 -16.905 30.311 1.00 72.94 H +ATOM 1358 HE21 GLN A 975 2.156 -17.350 28.819 1.00 72.94 H +ATOM 1359 N LEU A 976 6.407 -21.990 28.381 1.00 39.47 N +ATOM 1360 CA LEU A 976 7.838 -22.248 28.523 1.00 37.90 C +ATOM 1361 C LEU A 976 8.491 -21.126 29.345 1.00 40.35 C +ATOM 1362 O LEU A 976 8.784 -20.064 28.795 1.00 39.34 O +ATOM 1363 CB LEU A 976 8.433 -22.386 27.101 1.00 37.11 C +ATOM 1364 CG LEU A 976 9.952 -22.651 27.000 1.00 40.90 C +ATOM 1365 CD1 LEU A 976 10.403 -23.875 27.818 1.00 41.97 C +ATOM 1366 CD2 LEU A 976 10.397 -22.734 25.524 1.00 42.47 C +ATOM 1367 H LEU A 976 6.134 -21.504 27.537 1.00 39.47 H +ATOM 1368 HA LEU A 976 7.973 -23.193 29.050 1.00 37.90 H +ATOM 1369 HB3 LEU A 976 8.221 -21.470 26.551 1.00 37.11 H +ATOM 1370 HB2 LEU A 976 7.899 -23.176 26.573 1.00 37.11 H +ATOM 1371 HG LEU A 976 10.464 -21.787 27.419 1.00 40.90 H +ATOM 1372 HD11 LEU A 976 11.165 -24.466 27.310 1.00 41.97 H +ATOM 1373 HD12 LEU A 976 10.828 -23.555 28.770 1.00 41.97 H +ATOM 1374 HD13 LEU A 976 9.575 -24.546 28.043 1.00 41.97 H +ATOM 1375 HD21 LEU A 976 10.827 -23.703 25.268 1.00 42.47 H +ATOM 1376 HD22 LEU A 976 9.567 -22.568 24.835 1.00 42.47 H +ATOM 1377 HD23 LEU A 976 11.149 -21.977 25.300 1.00 42.47 H +ATOM 1378 N VAL A 977 8.689 -21.380 30.649 1.00 36.56 N +ATOM 1379 CA VAL A 977 9.308 -20.433 31.575 1.00 35.54 C +ATOM 1380 C VAL A 977 10.841 -20.554 31.469 1.00 37.55 C +ATOM 1381 O VAL A 977 11.401 -21.620 31.730 1.00 36.98 O +ATOM 1382 CB VAL A 977 8.869 -20.666 33.050 1.00 40.31 C +ATOM 1383 CG1 VAL A 977 9.444 -19.612 34.019 1.00 39.72 C +ATOM 1384 CG2 VAL A 977 7.334 -20.701 33.187 1.00 40.65 C +ATOM 1385 H VAL A 977 8.445 -22.283 31.032 1.00 36.56 H +ATOM 1386 HA VAL A 977 9.009 -19.420 31.302 1.00 35.54 H +ATOM 1387 HB VAL A 977 9.239 -21.636 33.383 1.00 40.31 H +ATOM 1388 HG11 VAL A 977 9.088 -19.780 35.034 1.00 39.72 H +ATOM 1389 HG12 VAL A 977 10.531 -19.623 34.059 1.00 39.72 H +ATOM 1390 HG13 VAL A 977 9.142 -18.606 33.733 1.00 39.72 H +ATOM 1391 HG21 VAL A 977 7.034 -20.825 34.227 1.00 40.65 H +ATOM 1392 HG22 VAL A 977 6.877 -19.784 32.820 1.00 40.65 H +ATOM 1393 HG23 VAL A 977 6.899 -21.530 32.631 1.00 40.65 H +ATOM 1394 N MET A 978 11.474 -19.449 31.057 1.00 33.46 N +ATOM 1395 CA MET A 978 12.917 -19.308 30.856 1.00 32.95 C +ATOM 1396 C MET A 978 13.431 -18.195 31.781 1.00 34.83 C +ATOM 1397 O MET A 978 12.632 -17.429 32.325 1.00 34.44 O +ATOM 1398 CB MET A 978 13.187 -18.952 29.373 1.00 34.83 C +ATOM 1399 CG MET A 978 12.629 -19.967 28.355 1.00 39.38 C +ATOM 1400 SD MET A 978 11.979 -19.255 26.816 1.00 43.64 S +ATOM 1401 CE MET A 978 13.522 -18.836 25.970 1.00 39.74 C +ATOM 1402 H MET A 978 10.935 -18.618 30.849 1.00 33.46 H +ATOM 1403 HA MET A 978 13.438 -20.234 31.106 1.00 32.95 H +ATOM 1404 HB3 MET A 978 14.264 -18.883 29.221 1.00 34.83 H +ATOM 1405 HB2 MET A 978 12.805 -17.957 29.144 1.00 34.83 H +ATOM 1406 HG3 MET A 978 11.815 -20.548 28.782 1.00 39.38 H +ATOM 1407 HG2 MET A 978 13.403 -20.691 28.111 1.00 39.38 H +ATOM 1408 HE1 MET A 978 13.309 -18.389 24.999 1.00 39.74 H +ATOM 1409 HE2 MET A 978 14.093 -18.123 26.559 1.00 39.74 H +ATOM 1410 HE3 MET A 978 14.130 -19.726 25.814 1.00 39.74 H +ATOM 1411 N GLU A 979 14.760 -18.111 31.950 1.00 30.88 N +ATOM 1412 CA GLU A 979 15.390 -17.026 32.709 1.00 31.01 C +ATOM 1413 C GLU A 979 15.279 -15.682 31.963 1.00 33.96 C +ATOM 1414 O GLU A 979 15.301 -15.655 30.731 1.00 33.16 O +ATOM 1415 CB GLU A 979 16.859 -17.378 33.030 1.00 32.59 C +ATOM 1416 CG GLU A 979 17.785 -17.548 31.802 1.00 38.59 C +ATOM 1417 CD GLU A 979 19.284 -17.688 32.106 1.00 54.98 C +ATOM 1418 OE1 GLU A 979 19.713 -17.419 33.249 1.00 53.00 O +ATOM 1419 OE2 GLU A 979 20.003 -18.067 31.158 1.00 47.78 O1- +ATOM 1420 H GLU A 979 15.378 -18.767 31.493 1.00 30.88 H +ATOM 1421 HA GLU A 979 14.861 -16.932 33.660 1.00 31.01 H +ATOM 1422 HB3 GLU A 979 16.885 -18.291 33.626 1.00 32.59 H +ATOM 1423 HB2 GLU A 979 17.250 -16.593 33.681 1.00 32.59 H +ATOM 1424 HG3 GLU A 979 17.692 -16.689 31.143 1.00 38.59 H +ATOM 1425 HG2 GLU A 979 17.458 -18.413 31.224 1.00 38.59 H +ATOM 1426 N TYR A 980 15.199 -14.591 32.739 1.00 30.58 N +ATOM 1427 CA TYR A 980 15.315 -13.229 32.231 1.00 29.64 C +ATOM 1428 C TYR A 980 16.802 -12.882 32.050 1.00 33.19 C +ATOM 1429 O TYR A 980 17.525 -12.796 33.042 1.00 33.65 O +ATOM 1430 CB TYR A 980 14.586 -12.267 33.191 1.00 31.56 C +ATOM 1431 CG TYR A 980 14.728 -10.789 32.867 1.00 33.54 C +ATOM 1432 CD1 TYR A 980 14.229 -10.281 31.648 1.00 34.71 C +ATOM 1433 CD2 TYR A 980 15.358 -9.919 33.781 1.00 34.80 C +ATOM 1434 CE1 TYR A 980 14.350 -8.910 31.351 1.00 34.79 C +ATOM 1435 CE2 TYR A 980 15.479 -8.548 33.483 1.00 35.43 C +ATOM 1436 CZ TYR A 980 14.972 -8.042 32.270 1.00 39.67 C +ATOM 1437 OH TYR A 980 15.089 -6.714 31.982 1.00 37.98 O +ATOM 1438 H TYR A 980 15.186 -14.690 33.745 1.00 30.58 H +ATOM 1439 HA TYR A 980 14.813 -13.168 31.263 1.00 29.64 H +ATOM 1440 HB3 TYR A 980 14.944 -12.430 34.209 1.00 31.56 H +ATOM 1441 HB2 TYR A 980 13.522 -12.506 33.208 1.00 31.56 H +ATOM 1442 HD1 TYR A 980 13.744 -10.940 30.942 1.00 34.71 H +ATOM 1443 HD2 TYR A 980 15.748 -10.296 34.715 1.00 34.80 H +ATOM 1444 HE1 TYR A 980 13.963 -8.527 30.419 1.00 34.79 H +ATOM 1445 HE2 TYR A 980 15.961 -7.889 34.190 1.00 35.43 H +ATOM 1446 HH TYR A 980 15.617 -6.237 32.626 1.00 37.98 H +ATOM 1447 N VAL A 981 17.216 -12.706 30.786 1.00 28.53 N +ATOM 1448 CA VAL A 981 18.579 -12.355 30.387 1.00 27.83 C +ATOM 1449 C VAL A 981 18.597 -10.821 30.141 1.00 31.81 C +ATOM 1450 O VAL A 981 17.989 -10.375 29.165 1.00 31.13 O +ATOM 1451 CB VAL A 981 18.965 -13.134 29.095 1.00 30.34 C +ATOM 1452 CG1 VAL A 981 20.337 -12.744 28.531 1.00 29.88 C +ATOM 1453 CG2 VAL A 981 18.952 -14.655 29.338 1.00 29.98 C +ATOM 1454 H VAL A 981 16.553 -12.806 30.030 1.00 28.53 H +ATOM 1455 HA VAL A 981 19.283 -12.656 31.162 1.00 27.83 H +ATOM 1456 HB VAL A 981 18.224 -12.933 28.320 1.00 30.34 H +ATOM 1457 HG11 VAL A 981 20.656 -13.419 27.738 1.00 29.88 H +ATOM 1458 HG12 VAL A 981 20.309 -11.743 28.109 1.00 29.88 H +ATOM 1459 HG13 VAL A 981 21.098 -12.783 29.307 1.00 29.88 H +ATOM 1460 HG21 VAL A 981 19.222 -15.207 28.437 1.00 29.98 H +ATOM 1461 HG22 VAL A 981 19.655 -14.938 30.122 1.00 29.98 H +ATOM 1462 HG23 VAL A 981 17.964 -14.997 29.639 1.00 29.98 H +ATOM 1463 N PRO A 982 19.147 -10.037 31.101 1.00 29.67 N +ATOM 1464 CA PRO A 982 18.639 -8.680 31.388 1.00 29.64 C +ATOM 1465 C PRO A 982 18.912 -7.561 30.367 1.00 33.07 C +ATOM 1466 O PRO A 982 18.112 -6.626 30.328 1.00 32.90 O +ATOM 1467 CB PRO A 982 19.218 -8.344 32.773 1.00 32.28 C +ATOM 1468 CG PRO A 982 20.472 -9.192 32.872 1.00 37.28 C +ATOM 1469 CD PRO A 982 20.053 -10.474 32.165 1.00 32.38 C +ATOM 1470 HA PRO A 982 17.554 -8.746 31.479 1.00 29.64 H +ATOM 1471 HB3 PRO A 982 18.510 -8.649 33.544 1.00 32.28 H +ATOM 1472 HB2 PRO A 982 19.424 -7.283 32.924 1.00 32.28 H +ATOM 1473 HG3 PRO A 982 20.813 -9.352 33.895 1.00 37.28 H +ATOM 1474 HG2 PRO A 982 21.276 -8.709 32.317 1.00 37.28 H +ATOM 1475 HD2 PRO A 982 20.914 -11.023 31.789 1.00 32.38 H +ATOM 1476 HD3 PRO A 982 19.517 -11.115 32.864 1.00 32.38 H +ATOM 1477 N LEU A 983 19.995 -7.646 29.571 1.00 28.89 N +ATOM 1478 CA LEU A 983 20.332 -6.616 28.573 1.00 28.09 C +ATOM 1479 C LEU A 983 19.669 -6.848 27.198 1.00 31.63 C +ATOM 1480 O LEU A 983 19.842 -6.009 26.314 1.00 31.29 O +ATOM 1481 CB LEU A 983 21.866 -6.440 28.465 1.00 27.80 C +ATOM 1482 CG LEU A 983 22.558 -5.965 29.763 1.00 33.19 C +ATOM 1483 CD1 LEU A 983 24.081 -5.913 29.575 1.00 33.28 C +ATOM 1484 CD2 LEU A 983 22.026 -4.612 30.275 1.00 36.05 C +ATOM 1485 H LEU A 983 20.619 -8.438 29.633 1.00 28.89 H +ATOM 1486 HA LEU A 983 19.927 -5.660 28.907 1.00 28.09 H +ATOM 1487 HB3 LEU A 983 22.094 -5.721 27.679 1.00 27.80 H +ATOM 1488 HB2 LEU A 983 22.321 -7.372 28.140 1.00 27.80 H +ATOM 1489 HG LEU A 983 22.368 -6.713 30.534 1.00 33.19 H +ATOM 1490 HD11 LEU A 983 24.589 -5.899 30.539 1.00 33.28 H +ATOM 1491 HD12 LEU A 983 24.442 -6.780 29.025 1.00 33.28 H +ATOM 1492 HD13 LEU A 983 24.387 -5.022 29.026 1.00 33.28 H +ATOM 1493 HD21 LEU A 983 22.831 -3.956 30.608 1.00 36.05 H +ATOM 1494 HD22 LEU A 983 21.473 -4.071 29.507 1.00 36.05 H +ATOM 1495 HD23 LEU A 983 21.357 -4.758 31.124 1.00 36.05 H +ATOM 1496 N GLY A 984 18.890 -7.936 27.048 1.00 28.20 N +ATOM 1497 CA GLY A 984 18.084 -8.227 25.860 1.00 27.78 C +ATOM 1498 C GLY A 984 18.943 -8.669 24.667 1.00 30.64 C +ATOM 1499 O GLY A 984 20.130 -8.956 24.813 1.00 29.20 O +ATOM 1500 H GLY A 984 18.802 -8.580 27.822 1.00 28.20 H +ATOM 1501 HA3 GLY A 984 17.495 -7.349 25.587 1.00 27.78 H +ATOM 1502 HA2 GLY A 984 17.380 -9.022 26.103 1.00 27.78 H +ATOM 1503 N SER A 985 18.317 -8.749 23.480 1.00 28.55 N +ATOM 1504 CA SER A 985 18.951 -9.171 22.227 1.00 28.82 C +ATOM 1505 C SER A 985 20.060 -8.215 21.759 1.00 33.90 C +ATOM 1506 O SER A 985 19.966 -7.011 21.995 1.00 33.59 O +ATOM 1507 CB SER A 985 17.876 -9.396 21.142 1.00 32.30 C +ATOM 1508 OG SER A 985 17.389 -8.200 20.566 1.00 42.00 O +ATOM 1509 H SER A 985 17.340 -8.487 23.421 1.00 28.55 H +ATOM 1510 HA SER A 985 19.404 -10.141 22.415 1.00 28.82 H +ATOM 1511 HB3 SER A 985 17.042 -9.980 21.531 1.00 32.30 H +ATOM 1512 HB2 SER A 985 18.316 -9.980 20.334 1.00 32.30 H +ATOM 1513 HG SER A 985 16.773 -7.787 21.178 1.00 42.00 H +ATOM 1514 N LEU A 986 21.062 -8.772 21.059 1.00 31.00 N +ATOM 1515 CA LEU A 986 22.125 -8.014 20.394 1.00 30.48 C +ATOM 1516 C LEU A 986 21.605 -7.114 19.257 1.00 33.31 C +ATOM 1517 O LEU A 986 22.225 -6.084 18.997 1.00 33.64 O +ATOM 1518 CB LEU A 986 23.210 -8.986 19.881 1.00 30.40 C +ATOM 1519 CG LEU A 986 24.128 -9.552 20.985 1.00 35.53 C +ATOM 1520 CD1 LEU A 986 25.052 -10.642 20.414 1.00 35.79 C +ATOM 1521 CD2 LEU A 986 24.943 -8.456 21.703 1.00 38.28 C +ATOM 1522 H LEU A 986 21.075 -9.774 20.917 1.00 31.00 H +ATOM 1523 HA LEU A 986 22.567 -7.346 21.134 1.00 30.48 H +ATOM 1524 HB3 LEU A 986 23.838 -8.492 19.141 1.00 30.40 H +ATOM 1525 HB2 LEU A 986 22.729 -9.805 19.345 1.00 30.40 H +ATOM 1526 HG LEU A 986 23.493 -10.037 21.728 1.00 35.53 H +ATOM 1527 HD11 LEU A 986 25.206 -11.434 21.140 1.00 35.79 H +ATOM 1528 HD12 LEU A 986 24.632 -11.109 19.524 1.00 35.79 H +ATOM 1529 HD13 LEU A 986 26.035 -10.251 20.151 1.00 35.79 H +ATOM 1530 HD21 LEU A 986 25.956 -8.784 21.937 1.00 38.28 H +ATOM 1531 HD22 LEU A 986 25.028 -7.553 21.100 1.00 38.28 H +ATOM 1532 HD23 LEU A 986 24.474 -8.175 22.645 1.00 38.28 H +ATOM 1533 N ARG A 987 20.464 -7.478 18.641 1.00 28.99 N +ATOM 1534 CA ARG A 987 19.779 -6.663 17.636 1.00 29.21 C +ATOM 1535 C ARG A 987 19.210 -5.348 18.196 1.00 33.52 C +ATOM 1536 O ARG A 987 19.245 -4.341 17.490 1.00 33.67 O +ATOM 1537 CB ARG A 987 18.713 -7.501 16.906 1.00 29.17 C +ATOM 1538 CG ARG A 987 18.129 -6.810 15.659 1.00 39.55 C +ATOM 1539 CD ARG A 987 17.141 -7.706 14.902 1.00 49.36 C +ATOM 1540 NE ARG A 987 16.507 -7.009 13.772 1.00 53.79 N +ATOM 1541 CZ ARG A 987 15.388 -6.263 13.794 1.00 68.35 C +ATOM 1542 NH1 ARG A 987 14.961 -5.717 12.649 1.00 56.50 N +ATOM 1543 NH2 ARG A 987 14.686 -6.052 14.919 1.00 54.98 N1+ +ATOM 1544 H ARG A 987 20.008 -8.339 18.910 1.00 28.99 H +ATOM 1545 HA ARG A 987 20.529 -6.397 16.900 1.00 29.21 H +ATOM 1546 HB3 ARG A 987 17.908 -7.757 17.597 1.00 29.17 H +ATOM 1547 HB2 ARG A 987 19.160 -8.443 16.591 1.00 29.17 H +ATOM 1548 HG3 ARG A 987 18.979 -6.622 15.001 1.00 39.55 H +ATOM 1549 HG2 ARG A 987 17.691 -5.834 15.870 1.00 39.55 H +ATOM 1550 HD3 ARG A 987 16.430 -8.199 15.565 1.00 49.36 H +ATOM 1551 HD2 ARG A 987 17.714 -8.497 14.424 1.00 49.36 H +ATOM 1552 HE ARG A 987 17.019 -7.062 12.901 1.00 53.79 H +ATOM 1553 HH12 ARG A 987 14.112 -5.168 12.632 1.00 56.50 H +ATOM 1554 HH11 ARG A 987 15.490 -5.839 11.795 1.00 56.50 H +ATOM 1555 HH22 ARG A 987 13.850 -5.484 14.903 1.00 54.98 H +ATOM 1556 HH21 ARG A 987 15.029 -6.399 15.805 1.00 54.98 H +ATOM 1557 N ASP A 988 18.720 -5.381 19.445 1.00 29.93 N +ATOM 1558 CA ASP A 988 18.167 -4.223 20.152 1.00 30.04 C +ATOM 1559 C ASP A 988 19.233 -3.464 20.961 1.00 32.34 C +ATOM 1560 O ASP A 988 19.069 -2.260 21.157 1.00 31.73 O +ATOM 1561 CB ASP A 988 16.979 -4.600 21.074 1.00 32.05 C +ATOM 1562 CG ASP A 988 15.782 -5.295 20.395 1.00 43.56 C +ATOM 1563 OD1 ASP A 988 15.590 -5.120 19.169 1.00 45.11 O +ATOM 1564 OD2 ASP A 988 14.995 -5.908 21.150 1.00 48.99 O1- +ATOM 1565 H ASP A 988 18.713 -6.255 19.953 1.00 29.93 H +ATOM 1566 HA ASP A 988 17.791 -3.514 19.412 1.00 30.04 H +ATOM 1567 HB3 ASP A 988 16.595 -3.706 21.567 1.00 32.05 H +ATOM 1568 HB2 ASP A 988 17.342 -5.264 21.862 1.00 32.05 H +ATOM 1569 N TYR A 989 20.292 -4.153 21.418 1.00 28.95 N +ATOM 1570 CA TYR A 989 21.330 -3.573 22.268 1.00 29.15 C +ATOM 1571 C TYR A 989 22.364 -2.760 21.468 1.00 31.16 C +ATOM 1572 O TYR A 989 22.593 -1.604 21.815 1.00 30.48 O +ATOM 1573 CB TYR A 989 21.979 -4.675 23.130 1.00 30.55 C +ATOM 1574 CG TYR A 989 22.934 -4.172 24.200 1.00 33.46 C +ATOM 1575 CD1 TYR A 989 22.440 -3.805 25.469 1.00 36.07 C +ATOM 1576 CD2 TYR A 989 24.315 -4.076 23.935 1.00 34.34 C +ATOM 1577 CE1 TYR A 989 23.322 -3.352 26.470 1.00 37.67 C +ATOM 1578 CE2 TYR A 989 25.196 -3.619 24.934 1.00 36.12 C +ATOM 1579 CZ TYR A 989 24.701 -3.258 26.202 1.00 44.39 C +ATOM 1580 OH TYR A 989 25.560 -2.817 27.166 1.00 47.21 O +ATOM 1581 H TYR A 989 20.351 -5.149 21.249 1.00 28.95 H +ATOM 1582 HA TYR A 989 20.846 -2.882 22.961 1.00 29.15 H +ATOM 1583 HB3 TYR A 989 22.499 -5.396 22.497 1.00 30.55 H +ATOM 1584 HB2 TYR A 989 21.197 -5.241 23.639 1.00 30.55 H +ATOM 1585 HD1 TYR A 989 21.383 -3.872 25.681 1.00 36.07 H +ATOM 1586 HD2 TYR A 989 24.700 -4.351 22.966 1.00 34.34 H +ATOM 1587 HE1 TYR A 989 22.934 -3.075 27.439 1.00 37.67 H +ATOM 1588 HE2 TYR A 989 26.251 -3.545 24.725 1.00 36.12 H +ATOM 1589 HH TYR A 989 25.118 -2.580 27.985 1.00 47.21 H +ATOM 1590 N LEU A 990 22.966 -3.361 20.424 1.00 27.50 N +ATOM 1591 CA LEU A 990 24.083 -2.767 19.673 1.00 27.56 C +ATOM 1592 C LEU A 990 23.823 -1.443 18.912 1.00 33.09 C +ATOM 1593 O LEU A 990 24.774 -0.667 18.812 1.00 33.21 O +ATOM 1594 CB LEU A 990 24.748 -3.795 18.732 1.00 26.92 C +ATOM 1595 CG LEU A 990 25.389 -5.021 19.415 1.00 30.54 C +ATOM 1596 CD1 LEU A 990 25.828 -6.048 18.351 1.00 29.71 C +ATOM 1597 CD2 LEU A 990 26.546 -4.631 20.360 1.00 32.34 C +ATOM 1598 H LEU A 990 22.704 -4.302 20.162 1.00 27.50 H +ATOM 1599 HA LEU A 990 24.817 -2.505 20.435 1.00 27.56 H +ATOM 1600 HB3 LEU A 990 25.521 -3.298 18.144 1.00 26.92 H +ATOM 1601 HB2 LEU A 990 24.004 -4.139 18.012 1.00 26.92 H +ATOM 1602 HG LEU A 990 24.626 -5.503 20.026 1.00 30.54 H +ATOM 1603 HD11 LEU A 990 26.807 -6.483 18.548 1.00 29.71 H +ATOM 1604 HD12 LEU A 990 25.120 -6.872 18.301 1.00 29.71 H +ATOM 1605 HD13 LEU A 990 25.869 -5.610 17.354 1.00 29.71 H +ATOM 1606 HD21 LEU A 990 27.454 -5.201 20.178 1.00 32.34 H +ATOM 1607 HD22 LEU A 990 26.820 -3.580 20.270 1.00 32.34 H +ATOM 1608 HD23 LEU A 990 26.271 -4.810 21.399 1.00 32.34 H +ATOM 1609 N PRO A 991 22.583 -1.137 18.453 1.00 30.84 N +ATOM 1610 CA PRO A 991 22.269 0.193 17.891 1.00 32.19 C +ATOM 1611 C PRO A 991 22.301 1.365 18.891 1.00 38.38 C +ATOM 1612 O PRO A 991 22.471 2.502 18.453 1.00 40.06 O +ATOM 1613 CB PRO A 991 20.881 0.022 17.251 1.00 33.95 C +ATOM 1614 CG PRO A 991 20.764 -1.468 16.989 1.00 37.17 C +ATOM 1615 CD PRO A 991 21.491 -2.070 18.182 1.00 32.07 C +ATOM 1616 HA PRO A 991 22.995 0.394 17.103 1.00 32.19 H +ATOM 1617 HB3 PRO A 991 20.765 0.610 16.339 1.00 33.95 H +ATOM 1618 HB2 PRO A 991 20.094 0.328 17.942 1.00 33.95 H +ATOM 1619 HG3 PRO A 991 21.295 -1.721 16.071 1.00 37.17 H +ATOM 1620 HG2 PRO A 991 19.733 -1.805 16.886 1.00 37.17 H +ATOM 1621 HD2 PRO A 991 20.829 -2.091 19.045 1.00 32.07 H +ATOM 1622 HD3 PRO A 991 21.822 -3.087 17.974 1.00 32.07 H +ATOM 1623 N ARG A 992 22.153 1.073 20.195 1.00 35.01 N +ATOM 1624 CA ARG A 992 22.210 2.053 21.282 1.00 36.61 C +ATOM 1625 C ARG A 992 23.541 2.006 22.057 1.00 41.96 C +ATOM 1626 O ARG A 992 23.798 2.941 22.815 1.00 42.49 O +ATOM 1627 CB ARG A 992 21.027 1.819 22.249 1.00 37.36 C +ATOM 1628 CG ARG A 992 19.645 2.158 21.659 1.00 49.56 C +ATOM 1629 CD ARG A 992 18.894 0.970 21.033 1.00 62.43 C +ATOM 1630 NE ARG A 992 17.655 1.411 20.365 1.00 76.86 N +ATOM 1631 CZ ARG A 992 16.664 0.643 19.872 1.00 94.72 C +ATOM 1632 NH1 ARG A 992 16.703 -0.697 19.920 1.00 80.19 N +ATOM 1633 NH2 ARG A 992 15.601 1.237 19.317 1.00 85.18 N1+ +ATOM 1634 H ARG A 992 22.026 0.110 20.477 1.00 35.01 H +ATOM 1635 HA ARG A 992 22.123 3.066 20.884 1.00 36.61 H +ATOM 1636 HB3 ARG A 992 21.164 2.456 23.124 1.00 37.36 H +ATOM 1637 HB2 ARG A 992 21.036 0.796 22.628 1.00 37.36 H +ATOM 1638 HG3 ARG A 992 19.672 3.031 21.004 1.00 49.56 H +ATOM 1639 HG2 ARG A 992 19.051 2.469 22.520 1.00 49.56 H +ATOM 1640 HD3 ARG A 992 18.549 0.339 21.852 1.00 62.43 H +ATOM 1641 HD2 ARG A 992 19.528 0.346 20.403 1.00 62.43 H +ATOM 1642 HE ARG A 992 17.554 2.412 20.283 1.00 76.86 H +ATOM 1643 HH12 ARG A 992 15.949 -1.254 19.544 1.00 80.19 H +ATOM 1644 HH11 ARG A 992 17.498 -1.162 20.341 1.00 80.19 H +ATOM 1645 HH22 ARG A 992 14.845 0.684 18.940 1.00 85.18 H +ATOM 1646 HH21 ARG A 992 15.545 2.244 19.267 1.00 85.18 H +ATOM 1647 N HIS A 993 24.347 0.943 21.885 1.00 38.33 N +ATOM 1648 CA HIS A 993 25.574 0.705 22.648 1.00 38.71 C +ATOM 1649 C HIS A 993 26.709 0.323 21.692 1.00 42.65 C +ATOM 1650 O HIS A 993 26.694 -0.774 21.134 1.00 40.98 O +ATOM 1651 CB HIS A 993 25.336 -0.396 23.705 1.00 39.08 C +ATOM 1652 CG HIS A 993 24.235 -0.112 24.699 1.00 42.76 C +ATOM 1653 ND1 HIS A 993 22.914 -0.453 24.466 1.00 43.94 N +ATOM 1654 CD2 HIS A 993 24.249 0.454 25.955 1.00 45.73 C +ATOM 1655 CE1 HIS A 993 22.209 -0.081 25.535 1.00 44.05 C +ATOM 1656 NE2 HIS A 993 22.954 0.476 26.481 1.00 45.41 N +ATOM 1657 H HIS A 993 24.087 0.218 21.232 1.00 38.33 H +ATOM 1658 HA HIS A 993 25.874 1.612 23.178 1.00 38.71 H +ATOM 1659 HB3 HIS A 993 26.255 -0.575 24.265 1.00 39.08 H +ATOM 1660 HB2 HIS A 993 25.099 -1.337 23.208 1.00 39.08 H +ATOM 1661 HD1 HIS A 993 22.557 -0.900 23.631 1.00 43.94 H +ATOM 1662 HD2 HIS A 993 25.085 0.844 26.517 1.00 45.73 H +ATOM 1663 HE1 HIS A 993 21.142 -0.224 25.623 1.00 44.05 H +ATOM 1664 N SER A 994 27.680 1.238 21.536 1.00 41.21 N +ATOM 1665 CA SER A 994 28.891 1.065 20.733 1.00 41.44 C +ATOM 1666 C SER A 994 29.927 0.177 21.455 1.00 45.78 C +ATOM 1667 O SER A 994 30.820 0.688 22.133 1.00 47.02 O +ATOM 1668 CB SER A 994 29.418 2.462 20.332 1.00 46.40 C +ATOM 1669 OG SER A 994 29.799 3.248 21.446 1.00 57.42 O +ATOM 1670 H SER A 994 27.616 2.117 22.030 1.00 41.21 H +ATOM 1671 HA SER A 994 28.614 0.560 19.807 1.00 41.44 H +ATOM 1672 HB3 SER A 994 28.659 3.004 19.767 1.00 46.40 H +ATOM 1673 HB2 SER A 994 30.280 2.359 19.673 1.00 46.40 H +ATOM 1674 HG SER A 994 30.515 2.793 21.901 1.00 57.42 H +ATOM 1675 N ILE A 995 29.767 -1.148 21.307 1.00 40.89 N +ATOM 1676 CA ILE A 995 30.628 -2.163 21.913 1.00 40.07 C +ATOM 1677 C ILE A 995 31.894 -2.387 21.060 1.00 44.07 C +ATOM 1678 O ILE A 995 31.790 -2.534 19.843 1.00 44.25 O +ATOM 1679 CB ILE A 995 29.858 -3.509 22.081 1.00 41.77 C +ATOM 1680 CG1 ILE A 995 28.649 -3.376 23.038 1.00 42.23 C +ATOM 1681 CG2 ILE A 995 30.732 -4.704 22.513 1.00 41.27 C +ATOM 1682 CD1 ILE A 995 28.996 -3.044 24.502 1.00 48.36 C +ATOM 1683 H ILE A 995 29.009 -1.493 20.735 1.00 40.89 H +ATOM 1684 HA ILE A 995 30.938 -1.810 22.896 1.00 40.07 H +ATOM 1685 HB ILE A 995 29.444 -3.769 21.105 1.00 41.77 H +ATOM 1686 HG13 ILE A 995 28.079 -4.306 23.018 1.00 42.23 H +ATOM 1687 HG12 ILE A 995 27.961 -2.619 22.661 1.00 42.23 H +ATOM 1688 HG21 ILE A 995 30.126 -5.583 22.722 1.00 41.27 H +ATOM 1689 HG22 ILE A 995 31.439 -4.995 21.738 1.00 41.27 H +ATOM 1690 HG23 ILE A 995 31.296 -4.474 23.417 1.00 41.27 H +ATOM 1691 HD11 ILE A 995 28.646 -3.831 25.171 1.00 48.36 H +ATOM 1692 HD12 ILE A 995 30.066 -2.931 24.672 1.00 48.36 H +ATOM 1693 HD13 ILE A 995 28.517 -2.115 24.811 1.00 48.36 H +ATOM 1694 N GLY A 996 33.063 -2.416 21.724 1.00 39.98 N +ATOM 1695 CA GLY A 996 34.384 -2.562 21.105 1.00 39.29 C +ATOM 1696 C GLY A 996 34.550 -3.896 20.358 1.00 40.05 C +ATOM 1697 O GLY A 996 33.909 -4.891 20.692 1.00 38.32 O +ATOM 1698 H GLY A 996 33.052 -2.267 22.725 1.00 39.98 H +ATOM 1699 HA3 GLY A 996 35.144 -2.499 21.885 1.00 39.29 H +ATOM 1700 HA2 GLY A 996 34.553 -1.727 20.424 1.00 39.29 H +ATOM 1701 N LEU A 997 35.447 -3.896 19.357 1.00 35.32 N +ATOM 1702 CA LEU A 997 35.746 -5.005 18.442 1.00 33.81 C +ATOM 1703 C LEU A 997 36.114 -6.329 19.139 1.00 36.88 C +ATOM 1704 O LEU A 997 35.642 -7.377 18.700 1.00 35.91 O +ATOM 1705 CB LEU A 997 36.840 -4.530 17.452 1.00 34.36 C +ATOM 1706 CG LEU A 997 37.334 -5.557 16.405 1.00 38.90 C +ATOM 1707 CD1 LEU A 997 36.197 -6.115 15.521 1.00 38.26 C +ATOM 1708 CD2 LEU A 997 38.490 -4.976 15.568 1.00 41.70 C +ATOM 1709 H LEU A 997 35.951 -3.039 19.167 1.00 35.32 H +ATOM 1710 HA LEU A 997 34.828 -5.187 17.881 1.00 33.81 H +ATOM 1711 HB3 LEU A 997 37.701 -4.195 18.033 1.00 34.36 H +ATOM 1712 HB2 LEU A 997 36.477 -3.646 16.927 1.00 34.36 H +ATOM 1713 HG LEU A 997 37.770 -6.391 16.951 1.00 38.90 H +ATOM 1714 HD11 LEU A 997 36.462 -6.131 14.464 1.00 38.26 H +ATOM 1715 HD12 LEU A 997 35.958 -7.141 15.802 1.00 38.26 H +ATOM 1716 HD13 LEU A 997 35.282 -5.530 15.610 1.00 38.26 H +ATOM 1717 HD21 LEU A 997 39.253 -5.732 15.381 1.00 41.70 H +ATOM 1718 HD22 LEU A 997 38.150 -4.599 14.604 1.00 41.70 H +ATOM 1719 HD23 LEU A 997 38.982 -4.144 16.073 1.00 41.70 H +ATOM 1720 N ALA A 998 36.901 -6.256 20.227 1.00 33.43 N +ATOM 1721 CA ALA A 998 37.276 -7.400 21.061 1.00 33.09 C +ATOM 1722 C ALA A 998 36.076 -8.103 21.712 1.00 35.86 C +ATOM 1723 O ALA A 998 36.036 -9.330 21.715 1.00 35.58 O +ATOM 1724 CB ALA A 998 38.253 -6.935 22.146 1.00 35.01 C +ATOM 1725 H ALA A 998 37.255 -5.355 20.519 1.00 33.43 H +ATOM 1726 HA ALA A 998 37.790 -8.121 20.422 1.00 33.09 H +ATOM 1727 HB1 ALA A 998 38.622 -7.777 22.733 1.00 35.01 H +ATOM 1728 HB2 ALA A 998 39.113 -6.445 21.698 1.00 35.01 H +ATOM 1729 HB3 ALA A 998 37.791 -6.224 22.831 1.00 35.01 H +ATOM 1730 N GLN A 999 35.116 -7.315 22.223 1.00 31.89 N +ATOM 1731 CA GLN A 999 33.880 -7.802 22.834 1.00 30.92 C +ATOM 1732 C GLN A 999 32.881 -8.397 21.827 1.00 33.19 C +ATOM 1733 O GLN A 999 32.174 -9.331 22.195 1.00 33.08 O +ATOM 1734 CB GLN A 999 33.251 -6.680 23.677 1.00 32.41 C +ATOM 1735 CG GLN A 999 33.987 -6.450 25.006 1.00 52.37 C +ATOM 1736 CD GLN A 999 33.494 -5.189 25.712 1.00 73.00 C +ATOM 1737 OE1 GLN A 999 34.024 -4.104 25.488 1.00 69.33 O +ATOM 1738 NE2 GLN A 999 32.482 -5.324 26.568 1.00 62.35 N +ATOM 1739 H GLN A 999 35.208 -6.312 22.149 1.00 31.89 H +ATOM 1740 HA GLN A 999 34.150 -8.610 23.516 1.00 30.92 H +ATOM 1741 HB3 GLN A 999 32.206 -6.912 23.894 1.00 32.41 H +ATOM 1742 HB2 GLN A 999 33.250 -5.758 23.097 1.00 32.41 H +ATOM 1743 HG3 GLN A 999 35.058 -6.339 24.831 1.00 52.37 H +ATOM 1744 HG2 GLN A 999 33.870 -7.317 25.656 1.00 52.37 H +ATOM 1745 HE22 GLN A 999 32.125 -4.520 27.065 1.00 62.35 H +ATOM 1746 HE21 GLN A 999 32.045 -6.226 26.715 1.00 62.35 H +ATOM 1747 N LEU A1000 32.873 -7.901 20.577 1.00 29.01 N +ATOM 1748 CA LEU A1000 32.087 -8.472 19.476 1.00 27.87 C +ATOM 1749 C LEU A1000 32.642 -9.834 19.015 1.00 31.14 C +ATOM 1750 O LEU A1000 31.852 -10.726 18.709 1.00 30.54 O +ATOM 1751 CB LEU A1000 32.016 -7.477 18.294 1.00 27.97 C +ATOM 1752 CG LEU A1000 31.326 -6.133 18.620 1.00 32.44 C +ATOM 1753 CD1 LEU A1000 31.537 -5.108 17.487 1.00 32.80 C +ATOM 1754 CD2 LEU A1000 29.839 -6.308 18.998 1.00 33.13 C +ATOM 1755 H LEU A1000 33.468 -7.117 20.346 1.00 29.01 H +ATOM 1756 HA LEU A1000 31.076 -8.652 19.843 1.00 27.87 H +ATOM 1757 HB3 LEU A1000 31.496 -7.942 17.455 1.00 27.97 H +ATOM 1758 HB2 LEU A1000 33.029 -7.279 17.942 1.00 27.97 H +ATOM 1759 HG LEU A1000 31.814 -5.708 19.495 1.00 32.44 H +ATOM 1760 HD11 LEU A1000 30.623 -4.587 17.208 1.00 32.80 H +ATOM 1761 HD12 LEU A1000 32.252 -4.343 17.791 1.00 32.80 H +ATOM 1762 HD13 LEU A1000 31.930 -5.570 16.582 1.00 32.80 H +ATOM 1763 HD21 LEU A1000 29.686 -6.082 20.053 1.00 33.13 H +ATOM 1764 HD22 LEU A1000 29.176 -5.655 18.431 1.00 33.13 H +ATOM 1765 HD23 LEU A1000 29.488 -7.326 18.840 1.00 33.13 H +ATOM 1766 N LEU A1001 33.979 -9.987 19.029 1.00 28.08 N +ATOM 1767 CA LEU A1001 34.681 -11.248 18.769 1.00 27.64 C +ATOM 1768 C LEU A1001 34.567 -12.244 19.938 1.00 30.50 C +ATOM 1769 O LEU A1001 34.629 -13.447 19.691 1.00 29.91 O +ATOM 1770 CB LEU A1001 36.162 -10.960 18.442 1.00 28.50 C +ATOM 1771 CG LEU A1001 36.376 -10.217 17.104 1.00 33.08 C +ATOM 1772 CD1 LEU A1001 37.804 -9.642 17.026 1.00 34.30 C +ATOM 1773 CD2 LEU A1001 36.018 -11.096 15.884 1.00 34.36 C +ATOM 1774 H LEU A1001 34.562 -9.198 19.275 1.00 28.08 H +ATOM 1775 HA LEU A1001 34.216 -11.721 17.903 1.00 27.64 H +ATOM 1776 HB3 LEU A1001 36.735 -11.889 18.423 1.00 28.50 H +ATOM 1777 HB2 LEU A1001 36.589 -10.370 19.254 1.00 28.50 H +ATOM 1778 HG LEU A1001 35.701 -9.363 17.072 1.00 33.08 H +ATOM 1779 HD11 LEU A1001 38.257 -9.767 16.043 1.00 34.30 H +ATOM 1780 HD12 LEU A1001 37.797 -8.576 17.237 1.00 34.30 H +ATOM 1781 HD13 LEU A1001 38.470 -10.102 17.756 1.00 34.30 H +ATOM 1782 HD21 LEU A1001 36.812 -11.136 15.140 1.00 34.36 H +ATOM 1783 HD22 LEU A1001 35.804 -12.126 16.170 1.00 34.36 H +ATOM 1784 HD23 LEU A1001 35.130 -10.711 15.380 1.00 34.36 H +ATOM 1785 N LEU A1002 34.368 -11.739 21.170 1.00 26.26 N +ATOM 1786 CA LEU A1002 34.068 -12.545 22.353 1.00 26.18 C +ATOM 1787 C LEU A1002 32.643 -13.115 22.296 1.00 29.74 C +ATOM 1788 O LEU A1002 32.467 -14.280 22.632 1.00 29.11 O +ATOM 1789 CB LEU A1002 34.295 -11.712 23.634 1.00 26.72 C +ATOM 1790 CG LEU A1002 34.201 -12.494 24.965 1.00 31.57 C +ATOM 1791 CD1 LEU A1002 35.231 -13.641 25.055 1.00 32.44 C +ATOM 1792 CD2 LEU A1002 34.294 -11.534 26.167 1.00 33.78 C +ATOM 1793 H LEU A1002 34.359 -10.737 21.298 1.00 26.26 H +ATOM 1794 HA LEU A1002 34.765 -13.384 22.355 1.00 26.18 H +ATOM 1795 HB3 LEU A1002 33.566 -10.903 23.658 1.00 26.72 H +ATOM 1796 HB2 LEU A1002 35.268 -11.228 23.581 1.00 26.72 H +ATOM 1797 HG LEU A1002 33.209 -12.943 25.019 1.00 31.57 H +ATOM 1798 HD11 LEU A1002 35.711 -13.696 26.032 1.00 32.44 H +ATOM 1799 HD12 LEU A1002 34.749 -14.604 24.882 1.00 32.44 H +ATOM 1800 HD13 LEU A1002 36.026 -13.538 24.315 1.00 32.44 H +ATOM 1801 HD21 LEU A1002 33.526 -11.762 26.906 1.00 33.78 H +ATOM 1802 HD22 LEU A1002 35.260 -11.592 26.667 1.00 33.78 H +ATOM 1803 HD23 LEU A1002 34.156 -10.493 25.870 1.00 33.78 H +ATOM 1804 N PHE A1003 31.663 -12.318 21.831 1.00 26.54 N +ATOM 1805 CA PHE A1003 30.289 -12.779 21.604 1.00 26.11 C +ATOM 1806 C PHE A1003 30.217 -13.826 20.480 1.00 28.99 C +ATOM 1807 O PHE A1003 29.474 -14.792 20.625 1.00 27.97 O +ATOM 1808 CB PHE A1003 29.356 -11.591 21.286 1.00 27.54 C +ATOM 1809 CG PHE A1003 29.291 -10.466 22.307 1.00 29.05 C +ATOM 1810 CD1 PHE A1003 29.474 -10.696 23.691 1.00 32.75 C +ATOM 1811 CD2 PHE A1003 28.904 -9.178 21.878 1.00 30.42 C +ATOM 1812 CE1 PHE A1003 29.384 -9.640 24.587 1.00 33.85 C +ATOM 1813 CE2 PHE A1003 28.805 -8.140 22.792 1.00 33.15 C +ATOM 1814 CZ PHE A1003 29.070 -8.364 24.136 1.00 32.00 C +ATOM 1815 H PHE A1003 31.862 -11.354 21.599 1.00 26.54 H +ATOM 1816 HA PHE A1003 29.938 -13.264 22.516 1.00 26.11 H +ATOM 1817 HB3 PHE A1003 28.340 -11.958 21.133 1.00 27.54 H +ATOM 1818 HB2 PHE A1003 29.658 -11.150 20.335 1.00 27.54 H +ATOM 1819 HD1 PHE A1003 29.713 -11.679 24.067 1.00 32.75 H +ATOM 1820 HD2 PHE A1003 28.698 -8.991 20.834 1.00 30.42 H +ATOM 1821 HE1 PHE A1003 29.552 -9.815 25.639 1.00 33.85 H +ATOM 1822 HE2 PHE A1003 28.517 -7.156 22.454 1.00 33.15 H +ATOM 1823 HZ PHE A1003 29.002 -7.547 24.840 1.00 32.00 H +ATOM 1824 N ALA A1004 31.029 -13.647 19.423 1.00 25.21 N +ATOM 1825 CA ALA A1004 31.190 -14.593 18.318 1.00 24.89 C +ATOM 1826 C ALA A1004 31.783 -15.942 18.760 1.00 27.46 C +ATOM 1827 O ALA A1004 31.297 -16.981 18.317 1.00 26.17 O +ATOM 1828 CB ALA A1004 32.056 -13.947 17.229 1.00 25.92 C +ATOM 1829 H ALA A1004 31.603 -12.816 19.379 1.00 25.21 H +ATOM 1830 HA ALA A1004 30.198 -14.773 17.902 1.00 24.89 H +ATOM 1831 HB1 ALA A1004 32.018 -14.519 16.302 1.00 25.92 H +ATOM 1832 HB2 ALA A1004 31.712 -12.937 17.008 1.00 25.92 H +ATOM 1833 HB3 ALA A1004 33.102 -13.878 17.527 1.00 25.92 H +ATOM 1834 N GLN A1005 32.789 -15.895 19.652 1.00 24.53 N +ATOM 1835 CA GLN A1005 33.409 -17.051 20.302 1.00 24.95 C +ATOM 1836 C GLN A1005 32.400 -17.826 21.169 1.00 29.06 C +ATOM 1837 O GLN A1005 32.306 -19.043 21.035 1.00 30.18 O +ATOM 1838 CB GLN A1005 34.607 -16.561 21.144 1.00 26.65 C +ATOM 1839 CG GLN A1005 35.438 -17.669 21.817 1.00 31.73 C +ATOM 1840 CD GLN A1005 36.236 -17.115 22.997 1.00 42.61 C +ATOM 1841 OE1 GLN A1005 36.993 -16.158 22.847 1.00 40.00 O +ATOM 1842 NE2 GLN A1005 36.077 -17.721 24.175 1.00 29.69 N +ATOM 1843 H GLN A1005 33.140 -14.993 19.944 1.00 24.53 H +ATOM 1844 HA GLN A1005 33.780 -17.721 19.524 1.00 24.95 H +ATOM 1845 HB3 GLN A1005 34.233 -15.887 21.912 1.00 26.65 H +ATOM 1846 HB2 GLN A1005 35.271 -15.950 20.534 1.00 26.65 H +ATOM 1847 HG3 GLN A1005 36.119 -18.115 21.091 1.00 31.73 H +ATOM 1848 HG2 GLN A1005 34.808 -18.481 22.178 1.00 31.73 H +ATOM 1849 HE22 GLN A1005 36.586 -17.403 24.986 1.00 29.69 H +ATOM 1850 HE21 GLN A1005 35.410 -18.479 24.274 1.00 29.69 H +ATOM 1851 N GLN A1006 31.662 -17.096 22.022 1.00 24.17 N +ATOM 1852 CA GLN A1006 30.655 -17.623 22.945 1.00 23.70 C +ATOM 1853 C GLN A1006 29.442 -18.255 22.243 1.00 26.98 C +ATOM 1854 O GLN A1006 28.955 -19.282 22.715 1.00 26.51 O +ATOM 1855 CB GLN A1006 30.241 -16.509 23.922 1.00 24.48 C +ATOM 1856 CG GLN A1006 31.359 -16.165 24.928 1.00 24.66 C +ATOM 1857 CD GLN A1006 31.023 -14.979 25.834 1.00 35.77 C +ATOM 1858 OE1 GLN A1006 30.194 -14.132 25.505 1.00 33.14 O +ATOM 1859 NE2 GLN A1006 31.699 -14.902 26.980 1.00 26.52 N +ATOM 1860 H GLN A1006 31.820 -16.098 22.074 1.00 24.17 H +ATOM 1861 HA GLN A1006 31.130 -18.418 23.523 1.00 23.70 H +ATOM 1862 HB3 GLN A1006 29.348 -16.807 24.473 1.00 24.48 H +ATOM 1863 HB2 GLN A1006 29.960 -15.621 23.352 1.00 24.48 H +ATOM 1864 HG3 GLN A1006 32.293 -15.944 24.418 1.00 24.66 H +ATOM 1865 HG2 GLN A1006 31.582 -17.036 25.541 1.00 24.66 H +ATOM 1866 HE22 GLN A1006 31.544 -14.126 27.612 1.00 26.52 H +ATOM 1867 HE21 GLN A1006 32.378 -15.610 27.222 1.00 26.52 H +ATOM 1868 N ILE A1007 29.025 -17.684 21.097 1.00 23.32 N +ATOM 1869 CA ILE A1007 28.048 -18.285 20.184 1.00 22.61 C +ATOM 1870 C ILE A1007 28.555 -19.628 19.624 1.00 27.43 C +ATOM 1871 O ILE A1007 27.799 -20.593 19.655 1.00 26.77 O +ATOM 1872 CB ILE A1007 27.660 -17.332 19.008 1.00 24.56 C +ATOM 1873 CG1 ILE A1007 26.826 -16.134 19.518 1.00 23.98 C +ATOM 1874 CG2 ILE A1007 26.911 -17.996 17.827 1.00 25.50 C +ATOM 1875 CD1 ILE A1007 26.907 -14.891 18.615 1.00 25.94 C +ATOM 1876 H ILE A1007 29.456 -16.824 20.785 1.00 23.32 H +ATOM 1877 HA ILE A1007 27.145 -18.491 20.764 1.00 22.61 H +ATOM 1878 HB ILE A1007 28.593 -16.933 18.608 1.00 24.56 H +ATOM 1879 HG13 ILE A1007 27.144 -15.852 20.519 1.00 23.98 H +ATOM 1880 HG12 ILE A1007 25.784 -16.437 19.634 1.00 23.98 H +ATOM 1881 HG21 ILE A1007 26.592 -17.255 17.095 1.00 25.50 H +ATOM 1882 HG22 ILE A1007 27.532 -18.714 17.290 1.00 25.50 H +ATOM 1883 HG23 ILE A1007 26.018 -18.518 18.172 1.00 25.50 H +ATOM 1884 HD11 ILE A1007 26.906 -13.976 19.209 1.00 25.94 H +ATOM 1885 HD12 ILE A1007 27.812 -14.880 18.008 1.00 25.94 H +ATOM 1886 HD13 ILE A1007 26.059 -14.844 17.934 1.00 25.94 H +ATOM 1887 N CYS A1008 29.830 -19.688 19.196 1.00 24.53 N +ATOM 1888 CA CYS A1008 30.463 -20.908 18.684 1.00 25.58 C +ATOM 1889 C CYS A1008 30.591 -22.025 19.735 1.00 29.84 C +ATOM 1890 O CYS A1008 30.467 -23.190 19.364 1.00 29.98 O +ATOM 1891 CB CYS A1008 31.833 -20.649 18.027 1.00 26.25 C +ATOM 1892 SG CYS A1008 31.635 -19.642 16.538 1.00 29.56 S +ATOM 1893 H CYS A1008 30.407 -18.858 19.219 1.00 24.53 H +ATOM 1894 HA CYS A1008 29.789 -21.294 17.919 1.00 25.58 H +ATOM 1895 HB3 CYS A1008 32.300 -21.587 17.725 1.00 26.25 H +ATOM 1896 HB2 CYS A1008 32.523 -20.152 18.708 1.00 26.25 H +ATOM 1897 HG CYS A1008 31.327 -18.505 17.174 1.00 29.56 H +ATOM 1898 N GLU A1009 30.793 -21.665 21.014 1.00 26.45 N +ATOM 1899 CA GLU A1009 30.825 -22.600 22.142 1.00 26.93 C +ATOM 1900 C GLU A1009 29.447 -23.205 22.473 1.00 30.47 C +ATOM 1901 O GLU A1009 29.383 -24.399 22.770 1.00 31.30 O +ATOM 1902 CB GLU A1009 31.463 -21.921 23.372 1.00 28.48 C +ATOM 1903 CG GLU A1009 32.972 -21.652 23.207 1.00 38.52 C +ATOM 1904 CD GLU A1009 33.598 -20.980 24.432 1.00 56.05 C +ATOM 1905 OE1 GLU A1009 33.639 -19.730 24.448 1.00 44.39 O +ATOM 1906 OE2 GLU A1009 34.061 -21.730 25.320 1.00 53.75 O1- +ATOM 1907 H GLU A1009 30.913 -20.687 21.242 1.00 26.45 H +ATOM 1908 HA GLU A1009 31.464 -23.437 21.861 1.00 26.93 H +ATOM 1909 HB3 GLU A1009 31.297 -22.527 24.264 1.00 28.48 H +ATOM 1910 HB2 GLU A1009 30.960 -20.971 23.548 1.00 28.48 H +ATOM 1911 HG3 GLU A1009 33.154 -21.026 22.336 1.00 38.52 H +ATOM 1912 HG2 GLU A1009 33.493 -22.590 23.016 1.00 38.52 H +ATOM 1913 N GLY A1010 28.375 -22.397 22.385 1.00 25.45 N +ATOM 1914 CA GLY A1010 26.999 -22.846 22.614 1.00 25.25 C +ATOM 1915 C GLY A1010 26.468 -23.678 21.434 1.00 28.99 C +ATOM 1916 O GLY A1010 25.697 -24.611 21.652 1.00 30.19 O +ATOM 1917 H GLY A1010 28.508 -21.424 22.143 1.00 25.45 H +ATOM 1918 HA3 GLY A1010 26.363 -21.971 22.749 1.00 25.25 H +ATOM 1919 HA2 GLY A1010 26.935 -23.429 23.534 1.00 25.25 H +ATOM 1920 N MET A1011 26.898 -23.359 20.201 1.00 24.08 N +ATOM 1921 CA MET A1011 26.523 -24.056 18.969 1.00 23.43 C +ATOM 1922 C MET A1011 27.303 -25.365 18.748 1.00 29.70 C +ATOM 1923 O MET A1011 26.739 -26.289 18.166 1.00 30.85 O +ATOM 1924 CB MET A1011 26.700 -23.107 17.772 1.00 24.49 C +ATOM 1925 CG MET A1011 25.695 -21.940 17.732 1.00 26.45 C +ATOM 1926 SD MET A1011 23.952 -22.366 17.468 1.00 30.05 S +ATOM 1927 CE MET A1011 24.096 -23.210 15.881 1.00 27.20 C +ATOM 1928 H MET A1011 27.515 -22.566 20.087 1.00 24.08 H +ATOM 1929 HA MET A1011 25.468 -24.326 19.034 1.00 23.43 H +ATOM 1930 HB3 MET A1011 26.618 -23.672 16.845 1.00 24.49 H +ATOM 1931 HB2 MET A1011 27.713 -22.704 17.772 1.00 24.49 H +ATOM 1932 HG3 MET A1011 26.001 -21.242 16.954 1.00 26.45 H +ATOM 1933 HG2 MET A1011 25.724 -21.379 18.660 1.00 26.45 H +ATOM 1934 HE1 MET A1011 23.129 -23.258 15.387 1.00 27.20 H +ATOM 1935 HE2 MET A1011 24.786 -22.662 15.242 1.00 27.20 H +ATOM 1936 HE3 MET A1011 24.470 -24.223 16.019 1.00 27.20 H +ATOM 1937 N ALA A1012 28.553 -25.450 19.239 1.00 26.19 N +ATOM 1938 CA ALA A1012 29.335 -26.690 19.266 1.00 27.05 C +ATOM 1939 C ALA A1012 28.750 -27.722 20.241 1.00 32.29 C +ATOM 1940 O ALA A1012 28.726 -28.906 19.910 1.00 33.03 O +ATOM 1941 CB ALA A1012 30.796 -26.391 19.625 1.00 27.87 C +ATOM 1942 H ALA A1012 28.980 -24.641 19.671 1.00 26.19 H +ATOM 1943 HA ALA A1012 29.318 -27.128 18.266 1.00 27.05 H +ATOM 1944 HB1 ALA A1012 31.373 -27.309 19.737 1.00 27.87 H +ATOM 1945 HB2 ALA A1012 31.277 -25.806 18.844 1.00 27.87 H +ATOM 1946 HB3 ALA A1012 30.872 -25.837 20.562 1.00 27.87 H +ATOM 1947 N TYR A1013 28.241 -27.246 21.393 1.00 29.28 N +ATOM 1948 CA TYR A1013 27.474 -28.049 22.343 1.00 30.61 C +ATOM 1949 C TYR A1013 26.147 -28.554 21.747 1.00 34.92 C +ATOM 1950 O TYR A1013 25.845 -29.733 21.908 1.00 36.08 O +ATOM 1951 CB TYR A1013 27.279 -27.271 23.663 1.00 31.63 C +ATOM 1952 CG TYR A1013 26.302 -27.914 24.635 1.00 35.43 C +ATOM 1953 CD1 TYR A1013 26.695 -29.024 25.410 1.00 39.19 C +ATOM 1954 CD2 TYR A1013 24.977 -27.439 24.720 1.00 35.71 C +ATOM 1955 CE1 TYR A1013 25.763 -29.665 26.249 1.00 40.88 C +ATOM 1956 CE2 TYR A1013 24.050 -28.070 25.568 1.00 37.50 C +ATOM 1957 CZ TYR A1013 24.437 -29.193 26.322 1.00 47.60 C +ATOM 1958 OH TYR A1013 23.527 -29.827 27.115 1.00 52.18 O +ATOM 1959 H TYR A1013 28.311 -26.259 21.597 1.00 29.28 H +ATOM 1960 HA TYR A1013 28.078 -28.929 22.576 1.00 30.61 H +ATOM 1961 HB3 TYR A1013 26.922 -26.262 23.447 1.00 31.63 H +ATOM 1962 HB2 TYR A1013 28.241 -27.141 24.160 1.00 31.63 H +ATOM 1963 HD1 TYR A1013 27.706 -29.400 25.345 1.00 39.19 H +ATOM 1964 HD2 TYR A1013 24.670 -26.595 24.122 1.00 35.71 H +ATOM 1965 HE1 TYR A1013 26.067 -30.525 26.829 1.00 40.88 H +ATOM 1966 HE2 TYR A1013 23.041 -27.692 25.633 1.00 37.50 H +ATOM 1967 HH TYR A1013 23.889 -30.590 27.573 1.00 52.18 H +ATOM 1968 N LEU A1014 25.405 -27.672 21.051 1.00 29.35 N +ATOM 1969 CA LEU A1014 24.135 -27.983 20.385 1.00 28.88 C +ATOM 1970 C LEU A1014 24.262 -29.122 19.353 1.00 32.51 C +ATOM 1971 O LEU A1014 23.404 -30.002 19.316 1.00 32.18 O +ATOM 1972 CB LEU A1014 23.583 -26.688 19.741 1.00 27.66 C +ATOM 1973 CG LEU A1014 22.163 -26.795 19.141 1.00 32.45 C +ATOM 1974 CD1 LEU A1014 21.107 -26.971 20.242 1.00 32.68 C +ATOM 1975 CD2 LEU A1014 21.840 -25.588 18.244 1.00 34.42 C +ATOM 1976 H LEU A1014 25.721 -26.715 20.974 1.00 29.35 H +ATOM 1977 HA LEU A1014 23.445 -28.311 21.164 1.00 28.88 H +ATOM 1978 HB3 LEU A1014 24.266 -26.384 18.949 1.00 27.66 H +ATOM 1979 HB2 LEU A1014 23.596 -25.878 20.471 1.00 27.66 H +ATOM 1980 HG LEU A1014 22.118 -27.665 18.488 1.00 32.45 H +ATOM 1981 HD11 LEU A1014 20.098 -26.789 19.870 1.00 32.68 H +ATOM 1982 HD12 LEU A1014 21.122 -27.982 20.645 1.00 32.68 H +ATOM 1983 HD13 LEU A1014 21.288 -26.289 21.073 1.00 32.68 H +ATOM 1984 HD21 LEU A1014 20.888 -25.121 18.496 1.00 34.42 H +ATOM 1985 HD22 LEU A1014 22.603 -24.815 18.314 1.00 34.42 H +ATOM 1986 HD23 LEU A1014 21.784 -25.893 17.199 1.00 34.42 H +ATOM 1987 N HIS A1015 25.352 -29.093 18.569 1.00 29.50 N +ATOM 1988 CA HIS A1015 25.676 -30.080 17.538 1.00 30.51 C +ATOM 1989 C HIS A1015 26.213 -31.404 18.104 1.00 36.01 C +ATOM 1990 O HIS A1015 25.978 -32.443 17.488 1.00 37.25 O +ATOM 1991 CB HIS A1015 26.672 -29.464 16.542 1.00 30.72 C +ATOM 1992 CG HIS A1015 26.127 -28.335 15.704 1.00 33.23 C +ATOM 1993 ND1 HIS A1015 26.828 -27.839 14.604 1.00 34.62 N +ATOM 1994 CD2 HIS A1015 24.943 -27.632 15.826 1.00 34.39 C +ATOM 1995 CE1 HIS A1015 26.053 -26.885 14.113 1.00 33.40 C +ATOM 1996 NE2 HIS A1015 24.922 -26.723 14.791 1.00 33.59 N +ATOM 1997 H HIS A1015 26.003 -28.325 18.663 1.00 29.50 H +ATOM 1998 HA HIS A1015 24.762 -30.326 16.993 1.00 30.51 H +ATOM 1999 HB3 HIS A1015 27.035 -30.232 15.856 1.00 30.72 H +ATOM 2000 HB2 HIS A1015 27.548 -29.089 17.073 1.00 30.72 H +ATOM 2001 HD2 HIS A1015 24.136 -27.700 16.538 1.00 34.39 H +ATOM 2002 HE1 HIS A1015 26.330 -26.278 13.269 1.00 33.40 H +ATOM 2003 HE2 HIS A1015 24.175 -26.077 14.567 1.00 33.59 H +ATOM 2004 N ALA A1016 26.874 -31.355 19.276 1.00 31.86 N +ATOM 2005 CA ALA A1016 27.290 -32.534 20.041 1.00 33.07 C +ATOM 2006 C ALA A1016 26.101 -33.273 20.686 1.00 38.41 C +ATOM 2007 O ALA A1016 26.165 -34.492 20.834 1.00 40.25 O +ATOM 2008 CB ALA A1016 28.322 -32.116 21.100 1.00 33.67 C +ATOM 2009 H ALA A1016 27.040 -30.461 19.715 1.00 31.86 H +ATOM 2010 HA ALA A1016 27.778 -33.228 19.354 1.00 33.07 H +ATOM 2011 HB1 ALA A1016 28.680 -32.980 21.662 1.00 33.67 H +ATOM 2012 HB2 ALA A1016 29.190 -31.647 20.636 1.00 33.67 H +ATOM 2013 HB3 ALA A1016 27.905 -31.408 21.815 1.00 33.67 H +ATOM 2014 N GLN A1017 25.024 -32.529 21.001 1.00 33.94 N +ATOM 2015 CA GLN A1017 23.715 -33.049 21.410 1.00 34.27 C +ATOM 2016 C GLN A1017 22.828 -33.470 20.212 1.00 38.35 C +ATOM 2017 O GLN A1017 21.694 -33.892 20.436 1.00 39.04 O +ATOM 2018 CB GLN A1017 23.007 -31.995 22.300 1.00 34.22 C +ATOM 2019 CG GLN A1017 23.697 -31.676 23.644 1.00 46.02 C +ATOM 2020 CD GLN A1017 23.891 -32.894 24.547 1.00 63.67 C +ATOM 2021 OE1 GLN A1017 22.930 -33.578 24.890 1.00 59.63 O +ATOM 2022 NE2 GLN A1017 25.135 -33.159 24.951 1.00 56.78 N +ATOM 2023 H GLN A1017 25.073 -31.527 20.874 1.00 33.94 H +ATOM 2024 HA GLN A1017 23.867 -33.958 21.994 1.00 34.27 H +ATOM 2025 HB3 GLN A1017 21.990 -32.325 22.516 1.00 34.22 H +ATOM 2026 HB2 GLN A1017 22.902 -31.065 21.742 1.00 34.22 H +ATOM 2027 HG3 GLN A1017 23.102 -30.943 24.189 1.00 46.02 H +ATOM 2028 HG2 GLN A1017 24.664 -31.209 23.475 1.00 46.02 H +ATOM 2029 HE22 GLN A1017 25.312 -33.954 25.548 1.00 56.78 H +ATOM 2030 HE21 GLN A1017 25.906 -32.580 24.651 1.00 56.78 H +ATOM 2031 N HIS A1018 23.357 -33.367 18.978 1.00 36.64 N +ATOM 2032 CA HIS A1018 22.749 -33.767 17.703 1.00 36.48 C +ATOM 2033 C HIS A1018 21.510 -32.951 17.290 1.00 37.98 C +ATOM 2034 O HIS A1018 20.626 -33.479 16.615 1.00 38.12 O +ATOM 2035 CB HIS A1018 22.546 -35.299 17.626 1.00 39.81 C +ATOM 2036 CG HIS A1018 23.835 -36.080 17.657 1.00 45.00 C +ATOM 2037 ND1 HIS A1018 24.635 -36.237 16.538 1.00 47.36 N +ATOM 2038 CD2 HIS A1018 24.473 -36.761 18.670 1.00 48.24 C +ATOM 2039 CE1 HIS A1018 25.685 -36.976 16.907 1.00 48.42 C +ATOM 2040 NE2 HIS A1018 25.654 -37.330 18.187 1.00 49.45 N +ATOM 2041 H HIS A1018 24.301 -33.016 18.898 1.00 36.64 H +ATOM 2042 HA HIS A1018 23.493 -33.508 16.950 1.00 36.48 H +ATOM 2043 HB3 HIS A1018 22.040 -35.575 16.702 1.00 39.81 H +ATOM 2044 HB2 HIS A1018 21.903 -35.650 18.433 1.00 39.81 H +ATOM 2045 HD1 HIS A1018 24.461 -35.861 15.616 1.00 47.36 H +ATOM 2046 HD2 HIS A1018 24.178 -36.880 19.702 1.00 48.24 H +ATOM 2047 HE1 HIS A1018 26.480 -37.257 16.232 1.00 48.42 H +ATOM 2048 N TYR A1019 21.497 -31.662 17.660 1.00 32.63 N +ATOM 2049 CA TYR A1019 20.488 -30.693 17.244 1.00 31.14 C +ATOM 2050 C TYR A1019 21.095 -29.674 16.268 1.00 32.74 C +ATOM 2051 O TYR A1019 22.295 -29.407 16.312 1.00 32.38 O +ATOM 2052 CB TYR A1019 19.942 -29.954 18.481 1.00 32.13 C +ATOM 2053 CG TYR A1019 19.251 -30.807 19.530 1.00 36.33 C +ATOM 2054 CD1 TYR A1019 18.028 -31.441 19.237 1.00 39.14 C +ATOM 2055 CD2 TYR A1019 19.811 -30.936 20.817 1.00 38.16 C +ATOM 2056 CE1 TYR A1019 17.373 -32.205 20.223 1.00 41.27 C +ATOM 2057 CE2 TYR A1019 19.142 -31.674 21.813 1.00 40.75 C +ATOM 2058 CZ TYR A1019 17.919 -32.307 21.516 1.00 49.26 C +ATOM 2059 OH TYR A1019 17.254 -33.005 22.481 1.00 54.23 O +ATOM 2060 H TYR A1019 22.260 -31.292 18.212 1.00 32.63 H +ATOM 2061 HA TYR A1019 19.663 -31.198 16.744 1.00 31.14 H +ATOM 2062 HB3 TYR A1019 19.230 -29.187 18.171 1.00 32.13 H +ATOM 2063 HB2 TYR A1019 20.762 -29.425 18.960 1.00 32.13 H +ATOM 2064 HD1 TYR A1019 17.582 -31.331 18.263 1.00 39.14 H +ATOM 2065 HD2 TYR A1019 20.749 -30.455 21.048 1.00 38.16 H +ATOM 2066 HE1 TYR A1019 16.432 -32.683 19.996 1.00 41.27 H +ATOM 2067 HE2 TYR A1019 19.569 -31.750 22.803 1.00 40.75 H +ATOM 2068 HH TYR A1019 17.645 -32.908 23.355 1.00 54.23 H +ATOM 2069 N ILE A1020 20.214 -29.086 15.451 1.00 27.36 N +ATOM 2070 CA ILE A1020 20.449 -27.902 14.626 1.00 25.46 C +ATOM 2071 C ILE A1020 19.505 -26.780 15.097 1.00 28.39 C +ATOM 2072 O ILE A1020 18.434 -27.071 15.630 1.00 28.80 O +ATOM 2073 CB ILE A1020 20.178 -28.191 13.119 1.00 28.35 C +ATOM 2074 CG1 ILE A1020 18.812 -28.881 12.864 1.00 29.84 C +ATOM 2075 CG2 ILE A1020 21.358 -28.977 12.517 1.00 29.57 C +ATOM 2076 CD1 ILE A1020 18.419 -29.040 11.394 1.00 35.48 C +ATOM 2077 H ILE A1020 19.249 -29.389 15.487 1.00 27.36 H +ATOM 2078 HA ILE A1020 21.476 -27.558 14.756 1.00 25.46 H +ATOM 2079 HB ILE A1020 20.153 -27.234 12.593 1.00 28.35 H +ATOM 2080 HG13 ILE A1020 18.014 -28.325 13.353 1.00 29.84 H +ATOM 2081 HG12 ILE A1020 18.805 -29.868 13.321 1.00 29.84 H +ATOM 2082 HG21 ILE A1020 21.245 -29.130 11.444 1.00 29.57 H +ATOM 2083 HG22 ILE A1020 22.295 -28.438 12.662 1.00 29.57 H +ATOM 2084 HG23 ILE A1020 21.469 -29.953 12.988 1.00 29.57 H +ATOM 2085 HD11 ILE A1020 17.422 -29.473 11.318 1.00 35.48 H +ATOM 2086 HD12 ILE A1020 18.389 -28.076 10.895 1.00 35.48 H +ATOM 2087 HD13 ILE A1020 19.104 -29.692 10.852 1.00 35.48 H +ATOM 2088 N HIS A1021 19.936 -25.521 14.923 1.00 23.65 N +ATOM 2089 CA HIS A1021 19.246 -24.335 15.431 1.00 22.50 C +ATOM 2090 C HIS A1021 18.198 -23.788 14.450 1.00 28.12 C +ATOM 2091 O HIS A1021 17.078 -23.509 14.875 1.00 28.42 O +ATOM 2092 CB HIS A1021 20.292 -23.266 15.790 1.00 22.04 C +ATOM 2093 CG HIS A1021 19.762 -22.140 16.632 1.00 24.56 C +ATOM 2094 ND1 HIS A1021 19.143 -21.017 16.079 1.00 25.87 N +ATOM 2095 CD2 HIS A1021 19.772 -22.015 18.003 1.00 25.83 C +ATOM 2096 CE1 HIS A1021 18.817 -20.260 17.115 1.00 24.80 C +ATOM 2097 NE2 HIS A1021 19.164 -20.806 18.278 1.00 25.24 N +ATOM 2098 H HIS A1021 20.823 -25.361 14.456 1.00 23.65 H +ATOM 2099 HA HIS A1021 18.733 -24.610 16.356 1.00 22.50 H +ATOM 2100 HB3 HIS A1021 20.744 -22.842 14.894 1.00 22.04 H +ATOM 2101 HB2 HIS A1021 21.105 -23.724 16.349 1.00 22.04 H +ATOM 2102 HD2 HIS A1021 20.150 -22.665 18.777 1.00 25.83 H +ATOM 2103 HE1 HIS A1021 18.311 -19.309 17.027 1.00 24.80 H +ATOM 2104 HE2 HIS A1021 18.989 -20.417 19.194 1.00 25.24 H +ATOM 2105 N ARG A1022 18.584 -23.630 13.171 1.00 25.25 N +ATOM 2106 CA ARG A1022 17.760 -23.142 12.055 1.00 25.61 C +ATOM 2107 C ARG A1022 17.288 -21.671 12.137 1.00 30.33 C +ATOM 2108 O ARG A1022 16.523 -21.262 11.263 1.00 30.77 O +ATOM 2109 CB ARG A1022 16.567 -24.088 11.776 1.00 26.67 C +ATOM 2110 CG ARG A1022 16.952 -25.546 11.448 1.00 33.30 C +ATOM 2111 CD ARG A1022 15.761 -26.482 11.156 1.00 38.23 C +ATOM 2112 NE ARG A1022 14.852 -25.938 10.129 1.00 49.52 N +ATOM 2113 CZ ARG A1022 13.506 -25.953 10.109 1.00 65.80 C +ATOM 2114 NH1 ARG A1022 12.779 -26.568 11.052 1.00 54.01 N +ATOM 2115 NH2 ARG A1022 12.873 -25.318 9.115 1.00 54.54 N1+ +ATOM 2116 H ARG A1022 19.540 -23.859 12.928 1.00 25.25 H +ATOM 2117 HA ARG A1022 18.409 -23.172 11.183 1.00 25.61 H +ATOM 2118 HB3 ARG A1022 16.013 -23.690 10.929 1.00 26.67 H +ATOM 2119 HB2 ARG A1022 15.872 -24.065 12.612 1.00 26.67 H +ATOM 2120 HG3 ARG A1022 17.432 -25.935 12.347 1.00 33.30 H +ATOM 2121 HG2 ARG A1022 17.703 -25.610 10.664 1.00 33.30 H +ATOM 2122 HD3 ARG A1022 15.288 -26.847 12.066 1.00 38.23 H +ATOM 2123 HD2 ARG A1022 16.158 -27.370 10.666 1.00 38.23 H +ATOM 2124 HE ARG A1022 15.319 -25.449 9.379 1.00 49.52 H +ATOM 2125 HH12 ARG A1022 11.770 -26.560 11.017 1.00 54.01 H +ATOM 2126 HH11 ARG A1022 13.244 -26.980 11.849 1.00 54.01 H +ATOM 2127 HH22 ARG A1022 11.864 -25.279 9.089 1.00 54.54 H +ATOM 2128 HH21 ARG A1022 13.398 -24.818 8.412 1.00 54.54 H +ATOM 2129 N ASN A1023 17.747 -20.884 13.125 1.00 26.19 N +ATOM 2130 CA ASN A1023 17.352 -19.480 13.275 1.00 25.50 C +ATOM 2131 C ASN A1023 18.460 -18.627 13.920 1.00 27.71 C +ATOM 2132 O ASN A1023 18.138 -17.664 14.616 1.00 27.47 O +ATOM 2133 CB ASN A1023 16.000 -19.370 14.045 1.00 25.60 C +ATOM 2134 CG ASN A1023 15.010 -18.324 13.507 1.00 44.25 C +ATOM 2135 OD1 ASN A1023 13.805 -18.561 13.506 1.00 35.36 O +ATOM 2136 ND2 ASN A1023 15.489 -17.159 13.061 1.00 40.99 N +ATOM 2137 H ASN A1023 18.379 -21.254 13.821 1.00 26.19 H +ATOM 2138 HA ASN A1023 17.262 -19.016 12.292 1.00 25.50 H +ATOM 2139 HB3 ASN A1023 16.142 -19.250 15.120 1.00 25.60 H +ATOM 2140 HB2 ASN A1023 15.468 -20.316 13.947 1.00 25.60 H +ATOM 2141 HD22 ASN A1023 14.860 -16.462 12.688 1.00 40.99 H +ATOM 2142 HD21 ASN A1023 16.481 -16.968 13.078 1.00 40.99 H +ATOM 2143 N LEU A1024 19.743 -18.977 13.707 1.00 22.40 N +ATOM 2144 CA LEU A1024 20.869 -18.270 14.320 1.00 21.79 C +ATOM 2145 C LEU A1024 21.035 -16.869 13.703 1.00 24.81 C +ATOM 2146 O LEU A1024 21.325 -16.750 12.512 1.00 25.09 O +ATOM 2147 CB LEU A1024 22.151 -19.127 14.241 1.00 22.10 C +ATOM 2148 CG LEU A1024 23.305 -18.611 15.130 1.00 27.55 C +ATOM 2149 CD1 LEU A1024 22.984 -18.694 16.638 1.00 27.52 C +ATOM 2150 CD2 LEU A1024 24.621 -19.327 14.797 1.00 31.33 C +ATOM 2151 H LEU A1024 19.966 -19.762 13.107 1.00 22.40 H +ATOM 2152 HA LEU A1024 20.621 -18.153 15.377 1.00 21.79 H +ATOM 2153 HB3 LEU A1024 22.477 -19.178 13.204 1.00 22.10 H +ATOM 2154 HB2 LEU A1024 21.923 -20.155 14.528 1.00 22.10 H +ATOM 2155 HG LEU A1024 23.471 -17.561 14.887 1.00 27.55 H +ATOM 2156 HD11 LEU A1024 23.793 -19.150 17.208 1.00 27.52 H +ATOM 2157 HD12 LEU A1024 22.821 -17.698 17.053 1.00 27.52 H +ATOM 2158 HD13 LEU A1024 22.087 -19.282 16.836 1.00 27.52 H +ATOM 2159 HD21 LEU A1024 25.469 -18.689 15.043 1.00 31.33 H +ATOM 2160 HD22 LEU A1024 24.726 -20.253 15.357 1.00 31.33 H +ATOM 2161 HD23 LEU A1024 24.690 -19.583 13.740 1.00 31.33 H +ATOM 2162 N ALA A1025 20.796 -15.851 14.540 1.00 19.96 N +ATOM 2163 CA ALA A1025 20.719 -14.439 14.180 1.00 19.90 C +ATOM 2164 C ALA A1025 20.911 -13.599 15.453 1.00 23.21 C +ATOM 2165 O ALA A1025 20.693 -14.113 16.551 1.00 22.52 O +ATOM 2166 CB ALA A1025 19.351 -14.169 13.526 1.00 20.64 C +ATOM 2167 H ALA A1025 20.581 -16.050 15.507 1.00 19.96 H +ATOM 2168 HA ALA A1025 21.512 -14.194 13.472 1.00 19.90 H +ATOM 2169 HB1 ALA A1025 19.308 -13.164 13.115 1.00 20.64 H +ATOM 2170 HB2 ALA A1025 19.162 -14.851 12.697 1.00 20.64 H +ATOM 2171 HB3 ALA A1025 18.532 -14.281 14.238 1.00 20.64 H +ATOM 2172 N ALA A1026 21.291 -12.318 15.294 1.00 20.21 N +ATOM 2173 CA ALA A1026 21.523 -11.376 16.401 1.00 20.39 C +ATOM 2174 C ALA A1026 20.287 -11.081 17.278 1.00 25.00 C +ATOM 2175 O ALA A1026 20.451 -10.767 18.456 1.00 24.62 O +ATOM 2176 CB ALA A1026 22.114 -10.074 15.844 1.00 22.03 C +ATOM 2177 H ALA A1026 21.443 -11.954 14.361 1.00 20.21 H +ATOM 2178 HA ALA A1026 22.274 -11.826 17.053 1.00 20.39 H +ATOM 2179 HB1 ALA A1026 22.337 -9.370 16.646 1.00 22.03 H +ATOM 2180 HB2 ALA A1026 23.045 -10.263 15.309 1.00 22.03 H +ATOM 2181 HB3 ALA A1026 21.426 -9.584 15.154 1.00 22.03 H +ATOM 2182 N ARG A1027 19.079 -11.225 16.704 1.00 22.89 N +ATOM 2183 CA ARG A1027 17.784 -11.196 17.393 1.00 23.52 C +ATOM 2184 C ARG A1027 17.639 -12.318 18.439 1.00 28.74 C +ATOM 2185 O ARG A1027 17.034 -12.100 19.487 1.00 28.68 O +ATOM 2186 CB ARG A1027 16.671 -11.304 16.322 1.00 24.74 C +ATOM 2187 CG ARG A1027 15.223 -11.326 16.861 1.00 35.60 C +ATOM 2188 CD ARG A1027 14.154 -11.516 15.770 1.00 50.40 C +ATOM 2189 NE ARG A1027 13.955 -10.319 14.931 1.00 62.17 N +ATOM 2190 CZ ARG A1027 13.218 -10.236 13.807 1.00 76.71 C +ATOM 2191 NH1 ARG A1027 13.085 -9.048 13.204 1.00 61.64 N +ATOM 2192 NH2 ARG A1027 12.598 -11.301 13.275 1.00 67.69 N1+ +ATOM 2193 H ARG A1027 19.040 -11.429 15.713 1.00 22.89 H +ATOM 2194 HA ARG A1027 17.690 -10.238 17.907 1.00 23.52 H +ATOM 2195 HB3 ARG A1027 16.832 -12.218 15.747 1.00 24.74 H +ATOM 2196 HB2 ARG A1027 16.779 -10.490 15.609 1.00 24.74 H +ATOM 2197 HG3 ARG A1027 15.064 -10.364 17.350 1.00 35.60 H +ATOM 2198 HG2 ARG A1027 15.062 -12.076 17.636 1.00 35.60 H +ATOM 2199 HD3 ARG A1027 13.221 -11.889 16.191 1.00 50.40 H +ATOM 2200 HD2 ARG A1027 14.512 -12.288 15.088 1.00 50.40 H +ATOM 2201 HE ARG A1027 14.386 -9.476 15.280 1.00 62.17 H +ATOM 2202 HH12 ARG A1027 12.501 -8.958 12.385 1.00 61.64 H +ATOM 2203 HH11 ARG A1027 13.496 -8.219 13.611 1.00 61.64 H +ATOM 2204 HH22 ARG A1027 12.041 -11.215 12.437 1.00 67.69 H +ATOM 2205 HH21 ARG A1027 12.615 -12.188 13.762 1.00 67.69 H +ATOM 2206 N ASN A1028 18.182 -13.497 18.106 1.00 25.62 N +ATOM 2207 CA ASN A1028 18.047 -14.742 18.864 1.00 24.97 C +ATOM 2208 C ASN A1028 19.326 -15.075 19.649 1.00 28.48 C +ATOM 2209 O ASN A1028 19.478 -16.217 20.082 1.00 28.92 O +ATOM 2210 CB ASN A1028 17.645 -15.874 17.890 1.00 25.70 C +ATOM 2211 CG ASN A1028 16.303 -15.613 17.192 1.00 45.38 C +ATOM 2212 OD1 ASN A1028 15.397 -15.007 17.761 1.00 42.83 O +ATOM 2213 ND2 ASN A1028 16.160 -16.084 15.957 1.00 31.15 N +ATOM 2214 H ASN A1028 18.704 -13.569 17.244 1.00 25.62 H +ATOM 2215 HA ASN A1028 17.260 -14.639 19.613 1.00 24.97 H +ATOM 2216 HB3 ASN A1028 17.551 -16.818 18.427 1.00 25.70 H +ATOM 2217 HB2 ASN A1028 18.426 -16.022 17.141 1.00 25.70 H +ATOM 2218 HD22 ASN A1028 15.286 -15.964 15.465 1.00 31.15 H +ATOM 2219 HD21 ASN A1028 16.910 -16.600 15.512 1.00 31.15 H +ATOM 2220 N VAL A1029 20.199 -14.075 19.850 1.00 24.37 N +ATOM 2221 CA VAL A1029 21.330 -14.134 20.766 1.00 24.20 C +ATOM 2222 C VAL A1029 21.166 -12.963 21.749 1.00 28.98 C +ATOM 2223 O VAL A1029 21.179 -11.800 21.343 1.00 29.04 O +ATOM 2224 CB VAL A1029 22.697 -14.040 20.036 1.00 28.58 C +ATOM 2225 CG1 VAL A1029 23.887 -13.993 21.013 1.00 29.10 C +ATOM 2226 CG2 VAL A1029 22.898 -15.228 19.076 1.00 28.09 C +ATOM 2227 H VAL A1029 20.009 -13.167 19.448 1.00 24.37 H +ATOM 2228 HA VAL A1029 21.313 -15.067 21.332 1.00 24.20 H +ATOM 2229 HB VAL A1029 22.713 -13.127 19.438 1.00 28.58 H +ATOM 2230 HG11 VAL A1029 24.835 -13.941 20.480 1.00 29.10 H +ATOM 2231 HG12 VAL A1029 23.842 -13.130 21.673 1.00 29.10 H +ATOM 2232 HG13 VAL A1029 23.904 -14.884 21.641 1.00 29.10 H +ATOM 2233 HG21 VAL A1029 23.832 -15.136 18.525 1.00 28.09 H +ATOM 2234 HG22 VAL A1029 22.924 -16.174 19.619 1.00 28.09 H +ATOM 2235 HG23 VAL A1029 22.101 -15.299 18.339 1.00 28.09 H +ATOM 2236 N LEU A1030 20.983 -13.327 23.023 1.00 26.24 N +ATOM 2237 CA LEU A1030 20.684 -12.455 24.150 1.00 26.70 C +ATOM 2238 C LEU A1030 21.966 -12.152 24.937 1.00 32.08 C +ATOM 2239 O LEU A1030 22.803 -13.035 25.111 1.00 32.19 O +ATOM 2240 CB LEU A1030 19.650 -13.162 25.054 1.00 26.40 C +ATOM 2241 CG LEU A1030 18.323 -13.560 24.365 1.00 30.08 C +ATOM 2242 CD1 LEU A1030 17.451 -14.395 25.317 1.00 29.79 C +ATOM 2243 CD2 LEU A1030 17.552 -12.351 23.804 1.00 32.81 C +ATOM 2244 H LEU A1030 21.054 -14.309 23.260 1.00 26.24 H +ATOM 2245 HA LEU A1030 20.267 -11.517 23.796 1.00 26.70 H +ATOM 2246 HB3 LEU A1030 19.414 -12.513 25.897 1.00 26.40 H +ATOM 2247 HB2 LEU A1030 20.109 -14.058 25.476 1.00 26.40 H +ATOM 2248 HG LEU A1030 18.563 -14.215 23.526 1.00 30.08 H +ATOM 2249 HD11 LEU A1030 16.814 -15.086 24.764 1.00 29.79 H +ATOM 2250 HD12 LEU A1030 18.059 -14.991 25.998 1.00 29.79 H +ATOM 2251 HD13 LEU A1030 16.802 -13.766 25.928 1.00 29.79 H +ATOM 2252 HD21 LEU A1030 16.483 -12.412 24.014 1.00 32.81 H +ATOM 2253 HD22 LEU A1030 17.907 -11.415 24.231 1.00 32.81 H +ATOM 2254 HD23 LEU A1030 17.665 -12.286 22.722 1.00 32.81 H +ATOM 2255 N LEU A1031 22.075 -10.908 25.417 1.00 28.98 N +ATOM 2256 CA LEU A1031 23.203 -10.392 26.182 1.00 29.83 C +ATOM 2257 C LEU A1031 22.856 -10.436 27.678 1.00 34.57 C +ATOM 2258 O LEU A1031 21.886 -9.800 28.092 1.00 34.07 O +ATOM 2259 CB LEU A1031 23.467 -8.950 25.697 1.00 30.89 C +ATOM 2260 CG LEU A1031 24.773 -8.321 26.225 1.00 37.58 C +ATOM 2261 CD1 LEU A1031 26.015 -8.984 25.618 1.00 38.08 C +ATOM 2262 CD2 LEU A1031 24.805 -6.806 25.972 1.00 41.32 C +ATOM 2263 H LEU A1031 21.331 -10.242 25.241 1.00 28.98 H +ATOM 2264 HA LEU A1031 24.089 -11.000 25.991 1.00 29.83 H +ATOM 2265 HB3 LEU A1031 22.617 -8.325 25.976 1.00 30.89 H +ATOM 2266 HB2 LEU A1031 23.485 -8.931 24.607 1.00 30.89 H +ATOM 2267 HG LEU A1031 24.809 -8.457 27.305 1.00 37.58 H +ATOM 2268 HD11 LEU A1031 26.890 -8.350 25.749 1.00 38.08 H +ATOM 2269 HD12 LEU A1031 26.235 -9.930 26.107 1.00 38.08 H +ATOM 2270 HD13 LEU A1031 25.896 -9.176 24.552 1.00 38.08 H +ATOM 2271 HD21 LEU A1031 25.174 -6.269 26.845 1.00 41.32 H +ATOM 2272 HD22 LEU A1031 25.458 -6.551 25.136 1.00 41.32 H +ATOM 2273 HD23 LEU A1031 23.817 -6.411 25.741 1.00 41.32 H +ATOM 2274 N ASP A1032 23.652 -11.183 28.459 1.00 32.37 N +ATOM 2275 CA ASP A1032 23.502 -11.296 29.913 1.00 33.14 C +ATOM 2276 C ASP A1032 24.227 -10.133 30.612 1.00 38.61 C +ATOM 2277 O ASP A1032 23.637 -9.449 31.446 1.00 38.80 O +ATOM 2278 CB ASP A1032 23.984 -12.679 30.412 1.00 35.13 C +ATOM 2279 CG ASP A1032 23.624 -12.994 31.870 1.00 47.32 C +ATOM 2280 OD1 ASP A1032 24.441 -12.660 32.757 1.00 50.21 O +ATOM 2281 OD2 ASP A1032 22.473 -13.437 32.081 1.00 50.85 O1- +ATOM 2282 H ASP A1032 24.441 -11.667 28.052 1.00 32.37 H +ATOM 2283 HA ASP A1032 22.445 -11.201 30.159 1.00 33.14 H +ATOM 2284 HB3 ASP A1032 25.062 -12.768 30.272 1.00 35.13 H +ATOM 2285 HB2 ASP A1032 23.567 -13.457 29.770 1.00 35.13 H +ATOM 2286 N ASN A1033 25.486 -9.922 30.207 1.00 36.79 N +ATOM 2287 CA ASN A1033 26.331 -8.790 30.573 1.00 39.01 C +ATOM 2288 C ASN A1033 27.286 -8.505 29.404 1.00 44.58 C +ATOM 2289 O ASN A1033 27.281 -9.237 28.415 1.00 42.83 O +ATOM 2290 CB ASN A1033 27.017 -9.007 31.948 1.00 39.45 C +ATOM 2291 CG ASN A1033 27.938 -10.229 32.040 1.00 59.04 C +ATOM 2292 OD1 ASN A1033 29.039 -10.228 31.493 1.00 53.34 O +ATOM 2293 ND2 ASN A1033 27.499 -11.269 32.750 1.00 48.98 N +ATOM 2294 H ASN A1033 25.875 -10.527 29.497 1.00 36.79 H +ATOM 2295 HA ASN A1033 25.690 -7.916 30.668 1.00 39.01 H +ATOM 2296 HB3 ASN A1033 26.251 -9.085 32.721 1.00 39.45 H +ATOM 2297 HB2 ASN A1033 27.605 -8.127 32.210 1.00 39.45 H +ATOM 2298 HD22 ASN A1033 28.074 -12.093 32.849 1.00 48.98 H +ATOM 2299 HD21 ASN A1033 26.574 -11.263 33.160 1.00 48.98 H +ATOM 2300 N ASP A1034 28.098 -7.445 29.525 1.00 43.88 N +ATOM 2301 CA ASP A1034 29.040 -6.989 28.492 1.00 44.91 C +ATOM 2302 C ASP A1034 30.139 -8.008 28.089 1.00 48.65 C +ATOM 2303 O ASP A1034 30.789 -7.786 27.068 1.00 48.55 O +ATOM 2304 CB ASP A1034 29.642 -5.595 28.819 1.00 49.37 C +ATOM 2305 CG ASP A1034 30.465 -5.422 30.114 1.00 62.44 C +ATOM 2306 OD1 ASP A1034 30.505 -6.344 30.959 1.00 62.67 O +ATOM 2307 OD2 ASP A1034 31.012 -4.308 30.268 1.00 71.64 O1- +ATOM 2308 H ASP A1034 28.088 -6.901 30.376 1.00 43.88 H +ATOM 2309 HA ASP A1034 28.439 -6.853 27.591 1.00 44.91 H +ATOM 2310 HB3 ASP A1034 28.804 -4.901 28.911 1.00 49.37 H +ATOM 2311 HB2 ASP A1034 30.209 -5.224 27.966 1.00 49.37 H +ATOM 2312 N ARG A1035 30.311 -9.093 28.868 1.00 44.62 N +ATOM 2313 CA ARG A1035 31.268 -10.180 28.644 1.00 44.83 C +ATOM 2314 C ARG A1035 30.597 -11.574 28.611 1.00 47.10 C +ATOM 2315 O ARG A1035 31.325 -12.563 28.690 1.00 47.53 O +ATOM 2316 CB ARG A1035 32.372 -10.125 29.736 1.00 47.64 C +ATOM 2317 CG ARG A1035 33.201 -8.827 29.804 1.00 59.20 C +ATOM 2318 CD ARG A1035 33.933 -8.498 28.494 1.00 68.46 C +ATOM 2319 NE ARG A1035 34.830 -7.336 28.630 1.00 81.10 N +ATOM 2320 CZ ARG A1035 36.158 -7.279 28.412 1.00 99.21 C +ATOM 2321 NH1 ARG A1035 36.881 -8.355 28.067 1.00 88.27 N +ATOM 2322 NH2 ARG A1035 36.777 -6.099 28.542 1.00 88.05 N1+ +ATOM 2323 H ARG A1035 29.741 -9.187 29.698 1.00 44.62 H +ATOM 2324 HA ARG A1035 31.736 -10.065 27.665 1.00 44.83 H +ATOM 2325 HB3 ARG A1035 33.075 -10.946 29.592 1.00 47.64 H +ATOM 2326 HB2 ARG A1035 31.915 -10.295 30.713 1.00 47.64 H +ATOM 2327 HG3 ARG A1035 33.887 -8.829 30.652 1.00 59.20 H +ATOM 2328 HG2 ARG A1035 32.496 -8.022 30.007 1.00 59.20 H +ATOM 2329 HD3 ARG A1035 33.199 -8.154 27.770 1.00 68.46 H +ATOM 2330 HD2 ARG A1035 34.390 -9.380 28.049 1.00 68.46 H +ATOM 2331 HE ARG A1035 34.366 -6.484 28.914 1.00 81.10 H +ATOM 2332 HH12 ARG A1035 37.874 -8.283 27.904 1.00 88.27 H +ATOM 2333 HH11 ARG A1035 36.441 -9.266 28.034 1.00 88.27 H +ATOM 2334 HH22 ARG A1035 37.772 -6.021 28.388 1.00 88.05 H +ATOM 2335 HH21 ARG A1035 36.253 -5.274 28.797 1.00 88.05 H +ATOM 2336 N LEU A1036 29.256 -11.662 28.494 1.00 41.56 N +ATOM 2337 CA LEU A1036 28.523 -12.937 28.493 1.00 39.95 C +ATOM 2338 C LEU A1036 27.307 -12.871 27.558 1.00 42.19 C +ATOM 2339 O LEU A1036 26.491 -11.959 27.683 1.00 42.25 O +ATOM 2340 CB LEU A1036 28.126 -13.313 29.942 1.00 40.49 C +ATOM 2341 CG LEU A1036 27.403 -14.671 30.123 1.00 44.64 C +ATOM 2342 CD1 LEU A1036 28.239 -15.860 29.611 1.00 46.11 C +ATOM 2343 CD2 LEU A1036 26.956 -14.871 31.587 1.00 47.86 C +ATOM 2344 H LEU A1036 28.695 -10.824 28.415 1.00 41.56 H +ATOM 2345 HA LEU A1036 29.181 -13.714 28.102 1.00 39.95 H +ATOM 2346 HB3 LEU A1036 27.477 -12.525 30.324 1.00 40.49 H +ATOM 2347 HB2 LEU A1036 29.016 -13.301 30.573 1.00 40.49 H +ATOM 2348 HG LEU A1036 26.486 -14.647 29.533 1.00 44.64 H +ATOM 2349 HD11 LEU A1036 27.858 -16.193 28.646 1.00 46.11 H +ATOM 2350 HD12 LEU A1036 29.288 -15.595 29.479 1.00 46.11 H +ATOM 2351 HD13 LEU A1036 28.208 -16.723 30.276 1.00 46.11 H +ATOM 2352 HD21 LEU A1036 27.471 -15.696 32.079 1.00 47.86 H +ATOM 2353 HD22 LEU A1036 27.138 -13.984 32.194 1.00 47.86 H +ATOM 2354 HD23 LEU A1036 25.888 -15.078 31.643 1.00 47.86 H +ATOM 2355 N VAL A1037 27.197 -13.874 26.673 1.00 36.42 N +ATOM 2356 CA VAL A1037 26.164 -13.985 25.643 1.00 33.88 C +ATOM 2357 C VAL A1037 25.556 -15.402 25.648 1.00 35.08 C +ATOM 2358 O VAL A1037 26.264 -16.364 25.945 1.00 34.98 O +ATOM 2359 CB VAL A1037 26.769 -13.603 24.250 1.00 37.61 C +ATOM 2360 CG1 VAL A1037 26.833 -14.691 23.157 1.00 36.52 C +ATOM 2361 CG2 VAL A1037 26.104 -12.334 23.708 1.00 36.99 C +ATOM 2362 H VAL A1037 27.904 -14.596 26.654 1.00 36.42 H +ATOM 2363 HA VAL A1037 25.350 -13.300 25.888 1.00 33.88 H +ATOM 2364 HB VAL A1037 27.811 -13.324 24.410 1.00 37.61 H +ATOM 2365 HG11 VAL A1037 27.294 -14.293 22.254 1.00 36.52 H +ATOM 2366 HG12 VAL A1037 27.434 -15.543 23.474 1.00 36.52 H +ATOM 2367 HG13 VAL A1037 25.846 -15.058 22.883 1.00 36.52 H +ATOM 2368 HG21 VAL A1037 26.584 -12.004 22.789 1.00 36.99 H +ATOM 2369 HG22 VAL A1037 25.043 -12.487 23.512 1.00 36.99 H +ATOM 2370 HG23 VAL A1037 26.193 -11.521 24.425 1.00 36.99 H +ATOM 2371 N LYS A1038 24.249 -15.488 25.342 1.00 29.99 N +ATOM 2372 CA LYS A1038 23.422 -16.696 25.423 1.00 29.15 C +ATOM 2373 C LYS A1038 22.464 -16.796 24.229 1.00 32.53 C +ATOM 2374 O LYS A1038 21.797 -15.818 23.906 1.00 31.49 O +ATOM 2375 CB LYS A1038 22.613 -16.671 26.739 1.00 31.88 C +ATOM 2376 CG LYS A1038 23.448 -16.993 27.986 1.00 41.21 C +ATOM 2377 CD LYS A1038 22.691 -16.718 29.289 1.00 46.00 C +ATOM 2378 CE LYS A1038 23.516 -17.106 30.526 1.00 53.16 C +ATOM 2379 NZ LYS A1038 22.853 -16.703 31.778 1.00 63.42 N1+ +ATOM 2380 H LYS A1038 23.745 -14.641 25.106 1.00 29.99 H +ATOM 2381 HA LYS A1038 24.067 -17.571 25.412 1.00 29.15 H +ATOM 2382 HB3 LYS A1038 21.807 -17.405 26.692 1.00 31.88 H +ATOM 2383 HB2 LYS A1038 22.126 -15.700 26.848 1.00 31.88 H +ATOM 2384 HG3 LYS A1038 24.372 -16.415 27.993 1.00 41.21 H +ATOM 2385 HG2 LYS A1038 23.739 -18.043 27.949 1.00 41.21 H +ATOM 2386 HD3 LYS A1038 21.754 -17.274 29.272 1.00 46.00 H +ATOM 2387 HD2 LYS A1038 22.420 -15.662 29.331 1.00 46.00 H +ATOM 2388 HE3 LYS A1038 24.497 -16.633 30.488 1.00 53.16 H +ATOM 2389 HE2 LYS A1038 23.679 -18.184 30.545 1.00 53.16 H +ATOM 2390 HZ1 LYS A1038 21.941 -17.143 31.831 1.00 63.42 H +ATOM 2391 HZ2 LYS A1038 23.409 -16.988 32.571 1.00 63.42 H +ATOM 2392 HZ3 LYS A1038 22.732 -15.697 31.798 1.00 63.42 H +ATOM 2393 N ILE A1039 22.367 -17.990 23.628 1.00 29.54 N +ATOM 2394 CA ILE A1039 21.458 -18.304 22.519 1.00 28.51 C +ATOM 2395 C ILE A1039 20.013 -18.486 23.047 1.00 34.53 C +ATOM 2396 O ILE A1039 19.823 -19.220 24.015 1.00 33.94 O +ATOM 2397 CB ILE A1039 21.931 -19.599 21.801 1.00 30.88 C +ATOM 2398 CG1 ILE A1039 23.359 -19.444 21.214 1.00 31.23 C +ATOM 2399 CG2 ILE A1039 20.976 -20.084 20.698 1.00 29.61 C +ATOM 2400 CD1 ILE A1039 24.095 -20.778 21.038 1.00 34.19 C +ATOM 2401 H ILE A1039 22.950 -18.754 23.946 1.00 29.54 H +ATOM 2402 HA ILE A1039 21.479 -17.481 21.802 1.00 28.51 H +ATOM 2403 HB ILE A1039 21.971 -20.385 22.556 1.00 30.88 H +ATOM 2404 HG13 ILE A1039 23.983 -18.819 21.852 1.00 31.23 H +ATOM 2405 HG12 ILE A1039 23.313 -18.919 20.259 1.00 31.23 H +ATOM 2406 HG21 ILE A1039 21.355 -20.990 20.225 1.00 29.61 H +ATOM 2407 HG22 ILE A1039 19.983 -20.324 21.077 1.00 29.61 H +ATOM 2408 HG23 ILE A1039 20.863 -19.325 19.923 1.00 29.61 H +ATOM 2409 HD11 ILE A1039 25.154 -20.610 20.841 1.00 34.19 H +ATOM 2410 HD12 ILE A1039 24.026 -21.395 21.934 1.00 34.19 H +ATOM 2411 HD13 ILE A1039 23.687 -21.353 20.209 1.00 34.19 H +ATOM 2412 N GLY A1040 19.042 -17.781 22.438 1.00 33.09 N +ATOM 2413 CA GLY A1040 17.754 -17.481 23.069 1.00 34.16 C +ATOM 2414 C GLY A1040 16.532 -18.223 22.499 1.00 40.70 C +ATOM 2415 O GLY A1040 15.614 -18.495 23.272 1.00 43.01 O +ATOM 2416 H GLY A1040 19.275 -17.235 21.617 1.00 33.09 H +ATOM 2417 HA3 GLY A1040 17.573 -16.417 22.920 1.00 34.16 H +ATOM 2418 HA2 GLY A1040 17.799 -17.621 24.149 1.00 34.16 H +ATOM 2419 N ASP A1041 16.474 -18.513 21.185 1.00 35.96 N +ATOM 2420 CA ASP A1041 15.264 -19.029 20.519 1.00 35.80 C +ATOM 2421 C ASP A1041 15.538 -20.423 19.937 1.00 37.55 C +ATOM 2422 O ASP A1041 16.414 -20.550 19.086 1.00 37.04 O +ATOM 2423 CB ASP A1041 14.777 -18.065 19.402 1.00 38.10 C +ATOM 2424 CG ASP A1041 13.460 -18.432 18.687 1.00 50.20 C +ATOM 2425 OD1 ASP A1041 13.310 -18.003 17.523 1.00 52.84 O +ATOM 2426 OD2 ASP A1041 12.563 -19.015 19.336 1.00 55.28 O1- +ATOM 2427 H ASP A1041 17.256 -18.294 20.586 1.00 35.96 H +ATOM 2428 HA ASP A1041 14.453 -19.128 21.242 1.00 35.80 H +ATOM 2429 HB3 ASP A1041 15.566 -17.971 18.657 1.00 38.10 H +ATOM 2430 HB2 ASP A1041 14.663 -17.064 19.821 1.00 38.10 H +ATOM 2431 N PHE A1042 14.745 -21.419 20.359 1.00 32.39 N +ATOM 2432 CA PHE A1042 14.799 -22.802 19.875 1.00 31.52 C +ATOM 2433 C PHE A1042 13.480 -23.227 19.201 1.00 34.60 C +ATOM 2434 O PHE A1042 13.196 -24.422 19.128 1.00 34.58 O +ATOM 2435 CB PHE A1042 15.231 -23.737 21.030 1.00 33.71 C +ATOM 2436 CG PHE A1042 16.670 -23.531 21.472 1.00 34.33 C +ATOM 2437 CD1 PHE A1042 17.722 -24.193 20.803 1.00 37.30 C +ATOM 2438 CD2 PHE A1042 16.985 -22.531 22.418 1.00 35.64 C +ATOM 2439 CE1 PHE A1042 19.041 -23.902 21.126 1.00 37.53 C +ATOM 2440 CE2 PHE A1042 18.309 -22.252 22.721 1.00 37.88 C +ATOM 2441 CZ PHE A1042 19.333 -22.941 22.084 1.00 35.99 C +ATOM 2442 H PHE A1042 14.047 -21.229 21.065 1.00 32.39 H +ATOM 2443 HA PHE A1042 15.551 -22.898 19.091 1.00 31.52 H +ATOM 2444 HB3 PHE A1042 15.122 -24.784 20.745 1.00 33.71 H +ATOM 2445 HB2 PHE A1042 14.576 -23.592 21.890 1.00 33.71 H +ATOM 2446 HD1 PHE A1042 17.507 -24.925 20.038 1.00 37.30 H +ATOM 2447 HD2 PHE A1042 16.199 -21.974 22.904 1.00 35.64 H +ATOM 2448 HE1 PHE A1042 19.845 -24.414 20.620 1.00 37.53 H +ATOM 2449 HE2 PHE A1042 18.541 -21.489 23.448 1.00 37.88 H +ATOM 2450 HZ PHE A1042 20.361 -22.715 22.321 1.00 35.99 H +ATOM 2451 N GLY A1043 12.698 -22.251 18.704 1.00 31.53 N +ATOM 2452 CA GLY A1043 11.383 -22.464 18.096 1.00 32.39 C +ATOM 2453 C GLY A1043 11.436 -22.958 16.646 1.00 36.27 C +ATOM 2454 O GLY A1043 10.395 -23.341 16.117 1.00 37.10 O +ATOM 2455 H GLY A1043 12.995 -21.289 18.803 1.00 31.53 H +ATOM 2456 HA3 GLY A1043 10.820 -21.532 18.144 1.00 32.39 H +ATOM 2457 HA2 GLY A1043 10.827 -23.206 18.664 1.00 32.39 H +ATOM 2458 N LEU A1044 12.620 -22.989 16.017 1.00 31.93 N +ATOM 2459 CA LEU A1044 12.837 -23.598 14.704 1.00 31.84 C +ATOM 2460 C LEU A1044 13.846 -24.758 14.790 1.00 35.87 C +ATOM 2461 O LEU A1044 14.069 -25.419 13.778 1.00 35.69 O +ATOM 2462 CB LEU A1044 13.251 -22.483 13.710 1.00 31.01 C +ATOM 2463 CG LEU A1044 12.898 -22.737 12.226 1.00 36.50 C +ATOM 2464 CD1 LEU A1044 11.404 -23.059 12.012 1.00 39.52 C +ATOM 2465 CD2 LEU A1044 13.338 -21.546 11.351 1.00 36.18 C +ATOM 2466 H LEU A1044 13.441 -22.613 16.474 1.00 31.93 H +ATOM 2467 HA LEU A1044 11.915 -24.066 14.363 1.00 31.84 H +ATOM 2468 HB3 LEU A1044 14.320 -22.293 13.808 1.00 31.01 H +ATOM 2469 HB2 LEU A1044 12.761 -21.551 14.000 1.00 31.01 H +ATOM 2470 HG LEU A1044 13.471 -23.602 11.893 1.00 36.50 H +ATOM 2471 HD11 LEU A1044 10.983 -22.565 11.136 1.00 39.52 H +ATOM 2472 HD12 LEU A1044 11.255 -24.129 11.873 1.00 39.52 H +ATOM 2473 HD13 LEU A1044 10.802 -22.757 12.868 1.00 39.52 H +ATOM 2474 HD21 LEU A1044 13.911 -21.892 10.494 1.00 36.18 H +ATOM 2475 HD22 LEU A1044 12.497 -20.969 10.966 1.00 36.18 H +ATOM 2476 HD23 LEU A1044 13.967 -20.846 11.900 1.00 36.18 H +ATOM 2477 N ALA A1045 14.407 -25.017 15.988 1.00 32.44 N +ATOM 2478 CA ALA A1045 15.374 -26.079 16.253 1.00 32.81 C +ATOM 2479 C ALA A1045 14.797 -27.488 16.039 1.00 39.32 C +ATOM 2480 O ALA A1045 13.617 -27.723 16.298 1.00 40.28 O +ATOM 2481 CB ALA A1045 15.927 -25.919 17.677 1.00 33.16 C +ATOM 2482 H ALA A1045 14.149 -24.449 16.781 1.00 32.44 H +ATOM 2483 HA ALA A1045 16.189 -25.934 15.545 1.00 32.81 H +ATOM 2484 HB1 ALA A1045 16.723 -26.637 17.875 1.00 33.16 H +ATOM 2485 HB2 ALA A1045 16.344 -24.922 17.823 1.00 33.16 H +ATOM 2486 HB3 ALA A1045 15.152 -26.073 18.428 1.00 33.16 H +ATOM 2487 N LYS A1046 15.661 -28.390 15.560 1.00 36.85 N +ATOM 2488 CA LYS A1046 15.319 -29.754 15.172 1.00 38.80 C +ATOM 2489 C LYS A1046 16.434 -30.716 15.576 1.00 43.58 C +ATOM 2490 O LYS A1046 17.603 -30.339 15.549 1.00 42.04 O +ATOM 2491 CB LYS A1046 15.104 -29.792 13.640 1.00 41.69 C +ATOM 2492 CG LYS A1046 13.674 -29.462 13.181 1.00 56.73 C +ATOM 2493 CD LYS A1046 12.583 -30.451 13.637 1.00 68.33 C +ATOM 2494 CE LYS A1046 12.979 -31.937 13.511 1.00 80.64 C +ATOM 2495 NZ LYS A1046 11.844 -32.845 13.743 1.00 91.85 N1+ +ATOM 2496 H LYS A1046 16.625 -28.121 15.416 1.00 36.85 H +ATOM 2497 HA LYS A1046 14.413 -30.068 15.694 1.00 38.80 H +ATOM 2498 HB3 LYS A1046 15.361 -30.775 13.243 1.00 41.69 H +ATOM 2499 HB2 LYS A1046 15.806 -29.117 13.152 1.00 41.69 H +ATOM 2500 HG3 LYS A1046 13.670 -29.409 12.096 1.00 56.73 H +ATOM 2501 HG2 LYS A1046 13.408 -28.460 13.518 1.00 56.73 H +ATOM 2502 HD3 LYS A1046 11.692 -30.263 13.036 1.00 68.33 H +ATOM 2503 HD2 LYS A1046 12.297 -30.216 14.662 1.00 68.33 H +ATOM 2504 HE3 LYS A1046 13.759 -32.189 14.228 1.00 80.64 H +ATOM 2505 HE2 LYS A1046 13.385 -32.135 12.522 1.00 80.64 H +ATOM 2506 HZ1 LYS A1046 11.112 -32.656 13.073 1.00 91.85 H +ATOM 2507 HZ2 LYS A1046 12.153 -33.802 13.644 1.00 91.85 H +ATOM 2508 HZ3 LYS A1046 11.498 -32.701 14.683 1.00 91.85 H +ATOM 2509 N ALA A1047 16.048 -31.965 15.878 1.00 42.71 N +ATOM 2510 CA ALA A1047 16.969 -33.088 16.010 1.00 43.99 C +ATOM 2511 C ALA A1047 17.314 -33.647 14.623 1.00 50.12 C +ATOM 2512 O ALA A1047 16.406 -33.944 13.844 1.00 50.56 O +ATOM 2513 CB ALA A1047 16.324 -34.168 16.890 1.00 46.64 C +ATOM 2514 H ALA A1047 15.065 -32.194 15.900 1.00 42.71 H +ATOM 2515 HA ALA A1047 17.886 -32.759 16.500 1.00 43.99 H +ATOM 2516 HB1 ALA A1047 16.997 -35.015 17.029 1.00 46.64 H +ATOM 2517 HB2 ALA A1047 16.087 -33.777 17.880 1.00 46.64 H +ATOM 2518 HB3 ALA A1047 15.398 -34.547 16.455 1.00 46.64 H +ATOM 2519 N VAL A1048 18.620 -33.809 14.370 1.00 47.94 N +ATOM 2520 CA VAL A1048 19.161 -34.543 13.229 1.00 49.35 C +ATOM 2521 C VAL A1048 19.498 -35.960 13.750 1.00 57.96 C +ATOM 2522 O VAL A1048 20.328 -36.057 14.657 1.00 58.14 O +ATOM 2523 CB VAL A1048 20.471 -33.870 12.718 1.00 51.61 C +ATOM 2524 CG1 VAL A1048 21.264 -34.714 11.697 1.00 52.38 C +ATOM 2525 CG2 VAL A1048 20.187 -32.487 12.113 1.00 49.11 C +ATOM 2526 H VAL A1048 19.296 -33.552 15.078 1.00 47.94 H +ATOM 2527 HA VAL A1048 18.454 -34.541 12.402 1.00 49.35 H +ATOM 2528 HB VAL A1048 21.121 -33.698 13.576 1.00 51.61 H +ATOM 2529 HG11 VAL A1048 22.097 -34.149 11.279 1.00 52.38 H +ATOM 2530 HG12 VAL A1048 21.695 -35.604 12.153 1.00 52.38 H +ATOM 2531 HG13 VAL A1048 20.632 -35.033 10.867 1.00 52.38 H +ATOM 2532 HG21 VAL A1048 21.104 -32.014 11.760 1.00 49.11 H +ATOM 2533 HG22 VAL A1048 19.503 -32.554 11.266 1.00 49.11 H +ATOM 2534 HG23 VAL A1048 19.743 -31.824 12.852 1.00 49.11 H +ATOM 2535 N PRO A1049 18.844 -37.023 13.215 1.00 58.19 N +ATOM 2536 CA PRO A1049 19.135 -38.425 13.590 1.00 61.24 C +ATOM 2537 C PRO A1049 20.616 -38.828 13.468 1.00 67.45 C +ATOM 2538 O PRO A1049 21.323 -38.295 12.615 1.00 65.90 O +ATOM 2539 CB PRO A1049 18.259 -39.252 12.637 1.00 64.78 C +ATOM 2540 CG PRO A1049 17.111 -38.334 12.266 1.00 67.47 C +ATOM 2541 CD PRO A1049 17.769 -36.962 12.222 1.00 60.10 C +ATOM 2542 HA PRO A1049 18.794 -38.565 14.618 1.00 61.24 H +ATOM 2543 HB3 PRO A1049 17.916 -40.185 13.086 1.00 64.78 H +ATOM 2544 HB2 PRO A1049 18.818 -39.508 11.739 1.00 64.78 H +ATOM 2545 HG3 PRO A1049 16.364 -38.354 13.061 1.00 67.47 H +ATOM 2546 HG2 PRO A1049 16.620 -38.610 11.332 1.00 67.47 H +ATOM 2547 HD2 PRO A1049 18.205 -36.771 11.240 1.00 60.10 H +ATOM 2548 HD3 PRO A1049 17.026 -36.192 12.430 1.00 60.10 H +ATOM 2549 N GLU A1050 21.044 -39.753 14.338 1.00 67.48 N +ATOM 2550 CA GLU A1050 22.423 -40.221 14.508 1.00 69.03 C +ATOM 2551 C GLU A1050 23.119 -40.778 13.246 1.00 74.36 C +ATOM 2552 O GLU A1050 24.342 -40.671 13.158 1.00 73.11 O +ATOM 2553 CB GLU A1050 22.482 -41.231 15.680 1.00 73.36 C +ATOM 2554 CG GLU A1050 21.495 -42.424 15.596 1.00 87.15 C +ATOM 2555 CD GLU A1050 20.220 -42.216 16.427 1.00108.14 C +ATOM 2556 OE1 GLU A1050 19.235 -41.698 15.854 1.00 97.71 O +ATOM 2557 OE2 GLU A1050 20.248 -42.582 17.623 1.00104.25 O1- +ATOM 2558 H GLU A1050 20.373 -40.167 14.974 1.00 67.48 H +ATOM 2559 HA GLU A1050 23.004 -39.347 14.806 1.00 69.03 H +ATOM 2560 HB3 GLU A1050 22.352 -40.692 16.620 1.00 73.36 H +ATOM 2561 HB2 GLU A1050 23.493 -41.637 15.740 1.00 73.36 H +ATOM 2562 HG3 GLU A1050 21.997 -43.322 15.962 1.00 87.15 H +ATOM 2563 HG2 GLU A1050 21.232 -42.647 14.562 1.00 87.15 H +ATOM 2564 N GLY A1051 22.347 -41.336 12.297 1.00 73.14 N +ATOM 2565 CA GLY A1051 22.864 -41.862 11.031 1.00 74.12 C +ATOM 2566 C GLY A1051 22.883 -40.797 9.920 1.00 76.14 C +ATOM 2567 O GLY A1051 23.564 -40.998 8.915 1.00 75.82 O +ATOM 2568 H GLY A1051 21.349 -41.383 12.442 1.00 73.14 H +ATOM 2569 HA3 GLY A1051 22.219 -42.681 10.712 1.00 74.12 H +ATOM 2570 HA2 GLY A1051 23.863 -42.282 11.156 1.00 74.12 H +ATOM 2571 N HIS A1052 22.148 -39.686 10.090 1.00 70.95 N +ATOM 2572 CA HIS A1052 22.011 -38.597 9.123 1.00 68.73 C +ATOM 2573 C HIS A1052 22.937 -37.424 9.481 1.00 69.56 C +ATOM 2574 O HIS A1052 23.256 -37.219 10.652 1.00 68.77 O +ATOM 2575 CB HIS A1052 20.540 -38.123 9.100 1.00 69.08 C +ATOM 2576 CG HIS A1052 19.543 -39.132 8.579 1.00 75.17 C +ATOM 2577 ND1 HIS A1052 19.178 -40.283 9.288 1.00 79.02 N +ATOM 2578 CD2 HIS A1052 18.840 -39.108 7.391 1.00 78.03 C +ATOM 2579 CE1 HIS A1052 18.289 -40.896 8.520 1.00 80.71 C +ATOM 2580 NE2 HIS A1052 18.050 -40.245 7.382 1.00 80.49 N +ATOM 2581 H HIS A1052 21.653 -39.553 10.962 1.00 70.95 H +ATOM 2582 HA HIS A1052 22.274 -38.946 8.122 1.00 68.73 H +ATOM 2583 HB3 HIS A1052 20.453 -37.233 8.477 1.00 69.08 H +ATOM 2584 HB2 HIS A1052 20.226 -37.820 10.100 1.00 69.08 H +ATOM 2585 HD2 HIS A1052 18.840 -38.394 6.581 1.00 78.03 H +ATOM 2586 HE1 HIS A1052 17.810 -41.826 8.788 1.00 80.71 H +ATOM 2587 HE2 HIS A1052 17.414 -40.529 6.651 1.00 80.49 H +ATOM 2588 N GLU A1053 23.322 -36.658 8.451 1.00 64.24 N +ATOM 2589 CA GLU A1053 24.117 -35.433 8.557 1.00 61.84 C +ATOM 2590 C GLU A1053 23.272 -34.167 8.292 1.00 61.74 C +ATOM 2591 O GLU A1053 23.817 -33.068 8.400 1.00 59.10 O +ATOM 2592 CB GLU A1053 25.351 -35.539 7.623 1.00 63.99 C +ATOM 2593 CG GLU A1053 25.120 -35.440 6.093 1.00 74.97 C +ATOM 2594 CD GLU A1053 24.786 -36.771 5.400 1.00100.97 C +ATOM 2595 OE1 GLU A1053 23.634 -37.237 5.548 1.00 97.03 O +ATOM 2596 OE2 GLU A1053 25.679 -37.290 4.697 1.00 98.37 O1- +ATOM 2597 H GLU A1053 23.071 -36.928 7.507 1.00 64.24 H +ATOM 2598 HA GLU A1053 24.496 -35.333 9.576 1.00 61.84 H +ATOM 2599 HB3 GLU A1053 25.885 -36.464 7.847 1.00 63.99 H +ATOM 2600 HB2 GLU A1053 26.049 -34.750 7.905 1.00 63.99 H +ATOM 2601 HG3 GLU A1053 26.030 -35.039 5.642 1.00 74.97 H +ATOM 2602 HG2 GLU A1053 24.354 -34.704 5.858 1.00 74.97 H +ATOM 2603 N TYR A1054 21.978 -34.332 7.962 1.00 57.54 N +ATOM 2604 CA TYR A1054 21.038 -33.246 7.686 1.00 55.48 C +ATOM 2605 C TYR A1054 19.610 -33.633 8.097 1.00 59.04 C +ATOM 2606 O TYR A1054 19.301 -34.812 8.275 1.00 60.45 O +ATOM 2607 CB TYR A1054 21.109 -32.841 6.187 1.00 56.49 C +ATOM 2608 CG TYR A1054 20.523 -33.833 5.189 1.00 59.97 C +ATOM 2609 CD1 TYR A1054 21.322 -34.878 4.687 1.00 63.50 C +ATOM 2610 CD2 TYR A1054 19.179 -33.730 4.771 1.00 61.05 C +ATOM 2611 CE1 TYR A1054 20.780 -35.835 3.809 1.00 66.15 C +ATOM 2612 CE2 TYR A1054 18.631 -34.690 3.899 1.00 63.96 C +ATOM 2613 CZ TYR A1054 19.429 -35.748 3.421 1.00 73.64 C +ATOM 2614 OH TYR A1054 18.897 -36.677 2.576 1.00 77.56 O +ATOM 2615 H TYR A1054 21.595 -35.265 7.908 1.00 57.54 H +ATOM 2616 HA TYR A1054 21.314 -32.391 8.303 1.00 55.48 H +ATOM 2617 HB3 TYR A1054 22.140 -32.633 5.913 1.00 56.49 H +ATOM 2618 HB2 TYR A1054 20.584 -31.896 6.047 1.00 56.49 H +ATOM 2619 HD1 TYR A1054 22.353 -34.953 4.986 1.00 63.50 H +ATOM 2620 HD2 TYR A1054 18.561 -32.921 5.129 1.00 61.05 H +ATOM 2621 HE1 TYR A1054 21.405 -36.637 3.445 1.00 66.15 H +ATOM 2622 HE2 TYR A1054 17.600 -34.611 3.591 1.00 63.96 H +ATOM 2623 HH TYR A1054 19.520 -37.375 2.356 1.00 77.56 H +ATOM 2624 N TYR A1055 18.759 -32.601 8.172 1.00 53.65 N +ATOM 2625 CA TYR A1055 17.307 -32.696 8.252 1.00 53.92 C +ATOM 2626 C TYR A1055 16.718 -31.959 7.040 1.00 57.69 C +ATOM 2627 O TYR A1055 17.071 -30.801 6.810 1.00 55.22 O +ATOM 2628 CB TYR A1055 16.838 -32.089 9.591 1.00 54.09 C +ATOM 2629 CG TYR A1055 15.343 -31.838 9.694 1.00 56.40 C +ATOM 2630 CD1 TYR A1055 14.459 -32.920 9.881 1.00 60.40 C +ATOM 2631 CD2 TYR A1055 14.831 -30.531 9.553 1.00 55.95 C +ATOM 2632 CE1 TYR A1055 13.069 -32.696 9.925 1.00 62.24 C +ATOM 2633 CE2 TYR A1055 13.442 -30.309 9.595 1.00 57.85 C +ATOM 2634 CZ TYR A1055 12.561 -31.389 9.792 1.00 68.21 C +ATOM 2635 OH TYR A1055 11.218 -31.167 9.864 1.00 71.06 O +ATOM 2636 H TYR A1055 19.120 -31.665 8.034 1.00 53.65 H +ATOM 2637 HA TYR A1055 16.991 -33.741 8.215 1.00 53.92 H +ATOM 2638 HB3 TYR A1055 17.345 -31.136 9.741 1.00 54.09 H +ATOM 2639 HB2 TYR A1055 17.150 -32.725 10.420 1.00 54.09 H +ATOM 2640 HD1 TYR A1055 14.844 -33.925 9.980 1.00 60.40 H +ATOM 2641 HD2 TYR A1055 15.501 -29.698 9.397 1.00 55.95 H +ATOM 2642 HE1 TYR A1055 12.395 -33.528 10.067 1.00 62.24 H +ATOM 2643 HE2 TYR A1055 13.059 -29.305 9.487 1.00 57.85 H +ATOM 2644 HH TYR A1055 10.989 -30.253 9.669 1.00 71.06 H +ATOM 2645 N ARG A1056 15.823 -32.635 6.300 1.00 57.03 N +ATOM 2646 CA ARG A1056 15.098 -32.048 5.173 1.00 57.53 C +ATOM 2647 C ARG A1056 13.959 -31.149 5.686 1.00 61.75 C +ATOM 2648 O ARG A1056 13.059 -31.638 6.370 1.00 61.93 O +ATOM 2649 CB ARG A1056 14.608 -33.166 4.226 1.00 60.34 C +ATOM 2650 CG ARG A1056 13.814 -32.665 2.999 1.00 70.60 C +ATOM 2651 CD ARG A1056 13.368 -33.768 2.019 1.00 82.84 C +ATOM 2652 NE ARG A1056 14.464 -34.293 1.175 1.00 90.66 N +ATOM 2653 CZ ARG A1056 15.224 -35.394 1.344 1.00105.37 C +ATOM 2654 NH1 ARG A1056 15.121 -36.198 2.414 1.00 92.55 N +ATOM 2655 NH2 ARG A1056 16.116 -35.706 0.397 1.00 93.08 N1+ +ATOM 2656 H ARG A1056 15.564 -33.576 6.557 1.00 57.03 H +ATOM 2657 HA ARG A1056 15.800 -31.436 4.607 1.00 57.53 H +ATOM 2658 HB3 ARG A1056 13.983 -33.865 4.784 1.00 60.34 H +ATOM 2659 HB2 ARG A1056 15.474 -33.734 3.888 1.00 60.34 H +ATOM 2660 HG3 ARG A1056 14.473 -31.981 2.463 1.00 70.60 H +ATOM 2661 HG2 ARG A1056 12.947 -32.066 3.280 1.00 70.60 H +ATOM 2662 HD3 ARG A1056 12.527 -33.432 1.411 1.00 82.84 H +ATOM 2663 HD2 ARG A1056 12.980 -34.606 2.598 1.00 82.84 H +ATOM 2664 HE ARG A1056 14.650 -33.731 0.357 1.00 90.66 H +ATOM 2665 HH12 ARG A1056 15.714 -37.010 2.509 1.00 92.55 H +ATOM 2666 HH11 ARG A1056 14.444 -35.992 3.135 1.00 92.55 H +ATOM 2667 HH22 ARG A1056 16.701 -36.523 0.497 1.00 93.08 H +ATOM 2668 HH21 ARG A1056 16.178 -35.151 -0.445 1.00 93.08 H +ATOM 2669 N VAL A1057 14.031 -29.859 5.329 1.00 58.48 N +ATOM 2670 CA VAL A1057 13.038 -28.839 5.665 1.00 58.75 C +ATOM 2671 C VAL A1057 11.988 -28.709 4.538 1.00 65.29 C +ATOM 2672 O VAL A1057 12.116 -29.352 3.495 1.00 65.91 O +ATOM 2673 CB VAL A1057 13.722 -27.462 5.925 1.00 60.86 C +ATOM 2674 CG1 VAL A1057 14.766 -27.564 7.050 1.00 59.54 C +ATOM 2675 CG2 VAL A1057 14.331 -26.769 4.692 1.00 60.35 C +ATOM 2676 H VAL A1057 14.785 -29.556 4.728 1.00 58.48 H +ATOM 2677 HA VAL A1057 12.509 -29.132 6.574 1.00 58.75 H +ATOM 2678 HB VAL A1057 12.952 -26.786 6.300 1.00 60.86 H +ATOM 2679 HG11 VAL A1057 15.216 -26.593 7.260 1.00 59.54 H +ATOM 2680 HG12 VAL A1057 14.311 -27.924 7.971 1.00 59.54 H +ATOM 2681 HG13 VAL A1057 15.574 -28.249 6.793 1.00 59.54 H +ATOM 2682 HG21 VAL A1057 14.773 -25.809 4.961 1.00 60.35 H +ATOM 2683 HG22 VAL A1057 15.119 -27.373 4.247 1.00 60.35 H +ATOM 2684 HG23 VAL A1057 13.582 -26.567 3.929 1.00 60.35 H +ATOM 2685 N ARG A1058 10.957 -27.886 4.784 1.00 63.20 N +ATOM 2686 CA ARG A1058 9.855 -27.623 3.856 1.00 65.24 C +ATOM 2687 C ARG A1058 9.713 -26.114 3.611 1.00 68.79 C +ATOM 2688 O ARG A1058 10.180 -25.307 4.420 1.00 66.32 O +ATOM 2689 CB ARG A1058 8.555 -28.245 4.423 1.00 68.55 C +ATOM 2690 CG ARG A1058 8.122 -27.738 5.815 1.00 80.25 C +ATOM 2691 CD ARG A1058 6.829 -28.410 6.312 1.00 95.92 C +ATOM 2692 NE ARG A1058 6.571 -28.140 7.739 1.00106.17 N +ATOM 2693 CZ ARG A1058 6.077 -27.024 8.310 1.00120.07 C +ATOM 2694 NH1 ARG A1058 5.725 -25.940 7.601 1.00107.17 N +ATOM 2695 NH2 ARG A1058 5.943 -26.997 9.643 1.00106.51 N1+ +ATOM 2696 H ARG A1058 10.934 -27.358 5.644 1.00 63.20 H +ATOM 2697 HA ARG A1058 10.057 -28.083 2.887 1.00 65.24 H +ATOM 2698 HB3 ARG A1058 8.691 -29.326 4.476 1.00 68.55 H +ATOM 2699 HB2 ARG A1058 7.740 -28.087 3.715 1.00 68.55 H +ATOM 2700 HG3 ARG A1058 7.921 -26.671 5.709 1.00 80.25 H +ATOM 2701 HG2 ARG A1058 8.920 -27.820 6.553 1.00 80.25 H +ATOM 2702 HD3 ARG A1058 6.814 -29.478 6.092 1.00 95.92 H +ATOM 2703 HD2 ARG A1058 5.984 -27.985 5.770 1.00 95.92 H +ATOM 2704 HE ARG A1058 6.844 -28.887 8.365 1.00106.17 H +ATOM 2705 HH12 ARG A1058 5.393 -25.101 8.057 1.00107.17 H +ATOM 2706 HH11 ARG A1058 5.821 -25.940 6.595 1.00107.17 H +ATOM 2707 HH22 ARG A1058 5.578 -26.177 10.105 1.00106.51 H +ATOM 2708 HH21 ARG A1058 6.225 -27.795 10.196 1.00106.51 H +ATOM 2709 N GLU A1059 9.038 -25.776 2.500 1.00 67.64 N +ATOM 2710 CA GLU A1059 8.685 -24.414 2.093 1.00 67.30 C +ATOM 2711 C GLU A1059 7.766 -23.748 3.133 1.00 70.47 C +ATOM 2712 O GLU A1059 6.723 -24.309 3.470 1.00 72.02 O +ATOM 2713 CB GLU A1059 8.012 -24.461 0.706 1.00 70.84 C +ATOM 2714 CG GLU A1059 8.907 -25.076 -0.399 1.00 82.19 C +ATOM 2715 CD GLU A1059 8.257 -26.269 -1.111 1.00104.90 C +ATOM 2716 OE1 GLU A1059 7.233 -26.047 -1.795 1.00101.41 O +ATOM 2717 OE2 GLU A1059 8.794 -27.389 -0.955 1.00 97.56 O1- +ATOM 2718 H GLU A1059 8.704 -26.506 1.885 1.00 67.64 H +ATOM 2719 HA GLU A1059 9.610 -23.839 2.012 1.00 67.30 H +ATOM 2720 HB3 GLU A1059 7.738 -23.449 0.407 1.00 70.84 H +ATOM 2721 HB2 GLU A1059 7.066 -25.001 0.787 1.00 70.84 H +ATOM 2722 HG3 GLU A1059 9.879 -25.368 0.001 1.00 82.19 H +ATOM 2723 HG2 GLU A1059 9.128 -24.314 -1.148 1.00 82.19 H +ATOM 2724 N ASP A1060 8.200 -22.585 3.641 1.00 63.92 N +ATOM 2725 CA ASP A1060 7.575 -21.893 4.765 1.00 62.93 C +ATOM 2726 C ASP A1060 7.931 -20.396 4.689 1.00 63.72 C +ATOM 2727 O ASP A1060 9.060 -20.058 4.328 1.00 61.91 O +ATOM 2728 CB ASP A1060 7.967 -22.571 6.105 1.00 63.66 C +ATOM 2729 CG ASP A1060 7.358 -21.948 7.366 1.00 75.05 C +ATOM 2730 OD1 ASP A1060 8.086 -21.180 8.032 1.00 74.25 O +ATOM 2731 OD2 ASP A1060 6.144 -22.161 7.578 1.00 83.24 O1- +ATOM 2732 H ASP A1060 9.064 -22.182 3.306 1.00 63.92 H +ATOM 2733 HA ASP A1060 6.492 -21.970 4.645 1.00 62.93 H +ATOM 2734 HB3 ASP A1060 9.053 -22.612 6.195 1.00 63.66 H +ATOM 2735 HB2 ASP A1060 7.665 -23.619 6.075 1.00 63.66 H +ATOM 2736 N GLY A1061 6.957 -19.530 5.016 1.00 59.48 N +ATOM 2737 CA GLY A1061 7.070 -18.076 4.873 1.00 58.15 C +ATOM 2738 C GLY A1061 7.891 -17.421 5.996 1.00 58.01 C +ATOM 2739 O GLY A1061 8.510 -16.385 5.752 1.00 57.30 O +ATOM 2740 H GLY A1061 6.067 -19.888 5.335 1.00 59.48 H +ATOM 2741 HA3 GLY A1061 6.067 -17.649 4.885 1.00 58.15 H +ATOM 2742 HA2 GLY A1061 7.506 -17.826 3.904 1.00 58.15 H +ATOM 2743 N ASP A1062 7.915 -18.018 7.201 1.00 51.90 N +ATOM 2744 CA ASP A1062 8.653 -17.534 8.378 1.00 49.16 C +ATOM 2745 C ASP A1062 10.107 -18.046 8.449 1.00 47.64 C +ATOM 2746 O ASP A1062 10.797 -17.733 9.420 1.00 46.55 O +ATOM 2747 CB ASP A1062 7.899 -17.795 9.708 1.00 51.59 C +ATOM 2748 CG ASP A1062 6.532 -17.099 9.780 1.00 64.71 C +ATOM 2749 OD1 ASP A1062 6.532 -15.894 10.117 1.00 64.98 O +ATOM 2750 OD2 ASP A1062 5.532 -17.721 9.355 1.00 72.36 O1- +ATOM 2751 H ASP A1062 7.395 -18.874 7.340 1.00 51.90 H +ATOM 2752 HA ASP A1062 8.746 -16.450 8.290 1.00 49.16 H +ATOM 2753 HB3 ASP A1062 8.492 -17.465 10.563 1.00 51.59 H +ATOM 2754 HB2 ASP A1062 7.746 -18.868 9.841 1.00 51.59 H +ATOM 2755 N SER A1063 10.569 -18.779 7.420 1.00 40.62 N +ATOM 2756 CA SER A1063 11.959 -19.217 7.260 1.00 37.44 C +ATOM 2757 C SER A1063 12.901 -17.998 7.100 1.00 36.61 C +ATOM 2758 O SER A1063 12.625 -17.166 6.233 1.00 36.77 O +ATOM 2759 CB SER A1063 12.043 -20.096 5.996 1.00 41.61 C +ATOM 2760 OG SER A1063 11.496 -21.374 6.248 1.00 53.21 O +ATOM 2761 H SER A1063 9.942 -18.995 6.659 1.00 40.62 H +ATOM 2762 HA SER A1063 12.213 -19.823 8.127 1.00 37.44 H +ATOM 2763 HB3 SER A1063 13.083 -20.246 5.704 1.00 41.61 H +ATOM 2764 HB2 SER A1063 11.543 -19.631 5.146 1.00 41.61 H +ATOM 2765 HG SER A1063 10.558 -21.273 6.434 1.00 53.21 H +ATOM 2766 N PRO A1064 13.968 -17.884 7.928 1.00 29.45 N +ATOM 2767 CA PRO A1064 14.939 -16.776 7.833 1.00 27.99 C +ATOM 2768 C PRO A1064 15.922 -16.965 6.657 1.00 29.88 C +ATOM 2769 O PRO A1064 17.089 -17.296 6.864 1.00 28.09 O +ATOM 2770 CB PRO A1064 15.604 -16.789 9.221 1.00 28.56 C +ATOM 2771 CG PRO A1064 15.612 -18.256 9.609 1.00 32.39 C +ATOM 2772 CD PRO A1064 14.295 -18.775 9.046 1.00 29.40 C +ATOM 2773 HA PRO A1064 14.428 -15.823 7.693 1.00 27.99 H +ATOM 2774 HB3 PRO A1064 14.982 -16.237 9.925 1.00 28.56 H +ATOM 2775 HB2 PRO A1064 16.597 -16.338 9.248 1.00 28.56 H +ATOM 2776 HG3 PRO A1064 15.715 -18.431 10.677 1.00 32.39 H +ATOM 2777 HG2 PRO A1064 16.449 -18.744 9.115 1.00 32.39 H +ATOM 2778 HD2 PRO A1064 14.384 -19.818 8.743 1.00 29.40 H +ATOM 2779 HD3 PRO A1064 13.510 -18.699 9.801 1.00 29.40 H +ATOM 2780 N VAL A1065 15.408 -16.769 5.432 1.00 26.94 N +ATOM 2781 CA VAL A1065 16.083 -17.031 4.159 1.00 26.90 C +ATOM 2782 C VAL A1065 17.339 -16.176 3.894 1.00 29.62 C +ATOM 2783 O VAL A1065 18.244 -16.657 3.215 1.00 30.17 O +ATOM 2784 CB VAL A1065 15.107 -16.875 2.960 1.00 31.89 C +ATOM 2785 CG1 VAL A1065 14.030 -17.974 2.979 1.00 32.04 C +ATOM 2786 CG2 VAL A1065 14.481 -15.471 2.822 1.00 32.40 C +ATOM 2787 H VAL A1065 14.432 -16.513 5.357 1.00 26.94 H +ATOM 2788 HA VAL A1065 16.404 -18.072 4.192 1.00 26.90 H +ATOM 2789 HB VAL A1065 15.671 -17.032 2.041 1.00 31.89 H +ATOM 2790 HG11 VAL A1065 13.360 -17.892 2.126 1.00 32.04 H +ATOM 2791 HG12 VAL A1065 14.480 -18.966 2.946 1.00 32.04 H +ATOM 2792 HG13 VAL A1065 13.413 -17.921 3.874 1.00 32.04 H +ATOM 2793 HG21 VAL A1065 13.790 -15.435 1.980 1.00 32.40 H +ATOM 2794 HG22 VAL A1065 13.922 -15.190 3.715 1.00 32.40 H +ATOM 2795 HG23 VAL A1065 15.236 -14.705 2.644 1.00 32.40 H +ATOM 2796 N PHE A1066 17.403 -14.963 4.471 1.00 24.27 N +ATOM 2797 CA PHE A1066 18.559 -14.062 4.392 1.00 22.99 C +ATOM 2798 C PHE A1066 19.704 -14.430 5.363 1.00 25.61 C +ATOM 2799 O PHE A1066 20.753 -13.788 5.309 1.00 25.29 O +ATOM 2800 CB PHE A1066 18.088 -12.605 4.572 1.00 24.72 C +ATOM 2801 CG PHE A1066 17.099 -12.129 3.519 1.00 26.81 C +ATOM 2802 CD1 PHE A1066 17.498 -12.003 2.171 1.00 30.19 C +ATOM 2803 CD2 PHE A1066 15.755 -11.868 3.859 1.00 28.84 C +ATOM 2804 CE1 PHE A1066 16.588 -11.592 1.207 1.00 32.10 C +ATOM 2805 CE2 PHE A1066 14.860 -11.452 2.881 1.00 32.68 C +ATOM 2806 CZ PHE A1066 15.275 -11.312 1.563 1.00 31.49 C +ATOM 2807 H PHE A1066 16.620 -14.635 5.018 1.00 24.27 H +ATOM 2808 HA PHE A1066 18.987 -14.144 3.391 1.00 22.99 H +ATOM 2809 HB3 PHE A1066 18.945 -11.932 4.547 1.00 24.72 H +ATOM 2810 HB2 PHE A1066 17.641 -12.476 5.558 1.00 24.72 H +ATOM 2811 HD1 PHE A1066 18.511 -12.232 1.881 1.00 30.19 H +ATOM 2812 HD2 PHE A1066 15.418 -11.978 4.880 1.00 28.84 H +ATOM 2813 HE1 PHE A1066 16.900 -11.493 0.178 1.00 32.10 H +ATOM 2814 HE2 PHE A1066 13.835 -11.240 3.147 1.00 32.68 H +ATOM 2815 HZ PHE A1066 14.571 -10.991 0.809 1.00 31.49 H +ATOM 2816 N TRP A1067 19.503 -15.469 6.193 1.00 21.53 N +ATOM 2817 CA TRP A1067 20.513 -16.118 7.034 1.00 20.98 C +ATOM 2818 C TRP A1067 20.841 -17.541 6.544 1.00 25.33 C +ATOM 2819 O TRP A1067 21.686 -18.182 7.166 1.00 24.70 O +ATOM 2820 CB TRP A1067 20.034 -16.155 8.505 1.00 19.14 C +ATOM 2821 CG TRP A1067 20.004 -14.837 9.218 1.00 20.37 C +ATOM 2822 CD1 TRP A1067 20.932 -14.416 10.108 1.00 23.03 C +ATOM 2823 CD2 TRP A1067 19.058 -13.733 9.076 1.00 20.78 C +ATOM 2824 NE1 TRP A1067 20.634 -13.134 10.515 1.00 22.88 N +ATOM 2825 CE2 TRP A1067 19.496 -12.655 9.904 1.00 24.65 C +ATOM 2826 CE3 TRP A1067 17.878 -13.523 8.325 1.00 22.55 C +ATOM 2827 CZ2 TRP A1067 18.810 -11.431 9.970 1.00 24.55 C +ATOM 2828 CZ3 TRP A1067 17.185 -12.297 8.378 1.00 24.77 C +ATOM 2829 CH2 TRP A1067 17.652 -11.252 9.196 1.00 25.58 C +ATOM 2830 H TRP A1067 18.599 -15.922 6.189 1.00 21.53 H +ATOM 2831 HA TRP A1067 21.451 -15.568 6.999 1.00 20.98 H +ATOM 2832 HB3 TRP A1067 20.679 -16.808 9.096 1.00 19.14 H +ATOM 2833 HB2 TRP A1067 19.040 -16.597 8.567 1.00 19.14 H +ATOM 2834 HD1 TRP A1067 21.784 -14.998 10.429 1.00 23.03 H +ATOM 2835 HE1 TRP A1067 21.205 -12.613 11.174 1.00 22.88 H +ATOM 2836 HE3 TRP A1067 17.502 -14.314 7.693 1.00 22.55 H +ATOM 2837 HZ2 TRP A1067 19.168 -10.635 10.600 1.00 24.55 H +ATOM 2838 HZ3 TRP A1067 16.292 -12.161 7.787 1.00 24.77 H +ATOM 2839 HH2 TRP A1067 17.122 -10.313 9.228 1.00 25.58 H +ATOM 2840 N TYR A1068 20.173 -18.030 5.482 1.00 22.67 N +ATOM 2841 CA TYR A1068 20.279 -19.414 5.015 1.00 22.91 C +ATOM 2842 C TYR A1068 21.301 -19.605 3.889 1.00 27.97 C +ATOM 2843 O TYR A1068 21.453 -18.742 3.024 1.00 27.88 O +ATOM 2844 CB TYR A1068 18.888 -19.929 4.583 1.00 24.52 C +ATOM 2845 CG TYR A1068 17.992 -20.517 5.668 1.00 25.78 C +ATOM 2846 CD1 TYR A1068 18.249 -20.321 7.044 1.00 26.89 C +ATOM 2847 CD2 TYR A1068 16.895 -21.317 5.283 1.00 27.22 C +ATOM 2848 CE1 TYR A1068 17.444 -20.944 8.013 1.00 27.51 C +ATOM 2849 CE2 TYR A1068 16.082 -21.933 6.254 1.00 27.82 C +ATOM 2850 CZ TYR A1068 16.364 -21.754 7.621 1.00 33.27 C +ATOM 2851 OH TYR A1068 15.596 -22.368 8.567 1.00 34.43 O +ATOM 2852 H TYR A1068 19.515 -17.444 4.989 1.00 22.67 H +ATOM 2853 HA TYR A1068 20.623 -20.023 5.846 1.00 22.91 H +ATOM 2854 HB3 TYR A1068 19.021 -20.738 3.865 1.00 24.52 H +ATOM 2855 HB2 TYR A1068 18.353 -19.158 4.036 1.00 24.52 H +ATOM 2856 HD1 TYR A1068 19.068 -19.708 7.385 1.00 26.89 H +ATOM 2857 HD2 TYR A1068 16.683 -21.477 4.235 1.00 27.22 H +ATOM 2858 HE1 TYR A1068 17.675 -20.800 9.057 1.00 27.51 H +ATOM 2859 HE2 TYR A1068 15.251 -22.551 5.947 1.00 27.82 H +ATOM 2860 HH TYR A1068 15.834 -22.099 9.460 1.00 34.43 H +ATOM 2861 N ALA A1069 21.944 -20.784 3.928 1.00 25.38 N +ATOM 2862 CA ALA A1069 22.884 -21.296 2.933 1.00 26.44 C +ATOM 2863 C ALA A1069 22.175 -21.746 1.635 1.00 31.81 C +ATOM 2864 O ALA A1069 20.981 -22.041 1.693 1.00 31.30 O +ATOM 2865 CB ALA A1069 23.642 -22.465 3.575 1.00 27.06 C +ATOM 2866 H ALA A1069 21.744 -21.414 4.695 1.00 25.38 H +ATOM 2867 HA ALA A1069 23.573 -20.484 2.721 1.00 26.44 H +ATOM 2868 HB1 ALA A1069 24.396 -22.876 2.905 1.00 27.06 H +ATOM 2869 HB2 ALA A1069 24.155 -22.157 4.484 1.00 27.06 H +ATOM 2870 HB3 ALA A1069 22.959 -23.269 3.848 1.00 27.06 H +ATOM 2871 N PRO A1070 22.905 -21.820 0.492 1.00 29.54 N +ATOM 2872 CA PRO A1070 22.318 -22.153 -0.825 1.00 30.26 C +ATOM 2873 C PRO A1070 21.530 -23.472 -0.919 1.00 34.94 C +ATOM 2874 O PRO A1070 20.491 -23.486 -1.575 1.00 34.96 O +ATOM 2875 CB PRO A1070 23.517 -22.148 -1.790 1.00 33.15 C +ATOM 2876 CG PRO A1070 24.525 -21.227 -1.133 1.00 37.32 C +ATOM 2877 CD PRO A1070 24.329 -21.503 0.350 1.00 31.58 C +ATOM 2878 HA PRO A1070 21.652 -21.328 -1.087 1.00 30.26 H +ATOM 2879 HB3 PRO A1070 23.248 -21.815 -2.793 1.00 33.15 H +ATOM 2880 HB2 PRO A1070 23.951 -23.146 -1.880 1.00 33.15 H +ATOM 2881 HG3 PRO A1070 24.252 -20.194 -1.345 1.00 37.32 H +ATOM 2882 HG2 PRO A1070 25.549 -21.382 -1.473 1.00 37.32 H +ATOM 2883 HD2 PRO A1070 24.919 -22.367 0.658 1.00 31.58 H +ATOM 2884 HD3 PRO A1070 24.651 -20.640 0.925 1.00 31.58 H +ATOM 2885 N GLU A1071 22.008 -24.538 -0.253 1.00 32.03 N +ATOM 2886 CA GLU A1071 21.365 -25.857 -0.239 1.00 32.36 C +ATOM 2887 C GLU A1071 20.131 -25.940 0.687 1.00 36.77 C +ATOM 2888 O GLU A1071 19.367 -26.893 0.552 1.00 37.38 O +ATOM 2889 CB GLU A1071 22.418 -26.957 0.049 1.00 33.61 C +ATOM 2890 CG GLU A1071 22.886 -27.153 1.512 1.00 36.88 C +ATOM 2891 CD GLU A1071 23.719 -26.023 2.129 1.00 38.00 C +ATOM 2892 OE1 GLU A1071 24.489 -25.358 1.399 1.00 23.85 O +ATOM 2893 OE2 GLU A1071 23.600 -25.858 3.360 1.00 16.84 O1- +ATOM 2894 H GLU A1071 22.874 -24.464 0.266 1.00 32.03 H +ATOM 2895 HA GLU A1071 20.998 -26.041 -1.250 1.00 32.36 H +ATOM 2896 HB3 GLU A1071 23.285 -26.804 -0.596 1.00 33.61 H +ATOM 2897 HB2 GLU A1071 21.997 -27.906 -0.287 1.00 33.61 H +ATOM 2898 HG3 GLU A1071 23.513 -28.044 1.546 1.00 36.88 H +ATOM 2899 HG2 GLU A1071 22.030 -27.377 2.151 1.00 36.88 H +ATOM 2900 N CYS A1072 19.932 -24.947 1.573 1.00 32.34 N +ATOM 2901 CA CYS A1072 18.722 -24.792 2.390 1.00 31.88 C +ATOM 2902 C CYS A1072 17.604 -24.086 1.604 1.00 36.21 C +ATOM 2903 O CYS A1072 16.431 -24.342 1.868 1.00 36.04 O +ATOM 2904 CB CYS A1072 18.984 -23.985 3.675 1.00 30.83 C +ATOM 2905 SG CYS A1072 20.305 -24.742 4.645 1.00 34.07 S +ATOM 2906 H CYS A1072 20.613 -24.204 1.646 1.00 32.34 H +ATOM 2907 HA CYS A1072 18.356 -25.780 2.678 1.00 31.88 H +ATOM 2908 HB3 CYS A1072 18.086 -23.935 4.292 1.00 30.83 H +ATOM 2909 HB2 CYS A1072 19.273 -22.962 3.445 1.00 30.83 H +ATOM 2910 HG CYS A1072 19.717 -25.935 4.782 1.00 34.07 H +ATOM 2911 N LEU A1073 17.995 -23.202 0.670 1.00 33.62 N +ATOM 2912 CA LEU A1073 17.100 -22.419 -0.179 1.00 34.89 C +ATOM 2913 C LEU A1073 16.647 -23.217 -1.412 1.00 42.46 C +ATOM 2914 O LEU A1073 15.476 -23.137 -1.782 1.00 42.92 O +ATOM 2915 CB LEU A1073 17.839 -21.140 -0.637 1.00 34.63 C +ATOM 2916 CG LEU A1073 18.290 -20.191 0.493 1.00 38.10 C +ATOM 2917 CD1 LEU A1073 19.248 -19.108 -0.048 1.00 38.56 C +ATOM 2918 CD2 LEU A1073 17.104 -19.595 1.274 1.00 39.78 C +ATOM 2919 H LEU A1073 18.983 -23.043 0.530 1.00 33.62 H +ATOM 2920 HA LEU A1073 16.213 -22.138 0.391 1.00 34.89 H +ATOM 2921 HB3 LEU A1073 17.204 -20.583 -1.327 1.00 34.63 H +ATOM 2922 HB2 LEU A1073 18.716 -21.437 -1.215 1.00 34.63 H +ATOM 2923 HG LEU A1073 18.869 -20.771 1.208 1.00 38.10 H +ATOM 2924 HD11 LEU A1073 20.137 -19.028 0.578 1.00 38.56 H +ATOM 2925 HD12 LEU A1073 19.590 -19.325 -1.061 1.00 38.56 H +ATOM 2926 HD13 LEU A1073 18.784 -18.125 -0.082 1.00 38.56 H +ATOM 2927 HD21 LEU A1073 17.228 -18.528 1.447 1.00 39.78 H +ATOM 2928 HD22 LEU A1073 16.155 -19.735 0.758 1.00 39.78 H +ATOM 2929 HD23 LEU A1073 17.008 -20.067 2.250 1.00 39.78 H +ATOM 2930 N LYS A1074 17.595 -23.937 -2.032 1.00 41.36 N +ATOM 2931 CA LYS A1074 17.428 -24.624 -3.308 1.00 43.76 C +ATOM 2932 C LYS A1074 16.908 -26.054 -3.112 1.00 50.30 C +ATOM 2933 O LYS A1074 15.839 -26.383 -3.626 1.00 51.50 O +ATOM 2934 CB LYS A1074 18.784 -24.600 -4.050 1.00 46.89 C +ATOM 2935 CG LYS A1074 18.727 -25.088 -5.510 1.00 62.52 C +ATOM 2936 CD LYS A1074 20.067 -24.959 -6.256 1.00 72.25 C +ATOM 2937 CE LYS A1074 21.139 -25.955 -5.775 1.00 81.31 C +ATOM 2938 NZ LYS A1074 22.397 -25.811 -6.529 1.00 90.59 N1+ +ATOM 2939 H LYS A1074 18.537 -23.924 -1.663 1.00 41.36 H +ATOM 2940 HA LYS A1074 16.702 -24.077 -3.914 1.00 43.76 H +ATOM 2941 HB3 LYS A1074 19.523 -25.174 -3.492 1.00 46.89 H +ATOM 2942 HB2 LYS A1074 19.154 -23.576 -4.048 1.00 46.89 H +ATOM 2943 HG3 LYS A1074 17.973 -24.507 -6.044 1.00 62.52 H +ATOM 2944 HG2 LYS A1074 18.390 -26.124 -5.550 1.00 62.52 H +ATOM 2945 HD3 LYS A1074 20.439 -23.939 -6.148 1.00 72.25 H +ATOM 2946 HD2 LYS A1074 19.885 -25.099 -7.322 1.00 72.25 H +ATOM 2947 HE3 LYS A1074 20.778 -26.977 -5.890 1.00 81.31 H +ATOM 2948 HE2 LYS A1074 21.360 -25.808 -4.717 1.00 81.31 H +ATOM 2949 HZ1 LYS A1074 22.786 -24.891 -6.359 1.00 90.59 H +ATOM 2950 HZ2 LYS A1074 23.060 -26.505 -6.215 1.00 90.59 H +ATOM 2951 HZ3 LYS A1074 22.224 -25.929 -7.516 1.00 90.59 H +ATOM 2952 N GLU A1075 17.696 -26.875 -2.399 1.00 47.41 N +ATOM 2953 CA GLU A1075 17.477 -28.313 -2.249 1.00 48.73 C +ATOM 2954 C GLU A1075 16.684 -28.672 -0.973 1.00 51.83 C +ATOM 2955 O GLU A1075 16.213 -29.804 -0.860 1.00 51.97 O +ATOM 2956 CB GLU A1075 18.866 -28.995 -2.327 1.00 50.61 C +ATOM 2957 CG GLU A1075 18.874 -30.539 -2.332 1.00 66.44 C +ATOM 2958 CD GLU A1075 18.091 -31.192 -3.485 1.00 94.80 C +ATOM 2959 OE1 GLU A1075 18.171 -30.677 -4.622 1.00 96.27 O +ATOM 2960 OE2 GLU A1075 17.434 -32.220 -3.208 1.00 90.73 O1- +ATOM 2961 H GLU A1075 18.549 -26.515 -1.995 1.00 47.41 H +ATOM 2962 HA GLU A1075 16.879 -28.661 -3.092 1.00 48.73 H +ATOM 2963 HB3 GLU A1075 19.475 -28.659 -1.486 1.00 50.61 H +ATOM 2964 HB2 GLU A1075 19.391 -28.637 -3.214 1.00 50.61 H +ATOM 2965 HG3 GLU A1075 18.504 -30.903 -1.375 1.00 66.44 H +ATOM 2966 HG2 GLU A1075 19.907 -30.883 -2.397 1.00 66.44 H +ATOM 2967 N TYR A1076 16.528 -27.702 -0.053 1.00 47.32 N +ATOM 2968 CA TYR A1076 15.803 -27.805 1.217 1.00 46.59 C +ATOM 2969 C TYR A1076 16.377 -28.875 2.168 1.00 47.98 C +ATOM 2970 O TYR A1076 15.615 -29.602 2.803 1.00 48.66 O +ATOM 2971 CB TYR A1076 14.278 -27.934 0.977 1.00 49.95 C +ATOM 2972 CG TYR A1076 13.655 -26.754 0.250 1.00 52.85 C +ATOM 2973 CD1 TYR A1076 13.324 -26.849 -1.118 1.00 56.47 C +ATOM 2974 CD2 TYR A1076 13.406 -25.551 0.944 1.00 52.86 C +ATOM 2975 CE1 TYR A1076 12.743 -25.750 -1.783 1.00 58.05 C +ATOM 2976 CE2 TYR A1076 12.826 -24.454 0.281 1.00 54.34 C +ATOM 2977 CZ TYR A1076 12.493 -24.553 -1.083 1.00 64.12 C +ATOM 2978 OH TYR A1076 11.931 -23.487 -1.723 1.00 66.28 O +ATOM 2979 H TYR A1076 16.943 -26.800 -0.238 1.00 47.32 H +ATOM 2980 HA TYR A1076 15.969 -26.860 1.731 1.00 46.59 H +ATOM 2981 HB3 TYR A1076 13.760 -28.020 1.931 1.00 49.95 H +ATOM 2982 HB2 TYR A1076 14.048 -28.853 0.437 1.00 49.95 H +ATOM 2983 HD1 TYR A1076 13.517 -27.761 -1.663 1.00 56.47 H +ATOM 2984 HD2 TYR A1076 13.668 -25.459 1.987 1.00 52.86 H +ATOM 2985 HE1 TYR A1076 12.493 -25.828 -2.831 1.00 58.05 H +ATOM 2986 HE2 TYR A1076 12.643 -23.538 0.822 1.00 54.34 H +ATOM 2987 HH TYR A1076 11.854 -22.718 -1.153 1.00 66.28 H +ATOM 2988 N LYS A1077 17.715 -28.920 2.272 1.00 38.24 N +ATOM 2989 CA LYS A1077 18.454 -29.719 3.248 1.00 37.30 C +ATOM 2990 C LYS A1077 19.171 -28.773 4.215 1.00 37.85 C +ATOM 2991 O LYS A1077 19.824 -27.835 3.759 1.00 36.29 O +ATOM 2992 CB LYS A1077 19.494 -30.596 2.528 1.00 40.30 C +ATOM 2993 CG LYS A1077 18.898 -31.744 1.702 1.00 51.73 C +ATOM 2994 CD LYS A1077 20.003 -32.708 1.233 1.00 61.48 C +ATOM 2995 CE LYS A1077 19.502 -33.950 0.479 1.00 73.84 C +ATOM 2996 NZ LYS A1077 19.197 -33.676 -0.933 1.00 81.44 N1+ +ATOM 2997 H LYS A1077 18.274 -28.289 1.712 1.00 38.24 H +ATOM 2998 HA LYS A1077 17.785 -30.365 3.818 1.00 37.30 H +ATOM 2999 HB3 LYS A1077 20.144 -31.039 3.286 1.00 40.30 H +ATOM 3000 HB2 LYS A1077 20.139 -29.982 1.897 1.00 40.30 H +ATOM 3001 HG3 LYS A1077 18.352 -31.342 0.850 1.00 51.73 H +ATOM 3002 HG2 LYS A1077 18.168 -32.285 2.303 1.00 51.73 H +ATOM 3003 HD3 LYS A1077 20.564 -33.047 2.105 1.00 61.48 H +ATOM 3004 HD2 LYS A1077 20.724 -32.162 0.623 1.00 61.48 H +ATOM 3005 HE3 LYS A1077 18.624 -34.367 0.969 1.00 73.84 H +ATOM 3006 HE2 LYS A1077 20.275 -34.719 0.501 1.00 73.84 H +ATOM 3007 HZ1 LYS A1077 20.022 -33.315 -1.392 1.00 81.44 H +ATOM 3008 HZ2 LYS A1077 18.907 -34.524 -1.397 1.00 81.44 H +ATOM 3009 HZ3 LYS A1077 18.459 -32.989 -1.008 1.00 81.44 H +ATOM 3010 N PHE A1078 19.061 -29.057 5.522 1.00 32.65 N +ATOM 3011 CA PHE A1078 19.683 -28.267 6.578 1.00 30.93 C +ATOM 3012 C PHE A1078 20.646 -29.182 7.351 1.00 35.75 C +ATOM 3013 O PHE A1078 20.211 -29.999 8.163 1.00 35.90 O +ATOM 3014 CB PHE A1078 18.580 -27.656 7.469 1.00 31.96 C +ATOM 3015 CG PHE A1078 19.055 -26.441 8.240 1.00 32.23 C +ATOM 3016 CD1 PHE A1078 18.758 -25.144 7.772 1.00 33.80 C +ATOM 3017 CD2 PHE A1078 19.946 -26.589 9.321 1.00 33.75 C +ATOM 3018 CE1 PHE A1078 19.323 -24.038 8.389 1.00 33.64 C +ATOM 3019 CE2 PHE A1078 20.497 -25.473 9.924 1.00 35.42 C +ATOM 3020 CZ PHE A1078 20.196 -24.201 9.455 1.00 32.56 C +ATOM 3021 H PHE A1078 18.502 -29.843 5.828 1.00 32.65 H +ATOM 3022 HA PHE A1078 20.257 -27.444 6.149 1.00 30.93 H +ATOM 3023 HB3 PHE A1078 18.184 -28.392 8.170 1.00 31.96 H +ATOM 3024 HB2 PHE A1078 17.734 -27.350 6.852 1.00 31.96 H +ATOM 3025 HD1 PHE A1078 18.109 -25.005 6.919 1.00 33.80 H +ATOM 3026 HD2 PHE A1078 20.232 -27.570 9.669 1.00 33.75 H +ATOM 3027 HE1 PHE A1078 19.104 -23.048 8.023 1.00 33.64 H +ATOM 3028 HE2 PHE A1078 21.189 -25.616 10.736 1.00 35.42 H +ATOM 3029 HZ PHE A1078 20.649 -23.335 9.914 1.00 32.56 H +ATOM 3030 N TYR A1079 21.942 -29.007 7.065 1.00 32.68 N +ATOM 3031 CA TYR A1079 23.082 -29.685 7.683 1.00 33.11 C +ATOM 3032 C TYR A1079 23.481 -29.016 9.014 1.00 35.59 C +ATOM 3033 O TYR A1079 22.939 -27.970 9.371 1.00 35.41 O +ATOM 3034 CB TYR A1079 24.263 -29.643 6.681 1.00 34.76 C +ATOM 3035 CG TYR A1079 24.031 -30.381 5.371 1.00 37.82 C +ATOM 3036 CD1 TYR A1079 24.556 -31.679 5.190 1.00 40.93 C +ATOM 3037 CD2 TYR A1079 23.294 -29.779 4.329 1.00 38.53 C +ATOM 3038 CE1 TYR A1079 24.329 -32.375 3.987 1.00 42.84 C +ATOM 3039 CE2 TYR A1079 23.059 -30.480 3.131 1.00 40.23 C +ATOM 3040 CZ TYR A1079 23.574 -31.778 2.959 1.00 48.96 C +ATOM 3041 OH TYR A1079 23.347 -32.456 1.797 1.00 50.37 O +ATOM 3042 H TYR A1079 22.192 -28.277 6.409 1.00 32.68 H +ATOM 3043 HA TYR A1079 22.817 -30.721 7.884 1.00 33.11 H +ATOM 3044 HB3 TYR A1079 25.156 -30.071 7.140 1.00 34.76 H +ATOM 3045 HB2 TYR A1079 24.524 -28.609 6.450 1.00 34.76 H +ATOM 3046 HD1 TYR A1079 25.125 -32.151 5.978 1.00 40.93 H +ATOM 3047 HD2 TYR A1079 22.895 -28.781 4.445 1.00 38.53 H +ATOM 3048 HE1 TYR A1079 24.730 -33.370 3.861 1.00 42.84 H +ATOM 3049 HE2 TYR A1079 22.482 -30.018 2.344 1.00 40.23 H +ATOM 3050 HH TYR A1079 23.749 -33.329 1.793 1.00 50.37 H +ATOM 3051 N TYR A1080 24.480 -29.591 9.705 1.00 30.73 N +ATOM 3052 CA TYR A1080 25.197 -28.906 10.789 1.00 29.01 C +ATOM 3053 C TYR A1080 26.004 -27.699 10.267 1.00 31.33 C +ATOM 3054 O TYR A1080 26.028 -26.660 10.923 1.00 30.48 O +ATOM 3055 CB TYR A1080 26.114 -29.897 11.527 1.00 29.95 C +ATOM 3056 CG TYR A1080 25.395 -31.023 12.248 1.00 31.62 C +ATOM 3057 CD1 TYR A1080 24.647 -30.757 13.416 1.00 33.31 C +ATOM 3058 CD2 TYR A1080 25.489 -32.346 11.767 1.00 33.18 C +ATOM 3059 CE1 TYR A1080 24.020 -31.809 14.112 1.00 34.92 C +ATOM 3060 CE2 TYR A1080 24.862 -33.397 12.464 1.00 34.85 C +ATOM 3061 CZ TYR A1080 24.138 -33.132 13.641 1.00 41.27 C +ATOM 3062 OH TYR A1080 23.554 -34.161 14.320 1.00 41.44 O +ATOM 3063 H TYR A1080 24.860 -30.476 9.401 1.00 30.73 H +ATOM 3064 HA TYR A1080 24.460 -28.526 11.500 1.00 29.01 H +ATOM 3065 HB3 TYR A1080 26.704 -29.363 12.274 1.00 29.95 H +ATOM 3066 HB2 TYR A1080 26.840 -30.321 10.832 1.00 29.95 H +ATOM 3067 HD1 TYR A1080 24.559 -29.747 13.787 1.00 33.31 H +ATOM 3068 HD2 TYR A1080 26.050 -32.564 10.870 1.00 33.18 H +ATOM 3069 HE1 TYR A1080 23.459 -31.597 15.011 1.00 34.92 H +ATOM 3070 HE2 TYR A1080 24.944 -34.410 12.095 1.00 34.85 H +ATOM 3071 HH TYR A1080 22.997 -33.869 15.045 1.00 41.44 H +ATOM 3072 N ALA A1081 26.592 -27.831 9.065 1.00 27.34 N +ATOM 3073 CA ALA A1081 27.298 -26.761 8.360 1.00 26.19 C +ATOM 3074 C ALA A1081 26.403 -25.579 7.944 1.00 28.27 C +ATOM 3075 O ALA A1081 26.928 -24.495 7.706 1.00 27.27 O +ATOM 3076 CB ALA A1081 27.999 -27.363 7.132 1.00 27.31 C +ATOM 3077 H ALA A1081 26.529 -28.715 8.580 1.00 27.34 H +ATOM 3078 HA ALA A1081 28.060 -26.367 9.035 1.00 26.19 H +ATOM 3079 HB1 ALA A1081 28.581 -26.611 6.598 1.00 27.31 H +ATOM 3080 HB2 ALA A1081 28.689 -28.155 7.424 1.00 27.31 H +ATOM 3081 HB3 ALA A1081 27.281 -27.791 6.433 1.00 27.31 H +ATOM 3082 N SER A1082 25.079 -25.786 7.856 1.00 24.53 N +ATOM 3083 CA SER A1082 24.103 -24.751 7.509 1.00 23.45 C +ATOM 3084 C SER A1082 23.965 -23.680 8.609 1.00 25.35 C +ATOM 3085 O SER A1082 23.791 -22.507 8.282 1.00 24.21 O +ATOM 3086 CB SER A1082 22.756 -25.426 7.223 1.00 26.60 C +ATOM 3087 OG SER A1082 22.865 -26.344 6.157 1.00 32.70 O +ATOM 3088 H SER A1082 24.699 -26.699 8.063 1.00 24.53 H +ATOM 3089 HA SER A1082 24.435 -24.248 6.598 1.00 23.45 H +ATOM 3090 HB3 SER A1082 21.999 -24.690 6.970 1.00 26.60 H +ATOM 3091 HB2 SER A1082 22.393 -25.951 8.099 1.00 26.60 H +ATOM 3092 HG SER A1082 22.986 -25.866 5.327 1.00 32.70 H +ATOM 3093 N ASP A1083 24.110 -24.085 9.883 1.00 21.69 N +ATOM 3094 CA ASP A1083 24.217 -23.182 11.033 1.00 20.95 C +ATOM 3095 C ASP A1083 25.518 -22.363 11.059 1.00 25.89 C +ATOM 3096 O ASP A1083 25.492 -21.261 11.605 1.00 25.76 O +ATOM 3097 CB ASP A1083 24.069 -23.928 12.376 1.00 22.62 C +ATOM 3098 CG ASP A1083 22.663 -24.425 12.724 1.00 27.32 C +ATOM 3099 OD1 ASP A1083 21.686 -23.695 12.456 1.00 26.49 O +ATOM 3100 OD2 ASP A1083 22.588 -25.459 13.419 1.00 30.74 O1- +ATOM 3101 H ASP A1083 24.251 -25.066 10.079 1.00 21.69 H +ATOM 3102 HA ASP A1083 23.411 -22.452 10.942 1.00 20.95 H +ATOM 3103 HB3 ASP A1083 24.398 -23.287 13.189 1.00 22.62 H +ATOM 3104 HB2 ASP A1083 24.741 -24.786 12.368 1.00 22.62 H +ATOM 3105 N VAL A1084 26.616 -22.877 10.475 1.00 23.03 N +ATOM 3106 CA VAL A1084 27.881 -22.143 10.338 1.00 22.91 C +ATOM 3107 C VAL A1084 27.760 -20.956 9.362 1.00 26.97 C +ATOM 3108 O VAL A1084 28.333 -19.904 9.644 1.00 27.06 O +ATOM 3109 CB VAL A1084 29.059 -23.070 9.919 1.00 27.38 C +ATOM 3110 CG1 VAL A1084 30.333 -22.347 9.427 1.00 26.97 C +ATOM 3111 CG2 VAL A1084 29.398 -24.043 11.063 1.00 27.51 C +ATOM 3112 H VAL A1084 26.577 -23.792 10.048 1.00 23.03 H +ATOM 3113 HA VAL A1084 28.125 -21.732 11.319 1.00 22.91 H +ATOM 3114 HB VAL A1084 28.734 -23.680 9.083 1.00 27.38 H +ATOM 3115 HG11 VAL A1084 31.083 -23.064 9.109 1.00 26.97 H +ATOM 3116 HG12 VAL A1084 30.154 -21.726 8.550 1.00 26.97 H +ATOM 3117 HG13 VAL A1084 30.767 -21.719 10.206 1.00 26.97 H +ATOM 3118 HG21 VAL A1084 30.160 -24.759 10.764 1.00 27.51 H +ATOM 3119 HG22 VAL A1084 29.769 -23.513 11.941 1.00 27.51 H +ATOM 3120 HG23 VAL A1084 28.526 -24.623 11.368 1.00 27.51 H +ATOM 3121 N TRP A1085 26.971 -21.117 8.282 1.00 23.08 N +ATOM 3122 CA TRP A1085 26.586 -20.026 7.382 1.00 21.44 C +ATOM 3123 C TRP A1085 25.785 -18.940 8.114 1.00 24.58 C +ATOM 3124 O TRP A1085 26.100 -17.761 7.957 1.00 24.34 O +ATOM 3125 CB TRP A1085 25.852 -20.589 6.144 1.00 19.65 C +ATOM 3126 CG TRP A1085 25.447 -19.601 5.083 1.00 19.63 C +ATOM 3127 CD1 TRP A1085 24.495 -18.651 5.223 1.00 22.01 C +ATOM 3128 CD2 TRP A1085 25.958 -19.440 3.721 1.00 19.22 C +ATOM 3129 NE1 TRP A1085 24.414 -17.893 4.081 1.00 21.24 N +ATOM 3130 CE2 TRP A1085 25.302 -18.322 3.122 1.00 22.68 C +ATOM 3131 CE3 TRP A1085 26.904 -20.119 2.920 1.00 20.54 C +ATOM 3132 CZ2 TRP A1085 25.595 -17.879 1.823 1.00 21.93 C +ATOM 3133 CZ3 TRP A1085 27.199 -19.693 1.607 1.00 22.17 C +ATOM 3134 CH2 TRP A1085 26.554 -18.567 1.061 1.00 22.69 C +ATOM 3135 H TRP A1085 26.532 -22.012 8.117 1.00 23.08 H +ATOM 3136 HA TRP A1085 27.494 -19.541 7.037 1.00 21.44 H +ATOM 3137 HB3 TRP A1085 24.953 -21.116 6.457 1.00 19.65 H +ATOM 3138 HB2 TRP A1085 26.485 -21.337 5.666 1.00 19.65 H +ATOM 3139 HD1 TRP A1085 23.904 -18.506 6.112 1.00 22.01 H +ATOM 3140 HE1 TRP A1085 23.751 -17.132 3.978 1.00 21.24 H +ATOM 3141 HE3 TRP A1085 27.417 -20.976 3.324 1.00 20.54 H +ATOM 3142 HZ2 TRP A1085 25.082 -17.022 1.421 1.00 21.93 H +ATOM 3143 HZ3 TRP A1085 27.925 -20.226 1.015 1.00 22.17 H +ATOM 3144 HH2 TRP A1085 26.784 -18.243 0.057 1.00 22.69 H +ATOM 3145 N SER A1086 24.802 -19.363 8.927 1.00 20.40 N +ATOM 3146 CA SER A1086 23.969 -18.485 9.746 1.00 19.19 C +ATOM 3147 C SER A1086 24.771 -17.744 10.836 1.00 22.97 C +ATOM 3148 O SER A1086 24.425 -16.605 11.140 1.00 22.65 O +ATOM 3149 CB SER A1086 22.823 -19.299 10.368 1.00 21.71 C +ATOM 3150 OG SER A1086 22.055 -19.952 9.377 1.00 26.84 O +ATOM 3151 H SER A1086 24.596 -20.351 8.989 1.00 20.40 H +ATOM 3152 HA SER A1086 23.537 -17.727 9.090 1.00 19.19 H +ATOM 3153 HB3 SER A1086 22.156 -18.644 10.926 1.00 21.71 H +ATOM 3154 HB2 SER A1086 23.203 -20.043 11.067 1.00 21.71 H +ATOM 3155 HG SER A1086 21.777 -19.300 8.724 1.00 26.84 H +ATOM 3156 N PHE A1087 25.851 -18.366 11.350 1.00 20.16 N +ATOM 3157 CA PHE A1087 26.852 -17.734 12.213 1.00 19.96 C +ATOM 3158 C PHE A1087 27.663 -16.631 11.515 1.00 22.93 C +ATOM 3159 O PHE A1087 27.941 -15.618 12.151 1.00 22.88 O +ATOM 3160 CB PHE A1087 27.755 -18.785 12.908 1.00 22.28 C +ATOM 3161 CG PHE A1087 29.037 -18.234 13.518 1.00 23.88 C +ATOM 3162 CD1 PHE A1087 28.973 -17.433 14.678 1.00 26.49 C +ATOM 3163 CD2 PHE A1087 30.255 -18.320 12.810 1.00 25.32 C +ATOM 3164 CE1 PHE A1087 30.100 -16.750 15.111 1.00 27.76 C +ATOM 3165 CE2 PHE A1087 31.375 -17.638 13.267 1.00 28.04 C +ATOM 3166 CZ PHE A1087 31.294 -16.849 14.407 1.00 26.72 C +ATOM 3167 H PHE A1087 26.048 -19.318 11.071 1.00 20.16 H +ATOM 3168 HA PHE A1087 26.300 -17.235 13.011 1.00 19.96 H +ATOM 3169 HB3 PHE A1087 28.013 -19.587 12.220 1.00 22.28 H +ATOM 3170 HB2 PHE A1087 27.191 -19.256 13.709 1.00 22.28 H +ATOM 3171 HD1 PHE A1087 28.037 -17.312 15.202 1.00 26.49 H +ATOM 3172 HD2 PHE A1087 30.311 -18.891 11.895 1.00 25.32 H +ATOM 3173 HE1 PHE A1087 30.042 -16.127 15.991 1.00 27.76 H +ATOM 3174 HE2 PHE A1087 32.305 -17.704 12.722 1.00 28.04 H +ATOM 3175 HZ PHE A1087 32.165 -16.306 14.742 1.00 26.72 H +ATOM 3176 N GLY A1088 28.020 -16.832 10.235 1.00 18.79 N +ATOM 3177 CA GLY A1088 28.734 -15.840 9.430 1.00 18.80 C +ATOM 3178 C GLY A1088 27.866 -14.591 9.206 1.00 23.37 C +ATOM 3179 O GLY A1088 28.389 -13.479 9.229 1.00 23.54 O +ATOM 3180 H GLY A1088 27.771 -17.701 9.782 1.00 18.79 H +ATOM 3181 HA3 GLY A1088 28.989 -16.279 8.466 1.00 18.80 H +ATOM 3182 HA2 GLY A1088 29.671 -15.567 9.917 1.00 18.80 H +ATOM 3183 N VAL A1089 26.542 -14.775 9.040 1.00 20.21 N +ATOM 3184 CA VAL A1089 25.566 -13.691 8.924 1.00 19.85 C +ATOM 3185 C VAL A1089 25.264 -13.028 10.288 1.00 22.40 C +ATOM 3186 O VAL A1089 25.034 -11.822 10.315 1.00 22.43 O +ATOM 3187 CB VAL A1089 24.240 -14.166 8.261 1.00 23.91 C +ATOM 3188 CG1 VAL A1089 23.209 -13.036 8.078 1.00 23.58 C +ATOM 3189 CG2 VAL A1089 24.500 -14.791 6.881 1.00 23.85 C +ATOM 3190 H VAL A1089 26.169 -15.715 9.039 1.00 20.21 H +ATOM 3191 HA VAL A1089 25.990 -12.921 8.280 1.00 19.85 H +ATOM 3192 HB VAL A1089 23.786 -14.932 8.891 1.00 23.91 H +ATOM 3193 HG11 VAL A1089 22.312 -13.391 7.572 1.00 23.58 H +ATOM 3194 HG12 VAL A1089 22.885 -12.612 9.026 1.00 23.58 H +ATOM 3195 HG13 VAL A1089 23.626 -12.228 7.477 1.00 23.58 H +ATOM 3196 HG21 VAL A1089 23.571 -15.059 6.382 1.00 23.85 H +ATOM 3197 HG22 VAL A1089 25.031 -14.092 6.235 1.00 23.85 H +ATOM 3198 HG23 VAL A1089 25.089 -15.701 6.948 1.00 23.85 H +ATOM 3199 N THR A1090 25.335 -13.790 11.395 1.00 18.29 N +ATOM 3200 CA THR A1090 25.236 -13.255 12.759 1.00 17.59 C +ATOM 3201 C THR A1090 26.459 -12.392 13.123 1.00 22.56 C +ATOM 3202 O THR A1090 26.273 -11.299 13.647 1.00 22.24 O +ATOM 3203 CB THR A1090 25.095 -14.366 13.834 1.00 21.81 C +ATOM 3204 OG1 THR A1090 23.959 -15.151 13.551 1.00 21.32 O +ATOM 3205 CG2 THR A1090 24.938 -13.862 15.282 1.00 18.48 C +ATOM 3206 H THR A1090 25.517 -14.780 11.310 1.00 18.29 H +ATOM 3207 HA THR A1090 24.349 -12.621 12.808 1.00 17.59 H +ATOM 3208 HB THR A1090 25.958 -15.031 13.797 1.00 21.81 H +ATOM 3209 HG1 THR A1090 24.074 -15.576 12.694 1.00 21.32 H +ATOM 3210 HG21 THR A1090 24.699 -14.685 15.956 1.00 18.48 H +ATOM 3211 HG22 THR A1090 25.851 -13.396 15.655 1.00 18.48 H +ATOM 3212 HG23 THR A1090 24.134 -13.130 15.358 1.00 18.48 H +ATOM 3213 N LEU A1091 27.671 -12.871 12.788 1.00 18.77 N +ATOM 3214 CA LEU A1091 28.951 -12.174 12.949 1.00 19.02 C +ATOM 3215 C LEU A1091 29.029 -10.877 12.122 1.00 23.90 C +ATOM 3216 O LEU A1091 29.593 -9.895 12.604 1.00 23.77 O +ATOM 3217 CB LEU A1091 30.096 -13.165 12.616 1.00 18.83 C +ATOM 3218 CG LEU A1091 31.542 -12.629 12.755 1.00 23.76 C +ATOM 3219 CD1 LEU A1091 31.848 -12.118 14.178 1.00 24.32 C +ATOM 3220 CD2 LEU A1091 32.567 -13.675 12.269 1.00 25.80 C +ATOM 3221 H LEU A1091 27.732 -13.793 12.373 1.00 18.77 H +ATOM 3222 HA LEU A1091 29.022 -11.892 14.001 1.00 19.02 H +ATOM 3223 HB3 LEU A1091 29.955 -13.520 11.594 1.00 18.83 H +ATOM 3224 HB2 LEU A1091 29.992 -14.046 13.251 1.00 18.83 H +ATOM 3225 HG LEU A1091 31.648 -11.777 12.085 1.00 23.76 H +ATOM 3226 HD11 LEU A1091 32.789 -12.499 14.575 1.00 24.32 H +ATOM 3227 HD12 LEU A1091 31.918 -11.031 14.187 1.00 24.32 H +ATOM 3228 HD13 LEU A1091 31.066 -12.394 14.884 1.00 24.32 H +ATOM 3229 HD21 LEU A1091 33.222 -13.248 11.508 1.00 25.80 H +ATOM 3230 HD22 LEU A1091 33.203 -14.050 13.071 1.00 25.80 H +ATOM 3231 HD23 LEU A1091 32.085 -14.545 11.822 1.00 25.80 H +ATOM 3232 N TYR A1092 28.407 -10.884 10.928 1.00 19.95 N +ATOM 3233 CA TYR A1092 28.192 -9.707 10.087 1.00 19.93 C +ATOM 3234 C TYR A1092 27.330 -8.640 10.787 1.00 25.86 C +ATOM 3235 O TYR A1092 27.716 -7.473 10.775 1.00 25.76 O +ATOM 3236 CB TYR A1092 27.613 -10.143 8.723 1.00 20.32 C +ATOM 3237 CG TYR A1092 27.160 -9.017 7.810 1.00 22.62 C +ATOM 3238 CD1 TYR A1092 28.110 -8.137 7.255 1.00 24.92 C +ATOM 3239 CD2 TYR A1092 25.787 -8.819 7.549 1.00 23.14 C +ATOM 3240 CE1 TYR A1092 27.688 -7.056 6.461 1.00 25.17 C +ATOM 3241 CE2 TYR A1092 25.368 -7.748 6.737 1.00 24.17 C +ATOM 3242 CZ TYR A1092 26.322 -6.864 6.194 1.00 30.27 C +ATOM 3243 OH TYR A1092 25.937 -5.813 5.419 1.00 30.32 O +ATOM 3244 H TYR A1092 27.990 -11.744 10.599 1.00 19.95 H +ATOM 3245 HA TYR A1092 29.172 -9.263 9.905 1.00 19.93 H +ATOM 3246 HB3 TYR A1092 26.757 -10.789 8.884 1.00 20.32 H +ATOM 3247 HB2 TYR A1092 28.334 -10.763 8.193 1.00 20.32 H +ATOM 3248 HD1 TYR A1092 29.160 -8.269 7.462 1.00 24.92 H +ATOM 3249 HD2 TYR A1092 25.052 -9.484 7.978 1.00 23.14 H +ATOM 3250 HE1 TYR A1092 28.408 -6.353 6.075 1.00 25.17 H +ATOM 3251 HE2 TYR A1092 24.315 -7.606 6.540 1.00 24.17 H +ATOM 3252 HH TYR A1092 24.996 -5.630 5.505 1.00 30.32 H +ATOM 3253 N GLU A1093 26.220 -9.060 11.422 1.00 23.15 N +ATOM 3254 CA GLU A1093 25.355 -8.183 12.216 1.00 23.18 C +ATOM 3255 C GLU A1093 26.061 -7.538 13.420 1.00 28.73 C +ATOM 3256 O GLU A1093 25.843 -6.351 13.640 1.00 30.04 O +ATOM 3257 CB GLU A1093 24.072 -8.905 12.660 1.00 24.17 C +ATOM 3258 CG GLU A1093 23.102 -9.216 11.509 1.00 30.15 C +ATOM 3259 CD GLU A1093 21.850 -9.924 12.029 1.00 42.27 C +ATOM 3260 OE1 GLU A1093 21.951 -11.127 12.359 1.00 24.21 O +ATOM 3261 OE2 GLU A1093 20.804 -9.243 12.110 1.00 37.55 O1- +ATOM 3262 H GLU A1093 25.960 -10.036 11.393 1.00 23.15 H +ATOM 3263 HA GLU A1093 25.047 -7.370 11.559 1.00 23.18 H +ATOM 3264 HB3 GLU A1093 23.549 -8.299 13.402 1.00 24.17 H +ATOM 3265 HB2 GLU A1093 24.328 -9.830 13.172 1.00 24.17 H +ATOM 3266 HG3 GLU A1093 23.576 -9.833 10.749 1.00 30.15 H +ATOM 3267 HG2 GLU A1093 22.824 -8.288 11.006 1.00 30.15 H +ATOM 3268 N LEU A1094 26.916 -8.283 14.146 1.00 25.06 N +ATOM 3269 CA LEU A1094 27.668 -7.751 15.293 1.00 24.98 C +ATOM 3270 C LEU A1094 28.654 -6.635 14.898 1.00 29.61 C +ATOM 3271 O LEU A1094 28.762 -5.643 15.618 1.00 30.10 O +ATOM 3272 CB LEU A1094 28.419 -8.874 16.049 1.00 25.00 C +ATOM 3273 CG LEU A1094 27.574 -10.066 16.557 1.00 29.10 C +ATOM 3274 CD1 LEU A1094 28.385 -10.980 17.497 1.00 29.00 C +ATOM 3275 CD2 LEU A1094 26.232 -9.661 17.186 1.00 31.33 C +ATOM 3276 H LEU A1094 27.053 -9.259 13.919 1.00 25.06 H +ATOM 3277 HA LEU A1094 26.944 -7.304 15.975 1.00 24.98 H +ATOM 3278 HB3 LEU A1094 28.914 -8.419 16.907 1.00 25.00 H +ATOM 3279 HB2 LEU A1094 29.220 -9.268 15.424 1.00 25.00 H +ATOM 3280 HG LEU A1094 27.340 -10.672 15.690 1.00 29.10 H +ATOM 3281 HD11 LEU A1094 28.424 -12.000 17.113 1.00 29.00 H +ATOM 3282 HD12 LEU A1094 29.414 -10.640 17.609 1.00 29.00 H +ATOM 3283 HD13 LEU A1094 27.951 -11.026 18.495 1.00 29.00 H +ATOM 3284 HD21 LEU A1094 25.723 -10.533 17.594 1.00 31.33 H +ATOM 3285 HD22 LEU A1094 26.372 -8.942 17.993 1.00 31.33 H +ATOM 3286 HD23 LEU A1094 25.555 -9.224 16.452 1.00 31.33 H +ATOM 3287 N LEU A1095 29.325 -6.814 13.749 1.00 26.84 N +ATOM 3288 CA LEU A1095 30.341 -5.912 13.201 1.00 27.81 C +ATOM 3289 C LEU A1095 29.747 -4.656 12.528 1.00 33.81 C +ATOM 3290 O LEU A1095 30.440 -3.640 12.475 1.00 35.37 O +ATOM 3291 CB LEU A1095 31.231 -6.728 12.235 1.00 27.73 C +ATOM 3292 CG LEU A1095 32.424 -7.479 12.882 1.00 32.66 C +ATOM 3293 CD1 LEU A1095 32.170 -8.086 14.275 1.00 35.66 C +ATOM 3294 CD2 LEU A1095 32.969 -8.554 11.929 1.00 32.53 C +ATOM 3295 H LEU A1095 29.161 -7.659 13.219 1.00 26.84 H +ATOM 3296 HA LEU A1095 30.961 -5.547 14.022 1.00 27.81 H +ATOM 3297 HB3 LEU A1095 31.650 -6.071 11.473 1.00 27.73 H +ATOM 3298 HB2 LEU A1095 30.599 -7.431 11.689 1.00 27.73 H +ATOM 3299 HG LEU A1095 33.215 -6.739 13.015 1.00 32.66 H +ATOM 3300 HD11 LEU A1095 32.924 -8.833 14.524 1.00 35.66 H +ATOM 3301 HD12 LEU A1095 32.216 -7.325 15.052 1.00 35.66 H +ATOM 3302 HD13 LEU A1095 31.201 -8.577 14.336 1.00 35.66 H +ATOM 3303 HD21 LEU A1095 34.057 -8.520 11.908 1.00 32.53 H +ATOM 3304 HD22 LEU A1095 32.682 -9.559 12.239 1.00 32.53 H +ATOM 3305 HD23 LEU A1095 32.612 -8.422 10.907 1.00 32.53 H +ATOM 3306 N THR A1096 28.480 -4.718 12.079 1.00 29.90 N +ATOM 3307 CA THR A1096 27.699 -3.560 11.616 1.00 29.76 C +ATOM 3308 C THR A1096 26.899 -2.890 12.764 1.00 34.64 C +ATOM 3309 O THR A1096 26.208 -1.905 12.503 1.00 35.25 O +ATOM 3310 CB THR A1096 26.693 -3.953 10.496 1.00 31.44 C +ATOM 3311 OG1 THR A1096 25.725 -4.877 10.951 1.00 26.80 O +ATOM 3312 CG2 THR A1096 27.359 -4.525 9.237 1.00 29.61 C +ATOM 3313 H THR A1096 27.980 -5.593 12.140 1.00 29.90 H +ATOM 3314 HA THR A1096 28.368 -2.805 11.204 1.00 29.76 H +ATOM 3315 HB THR A1096 26.145 -3.064 10.183 1.00 31.44 H +ATOM 3316 HG1 THR A1096 26.152 -5.734 11.041 1.00 26.80 H +ATOM 3317 HG21 THR A1096 26.617 -4.810 8.491 1.00 29.61 H +ATOM 3318 HG22 THR A1096 28.021 -3.792 8.778 1.00 29.61 H +ATOM 3319 HG23 THR A1096 27.956 -5.404 9.458 1.00 29.61 H +ATOM 3320 N HIS A1097 26.997 -3.423 13.999 1.00 30.83 N +ATOM 3321 CA HIS A1097 26.271 -2.995 15.207 1.00 30.84 C +ATOM 3322 C HIS A1097 24.739 -3.126 15.103 1.00 33.45 C +ATOM 3323 O HIS A1097 24.005 -2.372 15.741 1.00 33.92 O +ATOM 3324 CB HIS A1097 26.738 -1.604 15.695 1.00 32.78 C +ATOM 3325 CG HIS A1097 28.064 -1.627 16.403 1.00 36.94 C +ATOM 3326 ND1 HIS A1097 29.270 -1.843 15.759 1.00 38.99 N +ATOM 3327 CD2 HIS A1097 28.372 -1.461 17.734 1.00 39.11 C +ATOM 3328 CE1 HIS A1097 30.224 -1.785 16.691 1.00 38.98 C +ATOM 3329 NE2 HIS A1097 29.751 -1.552 17.910 1.00 39.43 N +ATOM 3330 H HIS A1097 27.593 -4.229 14.127 1.00 30.83 H +ATOM 3331 HA HIS A1097 26.542 -3.716 15.979 1.00 30.84 H +ATOM 3332 HB3 HIS A1097 26.034 -1.175 16.408 1.00 32.78 H +ATOM 3333 HB2 HIS A1097 26.791 -0.890 14.873 1.00 32.78 H +ATOM 3334 HD1 HIS A1097 29.404 -2.011 14.772 1.00 38.99 H +ATOM 3335 HD2 HIS A1097 27.711 -1.281 18.569 1.00 39.11 H +ATOM 3336 HE1 HIS A1097 31.274 -1.920 16.478 1.00 38.98 H +ATOM 3337 N CYS A1098 24.290 -4.099 14.296 1.00 27.94 N +ATOM 3338 CA CYS A1098 22.898 -4.464 14.037 1.00 26.87 C +ATOM 3339 C CYS A1098 22.086 -3.311 13.409 1.00 30.68 C +ATOM 3340 O CYS A1098 20.880 -3.213 13.638 1.00 30.05 O +ATOM 3341 CB CYS A1098 22.213 -5.080 15.271 1.00 26.76 C +ATOM 3342 SG CYS A1098 23.115 -6.571 15.785 1.00 30.11 S +ATOM 3343 H CYS A1098 24.973 -4.692 13.841 1.00 27.94 H +ATOM 3344 HA CYS A1098 22.939 -5.243 13.276 1.00 26.87 H +ATOM 3345 HB3 CYS A1098 21.188 -5.364 15.033 1.00 26.76 H +ATOM 3346 HB2 CYS A1098 22.172 -4.377 16.102 1.00 26.76 H +ATOM 3347 HG CYS A1098 22.516 -6.693 16.974 1.00 30.11 H +ATOM 3348 N ASP A1099 22.775 -2.467 12.618 1.00 27.77 N +ATOM 3349 CA ASP A1099 22.215 -1.354 11.854 1.00 28.04 C +ATOM 3350 C ASP A1099 21.235 -1.898 10.800 1.00 32.48 C +ATOM 3351 O ASP A1099 21.627 -2.733 9.985 1.00 31.64 O +ATOM 3352 CB ASP A1099 23.355 -0.503 11.232 1.00 29.97 C +ATOM 3353 CG ASP A1099 22.982 0.774 10.453 1.00 38.11 C +ATOM 3354 OD1 ASP A1099 21.800 1.186 10.452 1.00 38.71 O +ATOM 3355 OD2 ASP A1099 23.926 1.369 9.892 1.00 47.31 O1- +ATOM 3356 H ASP A1099 23.769 -2.609 12.508 1.00 27.77 H +ATOM 3357 HA ASP A1099 21.667 -0.725 12.560 1.00 28.04 H +ATOM 3358 HB3 ASP A1099 23.964 -1.138 10.588 1.00 29.97 H +ATOM 3359 HB2 ASP A1099 24.034 -0.203 12.030 1.00 29.97 H +ATOM 3360 N SER A1100 19.986 -1.410 10.850 1.00 29.79 N +ATOM 3361 CA SER A1100 18.886 -1.795 9.964 1.00 29.78 C +ATOM 3362 C SER A1100 19.130 -1.489 8.471 1.00 34.15 C +ATOM 3363 O SER A1100 18.624 -2.230 7.629 1.00 33.77 O +ATOM 3364 CB SER A1100 17.580 -1.171 10.497 1.00 34.15 C +ATOM 3365 OG SER A1100 17.548 0.235 10.340 1.00 46.57 O +ATOM 3366 H SER A1100 19.761 -0.710 11.544 1.00 29.79 H +ATOM 3367 HA SER A1100 18.781 -2.876 10.056 1.00 29.78 H +ATOM 3368 HB3 SER A1100 17.441 -1.415 11.551 1.00 34.15 H +ATOM 3369 HB2 SER A1100 16.724 -1.591 9.967 1.00 34.15 H +ATOM 3370 HG SER A1100 17.399 0.436 9.412 1.00 46.57 H +ATOM 3371 N SER A1101 19.925 -0.445 8.172 1.00 30.58 N +ATOM 3372 CA SER A1101 20.343 -0.091 6.812 1.00 30.48 C +ATOM 3373 C SER A1101 21.433 -1.027 6.244 1.00 34.04 C +ATOM 3374 O SER A1101 21.542 -1.137 5.024 1.00 34.49 O +ATOM 3375 CB SER A1101 20.743 1.401 6.769 1.00 33.86 C +ATOM 3376 OG SER A1101 22.036 1.655 7.283 1.00 40.89 O +ATOM 3377 H SER A1101 20.321 0.110 8.920 1.00 30.58 H +ATOM 3378 HA SER A1101 19.466 -0.195 6.172 1.00 30.48 H +ATOM 3379 HB3 SER A1101 20.018 2.014 7.305 1.00 33.86 H +ATOM 3380 HB2 SER A1101 20.733 1.749 5.735 1.00 33.86 H +ATOM 3381 HG SER A1101 22.018 1.595 8.244 1.00 40.89 H +ATOM 3382 N GLN A1102 22.193 -1.693 7.132 1.00 28.78 N +ATOM 3383 CA GLN A1102 23.234 -2.663 6.790 1.00 27.57 C +ATOM 3384 C GLN A1102 22.777 -4.123 6.973 1.00 29.95 C +ATOM 3385 O GLN A1102 23.576 -5.017 6.708 1.00 29.44 O +ATOM 3386 CB GLN A1102 24.497 -2.384 7.633 1.00 28.83 C +ATOM 3387 CG GLN A1102 25.140 -1.013 7.353 1.00 33.95 C +ATOM 3388 CD GLN A1102 26.490 -0.864 8.058 1.00 53.56 C +ATOM 3389 OE1 GLN A1102 27.470 -1.491 7.664 1.00 51.54 O +ATOM 3390 NE2 GLN A1102 26.552 -0.030 9.097 1.00 47.16 N +ATOM 3391 H GLN A1102 22.037 -1.547 8.119 1.00 28.78 H +ATOM 3392 HA GLN A1102 23.513 -2.556 5.743 1.00 27.57 H +ATOM 3393 HB3 GLN A1102 25.239 -3.158 7.431 1.00 28.83 H +ATOM 3394 HB2 GLN A1102 24.257 -2.469 8.693 1.00 28.83 H +ATOM 3395 HG3 GLN A1102 24.469 -0.206 7.647 1.00 33.95 H +ATOM 3396 HG2 GLN A1102 25.308 -0.896 6.282 1.00 33.95 H +ATOM 3397 HE22 GLN A1102 27.421 0.101 9.594 1.00 47.16 H +ATOM 3398 HE21 GLN A1102 25.727 0.481 9.394 1.00 47.16 H +ATOM 3399 N SER A1103 21.531 -4.361 7.423 1.00 25.69 N +ATOM 3400 CA SER A1103 21.024 -5.694 7.768 1.00 24.62 C +ATOM 3401 C SER A1103 20.908 -6.653 6.559 1.00 27.74 C +ATOM 3402 O SER A1103 20.759 -6.167 5.437 1.00 26.46 O +ATOM 3403 CB SER A1103 19.711 -5.550 8.562 1.00 27.53 C +ATOM 3404 OG SER A1103 18.597 -5.224 7.753 1.00 36.38 O +ATOM 3405 H SER A1103 20.918 -3.582 7.614 1.00 25.69 H +ATOM 3406 HA SER A1103 21.773 -6.087 8.449 1.00 24.62 H +ATOM 3407 HB3 SER A1103 19.820 -4.805 9.349 1.00 27.53 H +ATOM 3408 HB2 SER A1103 19.491 -6.490 9.066 1.00 27.53 H +ATOM 3409 HG SER A1103 18.673 -4.306 7.474 1.00 36.38 H +ATOM 3410 N PRO A1104 20.967 -7.989 6.796 1.00 24.35 N +ATOM 3411 CA PRO A1104 20.916 -8.983 5.704 1.00 23.79 C +ATOM 3412 C PRO A1104 19.712 -8.914 4.736 1.00 27.98 C +ATOM 3413 O PRO A1104 19.968 -8.979 3.535 1.00 27.87 O +ATOM 3414 CB PRO A1104 21.057 -10.350 6.397 1.00 25.10 C +ATOM 3415 CG PRO A1104 21.706 -10.035 7.734 1.00 29.54 C +ATOM 3416 CD PRO A1104 21.194 -8.648 8.086 1.00 25.45 C +ATOM 3417 HA PRO A1104 21.822 -8.810 5.124 1.00 23.79 H +ATOM 3418 HB3 PRO A1104 21.657 -11.050 5.813 1.00 25.10 H +ATOM 3419 HB2 PRO A1104 20.092 -10.829 6.559 1.00 25.10 H +ATOM 3420 HG3 PRO A1104 22.787 -9.988 7.602 1.00 29.54 H +ATOM 3421 HG2 PRO A1104 21.493 -10.773 8.507 1.00 29.54 H +ATOM 3422 HD2 PRO A1104 20.252 -8.713 8.631 1.00 25.45 H +ATOM 3423 HD3 PRO A1104 21.922 -8.154 8.727 1.00 25.45 H +ATOM 3424 N PRO A1105 18.458 -8.698 5.213 1.00 25.54 N +ATOM 3425 CA PRO A1105 17.306 -8.472 4.318 1.00 25.39 C +ATOM 3426 C PRO A1105 17.432 -7.239 3.413 1.00 29.73 C +ATOM 3427 O PRO A1105 17.133 -7.351 2.227 1.00 30.20 O +ATOM 3428 CB PRO A1105 16.092 -8.368 5.259 1.00 27.21 C +ATOM 3429 CG PRO A1105 16.529 -9.083 6.522 1.00 31.15 C +ATOM 3430 CD PRO A1105 18.009 -8.746 6.605 1.00 26.89 C +ATOM 3431 HA PRO A1105 17.199 -9.358 3.691 1.00 25.39 H +ATOM 3432 HB3 PRO A1105 15.191 -8.807 4.829 1.00 27.21 H +ATOM 3433 HB2 PRO A1105 15.867 -7.327 5.499 1.00 27.21 H +ATOM 3434 HG3 PRO A1105 16.408 -10.158 6.387 1.00 31.15 H +ATOM 3435 HG2 PRO A1105 15.965 -8.788 7.408 1.00 31.15 H +ATOM 3436 HD2 PRO A1105 18.145 -7.765 7.056 1.00 26.89 H +ATOM 3437 HD3 PRO A1105 18.530 -9.477 7.217 1.00 26.89 H +ATOM 3438 N THR A1106 17.901 -6.110 3.973 1.00 26.00 N +ATOM 3439 CA THR A1106 18.092 -4.849 3.256 1.00 26.20 C +ATOM 3440 C THR A1106 19.141 -4.956 2.133 1.00 30.44 C +ATOM 3441 O THR A1106 18.835 -4.587 1.001 1.00 30.92 O +ATOM 3442 CB THR A1106 18.500 -3.701 4.220 1.00 31.19 C +ATOM 3443 OG1 THR A1106 17.476 -3.526 5.179 1.00 30.83 O +ATOM 3444 CG2 THR A1106 18.769 -2.339 3.555 1.00 28.02 C +ATOM 3445 H THR A1106 18.128 -6.095 4.957 1.00 26.00 H +ATOM 3446 HA THR A1106 17.136 -4.589 2.796 1.00 26.20 H +ATOM 3447 HB THR A1106 19.395 -3.987 4.773 1.00 31.19 H +ATOM 3448 HG1 THR A1106 17.719 -2.798 5.759 1.00 30.83 H +ATOM 3449 HG21 THR A1106 18.886 -1.553 4.300 1.00 28.02 H +ATOM 3450 HG22 THR A1106 19.686 -2.354 2.966 1.00 28.02 H +ATOM 3451 HG23 THR A1106 17.951 -2.048 2.896 1.00 28.02 H +ATOM 3452 N LYS A1107 20.333 -5.486 2.455 1.00 26.47 N +ATOM 3453 CA LYS A1107 21.465 -5.581 1.532 1.00 26.24 C +ATOM 3454 C LYS A1107 21.290 -6.633 0.424 1.00 30.93 C +ATOM 3455 O LYS A1107 21.790 -6.405 -0.677 1.00 31.05 O +ATOM 3456 CB LYS A1107 22.760 -5.814 2.335 1.00 27.74 C +ATOM 3457 CG LYS A1107 23.116 -4.677 3.319 1.00 37.23 C +ATOM 3458 CD LYS A1107 23.315 -3.282 2.702 1.00 43.98 C +ATOM 3459 CE LYS A1107 24.495 -3.199 1.721 1.00 51.76 C +ATOM 3460 NZ LYS A1107 24.670 -1.830 1.205 1.00 64.06 N1+ +ATOM 3461 H LYS A1107 20.502 -5.792 3.404 1.00 26.47 H +ATOM 3462 HA LYS A1107 21.548 -4.623 1.016 1.00 26.24 H +ATOM 3463 HB3 LYS A1107 23.596 -5.967 1.653 1.00 27.74 H +ATOM 3464 HB2 LYS A1107 22.665 -6.742 2.900 1.00 27.74 H +ATOM 3465 HG3 LYS A1107 24.019 -4.954 3.858 1.00 37.23 H +ATOM 3466 HG2 LYS A1107 22.337 -4.602 4.076 1.00 37.23 H +ATOM 3467 HD3 LYS A1107 23.478 -2.570 3.510 1.00 43.98 H +ATOM 3468 HD2 LYS A1107 22.393 -2.952 2.221 1.00 43.98 H +ATOM 3469 HE3 LYS A1107 24.341 -3.867 0.874 1.00 51.76 H +ATOM 3470 HE2 LYS A1107 25.416 -3.507 2.217 1.00 51.76 H +ATOM 3471 HZ1 LYS A1107 23.833 -1.571 0.696 1.00 64.06 H +ATOM 3472 HZ2 LYS A1107 24.810 -1.188 1.971 1.00 64.06 H +ATOM 3473 HZ3 LYS A1107 25.462 -1.798 0.580 1.00 64.06 H +ATOM 3474 N PHE A1108 20.564 -7.733 0.700 1.00 27.41 N +ATOM 3475 CA PHE A1108 20.205 -8.728 -0.315 1.00 27.25 C +ATOM 3476 C PHE A1108 19.064 -8.277 -1.244 1.00 32.28 C +ATOM 3477 O PHE A1108 19.120 -8.600 -2.428 1.00 32.54 O +ATOM 3478 CB PHE A1108 19.916 -10.103 0.329 1.00 28.33 C +ATOM 3479 CG PHE A1108 21.136 -10.916 0.748 1.00 29.40 C +ATOM 3480 CD1 PHE A1108 22.159 -11.206 -0.183 1.00 32.45 C +ATOM 3481 CD2 PHE A1108 21.205 -11.500 2.032 1.00 30.95 C +ATOM 3482 CE1 PHE A1108 23.225 -12.020 0.181 1.00 33.04 C +ATOM 3483 CE2 PHE A1108 22.278 -12.312 2.375 1.00 33.62 C +ATOM 3484 CZ PHE A1108 23.282 -12.572 1.453 1.00 31.84 C +ATOM 3485 H PHE A1108 20.193 -7.877 1.630 1.00 27.41 H +ATOM 3486 HA PHE A1108 21.065 -8.849 -0.974 1.00 27.25 H +ATOM 3487 HB3 PHE A1108 19.343 -10.730 -0.356 1.00 28.33 H +ATOM 3488 HB2 PHE A1108 19.270 -9.952 1.194 1.00 28.33 H +ATOM 3489 HD1 PHE A1108 22.116 -10.812 -1.186 1.00 32.45 H +ATOM 3490 HD2 PHE A1108 20.425 -11.332 2.756 1.00 30.95 H +ATOM 3491 HE1 PHE A1108 24.007 -12.235 -0.533 1.00 33.04 H +ATOM 3492 HE2 PHE A1108 22.328 -12.747 3.362 1.00 33.62 H +ATOM 3493 HZ PHE A1108 24.111 -13.208 1.725 1.00 31.84 H +ATOM 3494 N LEU A1109 18.079 -7.515 -0.730 1.00 29.44 N +ATOM 3495 CA LEU A1109 16.977 -6.961 -1.531 1.00 30.12 C +ATOM 3496 C LEU A1109 17.389 -5.777 -2.427 1.00 35.71 C +ATOM 3497 O LEU A1109 16.671 -5.499 -3.386 1.00 36.43 O +ATOM 3498 CB LEU A1109 15.781 -6.594 -0.625 1.00 29.83 C +ATOM 3499 CG LEU A1109 14.999 -7.824 -0.104 1.00 33.65 C +ATOM 3500 CD1 LEU A1109 14.031 -7.431 1.033 1.00 33.33 C +ATOM 3501 CD2 LEU A1109 14.289 -8.592 -1.241 1.00 35.57 C +ATOM 3502 H LEU A1109 18.078 -7.284 0.255 1.00 29.44 H +ATOM 3503 HA LEU A1109 16.649 -7.740 -2.218 1.00 30.12 H +ATOM 3504 HB3 LEU A1109 15.082 -5.950 -1.162 1.00 29.83 H +ATOM 3505 HB2 LEU A1109 16.147 -5.993 0.208 1.00 29.83 H +ATOM 3506 HG LEU A1109 15.723 -8.510 0.335 1.00 33.65 H +ATOM 3507 HD11 LEU A1109 14.216 -8.037 1.921 1.00 33.33 H +ATOM 3508 HD12 LEU A1109 14.149 -6.388 1.329 1.00 33.33 H +ATOM 3509 HD13 LEU A1109 12.983 -7.564 0.763 1.00 33.33 H +ATOM 3510 HD21 LEU A1109 13.258 -8.850 -1.001 1.00 35.57 H +ATOM 3511 HD22 LEU A1109 14.268 -8.021 -2.168 1.00 35.57 H +ATOM 3512 HD23 LEU A1109 14.808 -9.528 -1.450 1.00 35.57 H +ATOM 3513 N GLU A1110 18.546 -5.146 -2.157 1.00 32.97 N +ATOM 3514 CA GLU A1110 19.198 -4.200 -3.070 1.00 33.72 C +ATOM 3515 C GLU A1110 19.773 -4.889 -4.323 1.00 38.35 C +ATOM 3516 O GLU A1110 19.734 -4.293 -5.399 1.00 39.48 O +ATOM 3517 CB GLU A1110 20.306 -3.430 -2.324 1.00 35.22 C +ATOM 3518 CG GLU A1110 19.767 -2.376 -1.330 1.00 47.22 C +ATOM 3519 CD GLU A1110 20.816 -1.769 -0.381 1.00 71.97 C +ATOM 3520 OE1 GLU A1110 22.028 -2.019 -0.570 1.00 63.35 O +ATOM 3521 OE2 GLU A1110 20.382 -1.045 0.541 1.00 73.42 O1- +ATOM 3522 H GLU A1110 19.071 -5.402 -1.333 1.00 32.97 H +ATOM 3523 HA GLU A1110 18.452 -3.479 -3.412 1.00 33.72 H +ATOM 3524 HB3 GLU A1110 20.970 -2.940 -3.038 1.00 35.22 H +ATOM 3525 HB2 GLU A1110 20.926 -4.151 -1.789 1.00 35.22 H +ATOM 3526 HG3 GLU A1110 18.965 -2.803 -0.733 1.00 47.22 H +ATOM 3527 HG2 GLU A1110 19.311 -1.562 -1.893 1.00 47.22 H +ATOM 3528 N LEU A1111 20.279 -6.125 -4.163 1.00 34.22 N +ATOM 3529 CA LEU A1111 20.843 -6.943 -5.241 1.00 34.12 C +ATOM 3530 C LEU A1111 19.755 -7.648 -6.071 1.00 37.76 C +ATOM 3531 O LEU A1111 19.908 -7.755 -7.287 1.00 38.10 O +ATOM 3532 CB LEU A1111 21.817 -7.987 -4.644 1.00 33.59 C +ATOM 3533 CG LEU A1111 23.052 -7.394 -3.928 1.00 38.02 C +ATOM 3534 CD1 LEU A1111 23.817 -8.487 -3.149 1.00 37.00 C +ATOM 3535 CD2 LEU A1111 23.965 -6.609 -4.893 1.00 40.89 C +ATOM 3536 H LEU A1111 20.273 -6.546 -3.245 1.00 34.22 H +ATOM 3537 HA LEU A1111 21.398 -6.293 -5.919 1.00 34.12 H +ATOM 3538 HB3 LEU A1111 22.164 -8.657 -5.432 1.00 33.59 H +ATOM 3539 HB2 LEU A1111 21.267 -8.618 -3.944 1.00 33.59 H +ATOM 3540 HG LEU A1111 22.694 -6.687 -3.180 1.00 38.02 H +ATOM 3541 HD11 LEU A1111 23.939 -8.204 -2.103 1.00 37.00 H +ATOM 3542 HD12 LEU A1111 23.288 -9.441 -3.160 1.00 37.00 H +ATOM 3543 HD13 LEU A1111 24.810 -8.679 -3.555 1.00 37.00 H +ATOM 3544 HD21 LEU A1111 25.022 -6.821 -4.738 1.00 40.89 H +ATOM 3545 HD22 LEU A1111 23.745 -6.835 -5.937 1.00 40.89 H +ATOM 3546 HD23 LEU A1111 23.833 -5.536 -4.757 1.00 40.89 H +ATOM 3547 N ILE A1112 18.687 -8.117 -5.403 1.00 33.75 N +ATOM 3548 CA ILE A1112 17.571 -8.851 -6.007 1.00 33.46 C +ATOM 3549 C ILE A1112 16.551 -7.914 -6.685 1.00 37.39 C +ATOM 3550 O ILE A1112 16.011 -8.274 -7.730 1.00 37.70 O +ATOM 3551 CB ILE A1112 16.828 -9.704 -4.927 1.00 35.58 C +ATOM 3552 CG1 ILE A1112 17.747 -10.806 -4.354 1.00 34.94 C +ATOM 3553 CG2 ILE A1112 15.490 -10.341 -5.369 1.00 36.37 C +ATOM 3554 CD1 ILE A1112 17.319 -11.291 -2.962 1.00 39.65 C +ATOM 3555 H ILE A1112 18.653 -8.010 -4.398 1.00 33.75 H +ATOM 3556 HA ILE A1112 17.966 -9.528 -6.768 1.00 33.46 H +ATOM 3557 HB ILE A1112 16.588 -9.025 -4.109 1.00 35.58 H +ATOM 3558 HG13 ILE A1112 18.772 -10.448 -4.276 1.00 34.94 H +ATOM 3559 HG12 ILE A1112 17.786 -11.650 -5.043 1.00 34.94 H +ATOM 3560 HG21 ILE A1112 15.069 -10.968 -4.586 1.00 36.37 H +ATOM 3561 HG22 ILE A1112 14.728 -9.602 -5.607 1.00 36.37 H +ATOM 3562 HG23 ILE A1112 15.628 -10.964 -6.249 1.00 36.37 H +ATOM 3563 HD11 ILE A1112 18.154 -11.766 -2.450 1.00 39.65 H +ATOM 3564 HD12 ILE A1112 16.978 -10.469 -2.333 1.00 39.65 H +ATOM 3565 HD13 ILE A1112 16.508 -12.015 -3.028 1.00 39.65 H +ATOM 3566 N GLY A1113 16.292 -6.753 -6.062 1.00 33.38 N +ATOM 3567 CA GLY A1113 15.156 -5.883 -6.365 1.00 33.34 C +ATOM 3568 C GLY A1113 13.961 -6.281 -5.480 1.00 35.16 C +ATOM 3569 O GLY A1113 14.005 -7.284 -4.766 1.00 33.46 O +ATOM 3570 H GLY A1113 16.804 -6.527 -5.220 1.00 33.38 H +ATOM 3571 HA3 GLY A1113 14.877 -5.935 -7.419 1.00 33.34 H +ATOM 3572 HA2 GLY A1113 15.439 -4.852 -6.151 1.00 33.34 H +ATOM 3573 N ILE A1114 12.887 -5.478 -5.528 1.00 32.60 N +ATOM 3574 CA ILE A1114 11.675 -5.653 -4.714 1.00 32.17 C +ATOM 3575 C ILE A1114 10.412 -5.956 -5.554 1.00 37.40 C +ATOM 3576 O ILE A1114 9.319 -6.015 -4.991 1.00 37.32 O +ATOM 3577 CB ILE A1114 11.423 -4.413 -3.807 1.00 34.68 C +ATOM 3578 CG1 ILE A1114 11.205 -3.090 -4.584 1.00 35.79 C +ATOM 3579 CG2 ILE A1114 12.537 -4.276 -2.748 1.00 34.19 C +ATOM 3580 CD1 ILE A1114 10.630 -1.958 -3.721 1.00 43.64 C +ATOM 3581 H ILE A1114 12.907 -4.657 -6.116 1.00 32.60 H +ATOM 3582 HA ILE A1114 11.785 -6.515 -4.054 1.00 32.17 H +ATOM 3583 HB ILE A1114 10.509 -4.603 -3.242 1.00 34.68 H +ATOM 3584 HG13 ILE A1114 10.527 -3.242 -5.424 1.00 35.79 H +ATOM 3585 HG12 ILE A1114 12.148 -2.763 -5.022 1.00 35.79 H +ATOM 3586 HG21 ILE A1114 12.306 -3.499 -2.019 1.00 34.19 H +ATOM 3587 HG22 ILE A1114 12.668 -5.207 -2.193 1.00 34.19 H +ATOM 3588 HG23 ILE A1114 13.496 -4.028 -3.203 1.00 34.19 H +ATOM 3589 HD11 ILE A1114 10.237 -1.157 -4.347 1.00 43.64 H +ATOM 3590 HD12 ILE A1114 9.816 -2.311 -3.088 1.00 43.64 H +ATOM 3591 HD13 ILE A1114 11.395 -1.525 -3.076 1.00 43.64 H +ATOM 3592 N ALA A1115 10.580 -6.169 -6.871 1.00 34.18 N +ATOM 3593 CA ALA A1115 9.507 -6.483 -7.813 1.00 34.57 C +ATOM 3594 C ALA A1115 9.944 -7.660 -8.697 1.00 38.36 C +ATOM 3595 O ALA A1115 10.205 -7.477 -9.887 1.00 38.49 O +ATOM 3596 CB ALA A1115 9.154 -5.215 -8.612 1.00 36.37 C +ATOM 3597 H ALA A1115 11.510 -6.125 -7.262 1.00 34.18 H +ATOM 3598 HA ALA A1115 8.611 -6.808 -7.281 1.00 34.57 H +ATOM 3599 HB1 ALA A1115 8.366 -5.411 -9.339 1.00 36.37 H +ATOM 3600 HB2 ALA A1115 8.797 -4.426 -7.949 1.00 36.37 H +ATOM 3601 HB3 ALA A1115 10.018 -4.825 -9.152 1.00 36.37 H +ATOM 3602 N GLN A1116 10.038 -8.845 -8.072 1.00 34.48 N +ATOM 3603 CA GLN A1116 10.488 -10.096 -8.691 1.00 34.51 C +ATOM 3604 C GLN A1116 9.448 -11.226 -8.584 1.00 39.39 C +ATOM 3605 O GLN A1116 9.763 -12.360 -8.947 1.00 38.66 O +ATOM 3606 CB GLN A1116 11.844 -10.507 -8.065 1.00 35.02 C +ATOM 3607 CG GLN A1116 13.010 -9.536 -8.348 1.00 48.68 C +ATOM 3608 CD GLN A1116 13.346 -9.359 -9.834 1.00 68.72 C +ATOM 3609 OE1 GLN A1116 13.031 -10.209 -10.665 1.00 61.99 O +ATOM 3610 NE2 GLN A1116 14.022 -8.260 -10.171 1.00 65.72 N +ATOM 3611 H GLN A1116 9.807 -8.904 -7.088 1.00 34.48 H +ATOM 3612 HA GLN A1116 10.613 -9.952 -9.764 1.00 34.51 H +ATOM 3613 HB3 GLN A1116 12.137 -11.499 -8.415 1.00 35.02 H +ATOM 3614 HB2 GLN A1116 11.727 -10.607 -6.985 1.00 35.02 H +ATOM 3615 HG3 GLN A1116 13.899 -9.902 -7.841 1.00 48.68 H +ATOM 3616 HG2 GLN A1116 12.795 -8.560 -7.909 1.00 48.68 H +ATOM 3617 HE22 GLN A1116 14.273 -8.095 -11.134 1.00 65.72 H +ATOM 3618 HE21 GLN A1116 14.314 -7.605 -9.461 1.00 65.72 H +ATOM 3619 N GLY A1117 8.229 -10.911 -8.109 1.00 36.20 N +ATOM 3620 CA GLY A1117 7.136 -11.865 -7.936 1.00 35.68 C +ATOM 3621 C GLY A1117 7.486 -12.868 -6.830 1.00 37.74 C +ATOM 3622 O GLY A1117 7.919 -12.476 -5.746 1.00 35.14 O +ATOM 3623 H GLY A1117 8.049 -9.958 -7.828 1.00 36.20 H +ATOM 3624 HA3 GLY A1117 6.932 -12.374 -8.880 1.00 35.68 H +ATOM 3625 HA2 GLY A1117 6.232 -11.325 -7.656 1.00 35.68 H +ATOM 3626 N GLN A1118 7.284 -14.161 -7.124 1.00 34.77 N +ATOM 3627 CA GLN A1118 7.597 -15.291 -6.244 1.00 34.16 C +ATOM 3628 C GLN A1118 9.088 -15.695 -6.224 1.00 38.39 C +ATOM 3629 O GLN A1118 9.438 -16.583 -5.449 1.00 38.69 O +ATOM 3630 CB GLN A1118 6.700 -16.484 -6.639 1.00 36.01 C +ATOM 3631 CG GLN A1118 5.214 -16.252 -6.307 1.00 43.64 C +ATOM 3632 CD GLN A1118 4.343 -17.450 -6.687 1.00 59.59 C +ATOM 3633 OE1 GLN A1118 4.219 -17.786 -7.863 1.00 53.43 O +ATOM 3634 NE2 GLN A1118 3.718 -18.084 -5.693 1.00 51.90 N +ATOM 3635 H GLN A1118 6.915 -14.406 -8.031 1.00 34.77 H +ATOM 3636 HA GLN A1118 7.342 -15.011 -5.220 1.00 34.16 H +ATOM 3637 HB3 GLN A1118 7.029 -17.385 -6.117 1.00 36.01 H +ATOM 3638 HB2 GLN A1118 6.818 -16.695 -7.703 1.00 36.01 H +ATOM 3639 HG3 GLN A1118 4.837 -15.381 -6.843 1.00 43.64 H +ATOM 3640 HG2 GLN A1118 5.100 -16.034 -5.244 1.00 43.64 H +ATOM 3641 HE22 GLN A1118 3.100 -18.863 -5.887 1.00 51.90 H +ATOM 3642 HE21 GLN A1118 3.840 -17.784 -4.738 1.00 51.90 H +ATOM 3643 N MET A1119 9.932 -15.068 -7.063 1.00 35.21 N +ATOM 3644 CA MET A1119 11.324 -15.464 -7.303 1.00 35.10 C +ATOM 3645 C MET A1119 12.362 -14.776 -6.393 1.00 37.09 C +ATOM 3646 O MET A1119 13.531 -14.746 -6.772 1.00 36.90 O +ATOM 3647 CB MET A1119 11.670 -15.270 -8.799 1.00 38.56 C +ATOM 3648 CG MET A1119 10.741 -16.023 -9.761 1.00 43.50 C +ATOM 3649 SD MET A1119 11.305 -15.969 -11.481 1.00 49.59 S +ATOM 3650 CE MET A1119 10.142 -17.151 -12.211 1.00 47.51 C +ATOM 3651 H MET A1119 9.581 -14.324 -7.651 1.00 35.21 H +ATOM 3652 HA MET A1119 11.418 -16.532 -7.101 1.00 35.10 H +ATOM 3653 HB3 MET A1119 12.689 -15.607 -8.993 1.00 38.56 H +ATOM 3654 HB2 MET A1119 11.658 -14.209 -9.045 1.00 38.56 H +ATOM 3655 HG3 MET A1119 9.732 -15.611 -9.720 1.00 43.50 H +ATOM 3656 HG2 MET A1119 10.668 -17.067 -9.457 1.00 43.50 H +ATOM 3657 HE1 MET A1119 10.326 -17.247 -13.280 1.00 47.51 H +ATOM 3658 HE2 MET A1119 10.258 -18.132 -11.751 1.00 47.51 H +ATOM 3659 HE3 MET A1119 9.115 -16.815 -12.063 1.00 47.51 H +ATOM 3660 N THR A1120 11.971 -14.254 -5.216 1.00 32.79 N +ATOM 3661 CA THR A1120 12.906 -13.616 -4.275 1.00 31.54 C +ATOM 3662 C THR A1120 13.970 -14.589 -3.718 1.00 33.15 C +ATOM 3663 O THR A1120 15.148 -14.238 -3.718 1.00 32.31 O +ATOM 3664 CB THR A1120 12.185 -12.952 -3.072 1.00 39.63 C +ATOM 3665 OG1 THR A1120 11.209 -12.051 -3.556 1.00 41.01 O +ATOM 3666 CG2 THR A1120 13.104 -12.176 -2.107 1.00 37.17 C +ATOM 3667 H THR A1120 11.001 -14.291 -4.939 1.00 32.79 H +ATOM 3668 HA THR A1120 13.432 -12.833 -4.825 1.00 31.54 H +ATOM 3669 HB THR A1120 11.655 -13.712 -2.498 1.00 39.63 H +ATOM 3670 HG1 THR A1120 11.655 -11.263 -3.887 1.00 41.01 H +ATOM 3671 HG21 THR A1120 12.523 -11.652 -1.347 1.00 37.17 H +ATOM 3672 HG22 THR A1120 13.794 -12.835 -1.579 1.00 37.17 H +ATOM 3673 HG23 THR A1120 13.698 -11.432 -2.638 1.00 37.17 H +ATOM 3674 N VAL A1121 13.541 -15.795 -3.302 1.00 28.75 N +ATOM 3675 CA VAL A1121 14.413 -16.862 -2.796 1.00 28.27 C +ATOM 3676 C VAL A1121 15.248 -17.534 -3.906 1.00 32.87 C +ATOM 3677 O VAL A1121 16.399 -17.886 -3.650 1.00 30.93 O +ATOM 3678 CB VAL A1121 13.597 -17.927 -2.004 1.00 31.75 C +ATOM 3679 CG1 VAL A1121 14.310 -19.272 -1.744 1.00 31.62 C +ATOM 3680 CG2 VAL A1121 13.126 -17.338 -0.664 1.00 30.83 C +ATOM 3681 H VAL A1121 12.555 -16.014 -3.342 1.00 28.75 H +ATOM 3682 HA VAL A1121 15.117 -16.404 -2.099 1.00 28.27 H +ATOM 3683 HB VAL A1121 12.697 -18.155 -2.575 1.00 31.75 H +ATOM 3684 HG11 VAL A1121 13.729 -19.905 -1.073 1.00 31.62 H +ATOM 3685 HG12 VAL A1121 14.456 -19.845 -2.660 1.00 31.62 H +ATOM 3686 HG13 VAL A1121 15.285 -19.112 -1.287 1.00 31.62 H +ATOM 3687 HG21 VAL A1121 12.483 -18.039 -0.130 1.00 30.83 H +ATOM 3688 HG22 VAL A1121 13.977 -17.105 -0.023 1.00 30.83 H +ATOM 3689 HG23 VAL A1121 12.559 -16.418 -0.800 1.00 30.83 H +ATOM 3690 N LEU A1122 14.679 -17.660 -5.118 1.00 31.43 N +ATOM 3691 CA LEU A1122 15.359 -18.150 -6.321 1.00 32.17 C +ATOM 3692 C LEU A1122 16.517 -17.230 -6.745 1.00 35.29 C +ATOM 3693 O LEU A1122 17.594 -17.723 -7.067 1.00 35.48 O +ATOM 3694 CB LEU A1122 14.315 -18.321 -7.452 1.00 33.48 C +ATOM 3695 CG LEU A1122 14.861 -18.786 -8.825 1.00 39.83 C +ATOM 3696 CD1 LEU A1122 15.550 -20.165 -8.740 1.00 40.84 C +ATOM 3697 CD2 LEU A1122 13.757 -18.742 -9.903 1.00 43.00 C +ATOM 3698 H LEU A1122 13.713 -17.387 -5.238 1.00 31.43 H +ATOM 3699 HA LEU A1122 15.781 -19.128 -6.082 1.00 32.17 H +ATOM 3700 HB3 LEU A1122 13.805 -17.368 -7.593 1.00 33.48 H +ATOM 3701 HB2 LEU A1122 13.546 -19.021 -7.124 1.00 33.48 H +ATOM 3702 HG LEU A1122 15.614 -18.071 -9.157 1.00 39.83 H +ATOM 3703 HD11 LEU A1122 16.633 -20.047 -8.741 1.00 40.84 H +ATOM 3704 HD12 LEU A1122 15.283 -20.700 -7.828 1.00 40.84 H +ATOM 3705 HD13 LEU A1122 15.300 -20.814 -9.578 1.00 40.84 H +ATOM 3706 HD21 LEU A1122 13.528 -19.724 -10.316 1.00 43.00 H +ATOM 3707 HD22 LEU A1122 12.821 -18.341 -9.513 1.00 43.00 H +ATOM 3708 HD23 LEU A1122 14.055 -18.103 -10.735 1.00 43.00 H +ATOM 3709 N ARG A1123 16.273 -15.913 -6.718 1.00 30.85 N +ATOM 3710 CA ARG A1123 17.232 -14.887 -7.118 1.00 30.62 C +ATOM 3711 C ARG A1123 18.299 -14.619 -6.039 1.00 32.56 C +ATOM 3712 O ARG A1123 19.427 -14.272 -6.386 1.00 32.01 O +ATOM 3713 CB ARG A1123 16.430 -13.643 -7.531 1.00 32.62 C +ATOM 3714 CG ARG A1123 17.178 -12.673 -8.464 1.00 51.87 C +ATOM 3715 CD ARG A1123 16.254 -11.711 -9.236 1.00 66.96 C +ATOM 3716 NE ARG A1123 15.332 -12.413 -10.153 1.00 81.96 N +ATOM 3717 CZ ARG A1123 15.576 -12.905 -11.381 1.00100.01 C +ATOM 3718 NH1 ARG A1123 16.758 -12.751 -11.993 1.00 89.83 N +ATOM 3719 NH2 ARG A1123 14.602 -13.575 -12.011 1.00 87.70 N1+ +ATOM 3720 H ARG A1123 15.355 -15.582 -6.452 1.00 30.85 H +ATOM 3721 HA ARG A1123 17.743 -15.263 -8.005 1.00 30.62 H +ATOM 3722 HB3 ARG A1123 16.046 -13.129 -6.651 1.00 32.62 H +ATOM 3723 HB2 ARG A1123 15.553 -14.000 -8.069 1.00 32.62 H +ATOM 3724 HG3 ARG A1123 17.713 -13.279 -9.195 1.00 51.87 H +ATOM 3725 HG2 ARG A1123 17.939 -12.110 -7.925 1.00 51.87 H +ATOM 3726 HD3 ARG A1123 16.813 -10.915 -9.729 1.00 66.96 H +ATOM 3727 HD2 ARG A1123 15.607 -11.213 -8.518 1.00 66.96 H +ATOM 3728 HE ARG A1123 14.407 -12.564 -9.777 1.00 81.96 H +ATOM 3729 HH12 ARG A1123 16.920 -13.142 -12.909 1.00 89.83 H +ATOM 3730 HH11 ARG A1123 17.510 -12.270 -11.519 1.00 89.83 H +ATOM 3731 HH22 ARG A1123 14.761 -13.969 -12.927 1.00 87.70 H +ATOM 3732 HH21 ARG A1123 13.700 -13.700 -11.573 1.00 87.70 H +ATOM 3733 N LEU A1124 17.939 -14.862 -4.765 1.00 27.40 N +ATOM 3734 CA LEU A1124 18.847 -14.936 -3.620 1.00 26.01 C +ATOM 3735 C LEU A1124 19.788 -16.150 -3.713 1.00 30.76 C +ATOM 3736 O LEU A1124 20.969 -15.999 -3.421 1.00 29.47 O +ATOM 3737 CB LEU A1124 18.016 -14.933 -2.316 1.00 24.88 C +ATOM 3738 CG LEU A1124 18.786 -15.071 -0.983 1.00 27.73 C +ATOM 3739 CD1 LEU A1124 19.850 -13.966 -0.788 1.00 27.13 C +ATOM 3740 CD2 LEU A1124 17.791 -15.155 0.196 1.00 28.68 C +ATOM 3741 H LEU A1124 16.977 -15.108 -4.571 1.00 27.40 H +ATOM 3742 HA LEU A1124 19.462 -14.036 -3.637 1.00 26.01 H +ATOM 3743 HB3 LEU A1124 17.300 -15.751 -2.368 1.00 24.88 H +ATOM 3744 HB2 LEU A1124 17.418 -14.025 -2.279 1.00 24.88 H +ATOM 3745 HG LEU A1124 19.321 -16.020 -0.995 1.00 27.73 H +ATOM 3746 HD11 LEU A1124 19.773 -13.474 0.180 1.00 27.13 H +ATOM 3747 HD12 LEU A1124 20.855 -14.386 -0.847 1.00 27.13 H +ATOM 3748 HD13 LEU A1124 19.785 -13.184 -1.542 1.00 27.13 H +ATOM 3749 HD21 LEU A1124 18.073 -14.527 1.039 1.00 28.68 H +ATOM 3750 HD22 LEU A1124 16.781 -14.864 -0.095 1.00 28.68 H +ATOM 3751 HD23 LEU A1124 17.728 -16.174 0.575 1.00 28.68 H +ATOM 3752 N THR A1125 19.275 -17.310 -4.160 1.00 28.94 N +ATOM 3753 CA THR A1125 20.083 -18.503 -4.432 1.00 29.43 C +ATOM 3754 C THR A1125 21.081 -18.258 -5.580 1.00 33.45 C +ATOM 3755 O THR A1125 22.252 -18.588 -5.422 1.00 33.34 O +ATOM 3756 CB THR A1125 19.213 -19.738 -4.797 1.00 38.85 C +ATOM 3757 OG1 THR A1125 18.368 -20.052 -3.711 1.00 39.20 O +ATOM 3758 CG2 THR A1125 19.983 -21.019 -5.171 1.00 36.38 C +ATOM 3759 H THR A1125 18.289 -17.375 -4.371 1.00 28.94 H +ATOM 3760 HA THR A1125 20.653 -18.737 -3.530 1.00 29.43 H +ATOM 3761 HB THR A1125 18.560 -19.494 -5.632 1.00 38.85 H +ATOM 3762 HG1 THR A1125 17.746 -19.327 -3.585 1.00 39.20 H +ATOM 3763 HG21 THR A1125 19.284 -21.821 -5.405 1.00 36.38 H +ATOM 3764 HG22 THR A1125 20.604 -20.890 -6.058 1.00 36.38 H +ATOM 3765 HG23 THR A1125 20.626 -21.353 -4.356 1.00 36.38 H +ATOM 3766 N GLU A1126 20.612 -17.645 -6.682 1.00 30.02 N +ATOM 3767 CA GLU A1126 21.404 -17.336 -7.873 1.00 30.16 C +ATOM 3768 C GLU A1126 22.604 -16.407 -7.625 1.00 33.84 C +ATOM 3769 O GLU A1126 23.672 -16.700 -8.158 1.00 33.64 O +ATOM 3770 CB GLU A1126 20.487 -16.797 -8.988 1.00 32.09 C +ATOM 3771 CG GLU A1126 19.624 -17.904 -9.638 1.00 41.85 C +ATOM 3772 CD GLU A1126 18.497 -17.426 -10.571 1.00 55.94 C +ATOM 3773 OE1 GLU A1126 17.854 -18.321 -11.160 1.00 43.62 O +ATOM 3774 OE2 GLU A1126 18.279 -16.199 -10.693 1.00 49.93 O1- +ATOM 3775 H GLU A1126 19.630 -17.407 -6.733 1.00 30.02 H +ATOM 3776 HA GLU A1126 21.822 -18.282 -8.222 1.00 30.16 H +ATOM 3777 HB3 GLU A1126 21.077 -16.308 -9.764 1.00 32.09 H +ATOM 3778 HB2 GLU A1126 19.850 -16.022 -8.564 1.00 32.09 H +ATOM 3779 HG3 GLU A1126 19.178 -18.533 -8.869 1.00 41.85 H +ATOM 3780 HG2 GLU A1126 20.280 -18.564 -10.209 1.00 41.85 H +ATOM 3781 N LEU A1127 22.446 -15.344 -6.811 1.00 30.10 N +ATOM 3782 CA LEU A1127 23.561 -14.455 -6.454 1.00 29.72 C +ATOM 3783 C LEU A1127 24.592 -15.124 -5.528 1.00 33.42 C +ATOM 3784 O LEU A1127 25.782 -14.861 -5.693 1.00 33.51 O +ATOM 3785 CB LEU A1127 23.062 -13.068 -5.976 1.00 29.37 C +ATOM 3786 CG LEU A1127 22.324 -12.970 -4.620 1.00 32.57 C +ATOM 3787 CD1 LEU A1127 23.278 -12.876 -3.411 1.00 31.62 C +ATOM 3788 CD2 LEU A1127 21.320 -11.799 -4.618 1.00 35.17 C +ATOM 3789 H LEU A1127 21.546 -15.144 -6.396 1.00 30.10 H +ATOM 3790 HA LEU A1127 24.098 -14.254 -7.383 1.00 29.72 H +ATOM 3791 HB3 LEU A1127 22.395 -12.702 -6.755 1.00 29.37 H +ATOM 3792 HB2 LEU A1127 23.893 -12.363 -5.975 1.00 29.37 H +ATOM 3793 HG LEU A1127 21.740 -13.879 -4.510 1.00 32.57 H +ATOM 3794 HD11 LEU A1127 22.941 -13.528 -2.606 1.00 31.62 H +ATOM 3795 HD12 LEU A1127 24.301 -13.156 -3.653 1.00 31.62 H +ATOM 3796 HD13 LEU A1127 23.332 -11.866 -3.007 1.00 31.62 H +ATOM 3797 HD21 LEU A1127 21.279 -11.278 -3.661 1.00 35.17 H +ATOM 3798 HD22 LEU A1127 21.551 -11.056 -5.381 1.00 35.17 H +ATOM 3799 HD23 LEU A1127 20.314 -12.164 -4.822 1.00 35.17 H +ATOM 3800 N LEU A1128 24.145 -16.018 -4.625 1.00 29.63 N +ATOM 3801 CA LEU A1128 25.035 -16.819 -3.778 1.00 29.82 C +ATOM 3802 C LEU A1128 25.814 -17.888 -4.575 1.00 36.07 C +ATOM 3803 O LEU A1128 26.962 -18.167 -4.228 1.00 35.74 O +ATOM 3804 CB LEU A1128 24.260 -17.464 -2.608 1.00 29.09 C +ATOM 3805 CG LEU A1128 23.624 -16.473 -1.606 1.00 32.67 C +ATOM 3806 CD1 LEU A1128 22.685 -17.212 -0.629 1.00 32.43 C +ATOM 3807 CD2 LEU A1128 24.657 -15.593 -0.877 1.00 33.86 C +ATOM 3808 H LEU A1128 23.154 -16.199 -4.539 1.00 29.63 H +ATOM 3809 HA LEU A1128 25.765 -16.129 -3.360 1.00 29.82 H +ATOM 3810 HB3 LEU A1128 24.932 -18.122 -2.056 1.00 29.09 H +ATOM 3811 HB2 LEU A1128 23.480 -18.108 -3.020 1.00 29.09 H +ATOM 3812 HG LEU A1128 23.005 -15.781 -2.166 1.00 32.67 H +ATOM 3813 HD11 LEU A1128 21.657 -16.872 -0.753 1.00 32.43 H +ATOM 3814 HD12 LEU A1128 22.682 -18.290 -0.792 1.00 32.43 H +ATOM 3815 HD13 LEU A1128 22.950 -17.056 0.416 1.00 32.43 H +ATOM 3816 HD21 LEU A1128 24.332 -15.319 0.127 1.00 33.86 H +ATOM 3817 HD22 LEU A1128 25.623 -16.087 -0.790 1.00 33.86 H +ATOM 3818 HD23 LEU A1128 24.810 -14.658 -1.414 1.00 33.86 H +ATOM 3819 N GLU A1129 25.208 -18.430 -5.646 1.00 33.95 N +ATOM 3820 CA GLU A1129 25.843 -19.357 -6.588 1.00 34.45 C +ATOM 3821 C GLU A1129 26.860 -18.674 -7.528 1.00 37.26 C +ATOM 3822 O GLU A1129 27.793 -19.348 -7.964 1.00 37.90 O +ATOM 3823 CB GLU A1129 24.758 -20.122 -7.378 1.00 36.73 C +ATOM 3824 CG GLU A1129 23.917 -21.110 -6.527 1.00 48.39 C +ATOM 3825 CD GLU A1129 24.571 -22.456 -6.167 1.00 77.54 C +ATOM 3826 OE1 GLU A1129 25.689 -22.746 -6.649 1.00 82.26 O +ATOM 3827 OE2 GLU A1129 23.911 -23.200 -5.409 1.00 71.56 O1- +ATOM 3828 H GLU A1129 24.250 -18.180 -5.850 1.00 33.95 H +ATOM 3829 HA GLU A1129 26.410 -20.085 -6.004 1.00 34.45 H +ATOM 3830 HB3 GLU A1129 25.196 -20.639 -8.234 1.00 36.73 H +ATOM 3831 HB2 GLU A1129 24.072 -19.397 -7.815 1.00 36.73 H +ATOM 3832 HG3 GLU A1129 22.993 -21.329 -7.064 1.00 48.39 H +ATOM 3833 HG2 GLU A1129 23.618 -20.640 -5.592 1.00 48.39 H +ATOM 3834 N ARG A1130 26.713 -17.358 -7.779 1.00 32.11 N +ATOM 3835 CA ARG A1130 27.716 -16.528 -8.463 1.00 31.83 C +ATOM 3836 C ARG A1130 28.864 -16.068 -7.541 1.00 35.00 C +ATOM 3837 O ARG A1130 29.834 -15.508 -8.053 1.00 34.82 O +ATOM 3838 CB ARG A1130 27.053 -15.299 -9.121 1.00 31.13 C +ATOM 3839 CG ARG A1130 26.136 -15.637 -10.311 1.00 39.15 C +ATOM 3840 CD ARG A1130 25.776 -14.421 -11.186 1.00 46.20 C +ATOM 3841 NE ARG A1130 25.114 -13.336 -10.435 1.00 50.72 N +ATOM 3842 CZ ARG A1130 23.807 -13.193 -10.151 1.00 59.53 C +ATOM 3843 NH1 ARG A1130 22.887 -14.092 -10.526 1.00 48.10 N +ATOM 3844 NH2 ARG A1130 23.417 -12.112 -9.467 1.00 39.65 N1+ +ATOM 3845 H ARG A1130 25.906 -16.871 -7.412 1.00 32.11 H +ATOM 3846 HA ARG A1130 28.183 -17.119 -9.254 1.00 31.83 H +ATOM 3847 HB3 ARG A1130 27.829 -14.629 -9.494 1.00 31.13 H +ATOM 3848 HB2 ARG A1130 26.504 -14.729 -8.369 1.00 31.13 H +ATOM 3849 HG3 ARG A1130 25.243 -16.178 -10.010 1.00 39.15 H +ATOM 3850 HG2 ARG A1130 26.683 -16.331 -10.950 1.00 39.15 H +ATOM 3851 HD3 ARG A1130 25.095 -14.743 -11.974 1.00 46.20 H +ATOM 3852 HD2 ARG A1130 26.658 -14.045 -11.705 1.00 46.20 H +ATOM 3853 HE ARG A1130 25.740 -12.633 -10.058 1.00 50.72 H +ATOM 3854 HH12 ARG A1130 21.909 -13.940 -10.320 1.00 48.10 H +ATOM 3855 HH11 ARG A1130 23.169 -14.924 -11.022 1.00 48.10 H +ATOM 3856 HH22 ARG A1130 22.445 -11.988 -9.210 1.00 39.65 H +ATOM 3857 HH21 ARG A1130 24.103 -11.432 -9.158 1.00 39.65 H +ATOM 3858 N GLY A1131 28.761 -16.309 -6.223 1.00 30.98 N +ATOM 3859 CA GLY A1131 29.807 -15.977 -5.257 1.00 30.26 C +ATOM 3860 C GLY A1131 29.638 -14.574 -4.649 1.00 33.25 C +ATOM 3861 O GLY A1131 30.533 -14.143 -3.922 1.00 33.08 O +ATOM 3862 H GLY A1131 27.941 -16.782 -5.871 1.00 30.98 H +ATOM 3863 HA3 GLY A1131 30.798 -16.060 -5.707 1.00 30.26 H +ATOM 3864 HA2 GLY A1131 29.776 -16.715 -4.456 1.00 30.26 H +ATOM 3865 N GLU A1132 28.518 -13.869 -4.911 1.00 29.03 N +ATOM 3866 CA GLU A1132 28.200 -12.573 -4.303 1.00 28.50 C +ATOM 3867 C GLU A1132 27.812 -12.738 -2.826 1.00 30.49 C +ATOM 3868 O GLU A1132 27.007 -13.610 -2.498 1.00 29.24 O +ATOM 3869 CB GLU A1132 27.064 -11.859 -5.061 1.00 30.41 C +ATOM 3870 CG GLU A1132 27.330 -11.664 -6.570 1.00 44.11 C +ATOM 3871 CD GLU A1132 26.286 -10.814 -7.316 1.00 66.41 C +ATOM 3872 OE1 GLU A1132 25.485 -10.109 -6.661 1.00 54.48 O +ATOM 3873 OE2 GLU A1132 26.312 -10.878 -8.564 1.00 65.91 O1- +ATOM 3874 H GLU A1132 27.803 -14.267 -5.505 1.00 29.03 H +ATOM 3875 HA GLU A1132 29.090 -11.944 -4.368 1.00 28.50 H +ATOM 3876 HB3 GLU A1132 26.909 -10.889 -4.587 1.00 30.41 H +ATOM 3877 HB2 GLU A1132 26.128 -12.399 -4.929 1.00 30.41 H +ATOM 3878 HG3 GLU A1132 27.392 -12.639 -7.056 1.00 44.11 H +ATOM 3879 HG2 GLU A1132 28.302 -11.190 -6.706 1.00 44.11 H +ATOM 3880 N ARG A1133 28.398 -11.886 -1.974 1.00 26.21 N +ATOM 3881 CA ARG A1133 28.222 -11.898 -0.525 1.00 24.81 C +ATOM 3882 C ARG A1133 27.847 -10.503 -0.015 1.00 28.56 C +ATOM 3883 O ARG A1133 28.035 -9.506 -0.714 1.00 29.28 O +ATOM 3884 CB ARG A1133 29.547 -12.355 0.137 1.00 23.60 C +ATOM 3885 CG ARG A1133 30.008 -13.781 -0.209 1.00 27.25 C +ATOM 3886 CD ARG A1133 29.057 -14.887 0.275 1.00 24.94 C +ATOM 3887 NE ARG A1133 29.486 -16.217 -0.180 1.00 32.22 N +ATOM 3888 CZ ARG A1133 29.051 -16.909 -1.246 1.00 44.13 C +ATOM 3889 NH1 ARG A1133 28.131 -16.421 -2.078 1.00 35.23 N +ATOM 3890 NH2 ARG A1133 29.546 -18.126 -1.484 1.00 28.25 N1+ +ATOM 3891 H ARG A1133 29.015 -11.172 -2.335 1.00 26.21 H +ATOM 3892 HA ARG A1133 27.407 -12.564 -0.240 1.00 24.81 H +ATOM 3893 HB3 ARG A1133 29.463 -12.285 1.222 1.00 23.60 H +ATOM 3894 HB2 ARG A1133 30.344 -11.659 -0.134 1.00 23.60 H +ATOM 3895 HG3 ARG A1133 30.943 -13.906 0.339 1.00 27.25 H +ATOM 3896 HG2 ARG A1133 30.271 -13.898 -1.260 1.00 27.25 H +ATOM 3897 HD3 ARG A1133 28.004 -14.682 0.090 1.00 24.94 H +ATOM 3898 HD2 ARG A1133 29.158 -14.950 1.357 1.00 24.94 H +ATOM 3899 HE ARG A1133 30.208 -16.653 0.380 1.00 32.22 H +ATOM 3900 HH12 ARG A1133 27.803 -16.980 -2.856 1.00 35.23 H +ATOM 3901 HH11 ARG A1133 27.759 -15.488 -1.948 1.00 35.23 H +ATOM 3902 HH22 ARG A1133 29.217 -18.685 -2.262 1.00 28.25 H +ATOM 3903 HH21 ARG A1133 30.203 -18.534 -0.832 1.00 28.25 H +ATOM 3904 N LEU A1134 27.385 -10.473 1.246 1.00 24.24 N +ATOM 3905 CA LEU A1134 27.254 -9.279 2.082 1.00 24.09 C +ATOM 3906 C LEU A1134 28.641 -8.611 2.247 1.00 29.74 C +ATOM 3907 O LEU A1134 29.608 -9.329 2.516 1.00 29.60 O +ATOM 3908 CB LEU A1134 26.718 -9.716 3.466 1.00 23.36 C +ATOM 3909 CG LEU A1134 25.284 -10.290 3.454 1.00 26.58 C +ATOM 3910 CD1 LEU A1134 24.912 -10.911 4.817 1.00 26.21 C +ATOM 3911 CD2 LEU A1134 24.247 -9.252 2.980 1.00 27.95 C +ATOM 3912 H LEU A1134 27.242 -11.351 1.729 1.00 24.24 H +ATOM 3913 HA LEU A1134 26.538 -8.625 1.589 1.00 24.09 H +ATOM 3914 HB3 LEU A1134 26.749 -8.869 4.153 1.00 23.36 H +ATOM 3915 HB2 LEU A1134 27.396 -10.459 3.885 1.00 23.36 H +ATOM 3916 HG LEU A1134 25.267 -11.110 2.738 1.00 26.58 H +ATOM 3917 HD11 LEU A1134 24.548 -11.932 4.692 1.00 26.21 H +ATOM 3918 HD12 LEU A1134 25.766 -10.958 5.494 1.00 26.21 H +ATOM 3919 HD13 LEU A1134 24.132 -10.350 5.333 1.00 26.21 H +ATOM 3920 HD21 LEU A1134 23.305 -9.330 3.518 1.00 27.95 H +ATOM 3921 HD22 LEU A1134 24.611 -8.231 3.100 1.00 27.95 H +ATOM 3922 HD23 LEU A1134 24.014 -9.395 1.924 1.00 27.95 H +ATOM 3923 N PRO A1135 28.733 -7.278 2.033 1.00 27.61 N +ATOM 3924 CA PRO A1135 30.022 -6.555 2.025 1.00 27.81 C +ATOM 3925 C PRO A1135 30.724 -6.531 3.394 1.00 30.97 C +ATOM 3926 O PRO A1135 30.099 -6.837 4.406 1.00 29.98 O +ATOM 3927 CB PRO A1135 29.629 -5.143 1.558 1.00 30.16 C +ATOM 3928 CG PRO A1135 28.194 -4.969 2.026 1.00 34.27 C +ATOM 3929 CD PRO A1135 27.608 -6.361 1.833 1.00 29.36 C +ATOM 3930 HA PRO A1135 30.700 -7.008 1.301 1.00 27.81 H +ATOM 3931 HB3 PRO A1135 29.666 -5.103 0.469 1.00 30.16 H +ATOM 3932 HB2 PRO A1135 30.285 -4.355 1.932 1.00 30.16 H +ATOM 3933 HG3 PRO A1135 27.654 -4.192 1.485 1.00 34.27 H +ATOM 3934 HG2 PRO A1135 28.185 -4.713 3.086 1.00 34.27 H +ATOM 3935 HD2 PRO A1135 26.786 -6.534 2.530 1.00 29.36 H +ATOM 3936 HD3 PRO A1135 27.233 -6.479 0.815 1.00 29.36 H +ATOM 3937 N ARG A1136 32.017 -6.170 3.399 1.00 29.03 N +ATOM 3938 CA ARG A1136 32.803 -5.987 4.620 1.00 29.08 C +ATOM 3939 C ARG A1136 32.278 -4.771 5.419 1.00 34.61 C +ATOM 3940 O ARG A1136 32.302 -3.669 4.868 1.00 34.66 O +ATOM 3941 CB ARG A1136 34.289 -5.821 4.232 1.00 29.17 C +ATOM 3942 CG ARG A1136 35.229 -5.712 5.454 1.00 38.92 C +ATOM 3943 CD ARG A1136 36.724 -5.568 5.113 1.00 45.74 C +ATOM 3944 NE ARG A1136 37.032 -4.279 4.465 1.00 57.61 N +ATOM 3945 CZ ARG A1136 37.128 -3.066 5.045 1.00 73.29 C +ATOM 3946 NH1 ARG A1136 37.335 -1.994 4.272 1.00 60.23 N +ATOM 3947 NH2 ARG A1136 37.017 -2.883 6.368 1.00 58.64 N1+ +ATOM 3948 H ARG A1136 32.482 -5.950 2.526 1.00 29.03 H +ATOM 3949 HA ARG A1136 32.735 -6.903 5.195 1.00 29.08 H +ATOM 3950 HB3 ARG A1136 34.405 -4.944 3.593 1.00 29.17 H +ATOM 3951 HB2 ARG A1136 34.597 -6.674 3.626 1.00 29.17 H +ATOM 3952 HG3 ARG A1136 35.077 -6.526 6.162 1.00 38.92 H +ATOM 3953 HG2 ARG A1136 34.936 -4.815 5.996 1.00 38.92 H +ATOM 3954 HD3 ARG A1136 36.972 -6.318 4.361 1.00 45.74 H +ATOM 3955 HD2 ARG A1136 37.365 -5.785 5.968 1.00 45.74 H +ATOM 3956 HE ARG A1136 37.105 -4.320 3.458 1.00 57.61 H +ATOM 3957 HH12 ARG A1136 37.390 -1.074 4.688 1.00 60.23 H +ATOM 3958 HH11 ARG A1136 37.421 -2.088 3.270 1.00 60.23 H +ATOM 3959 HH22 ARG A1136 37.052 -1.949 6.758 1.00 58.64 H +ATOM 3960 HH21 ARG A1136 36.903 -3.675 6.987 1.00 58.64 H +ATOM 3961 N PRO A1137 31.827 -4.972 6.685 1.00 32.01 N +ATOM 3962 CA PRO A1137 31.478 -3.858 7.595 1.00 32.58 C +ATOM 3963 C PRO A1137 32.633 -2.868 7.819 1.00 39.46 C +ATOM 3964 O PRO A1137 33.797 -3.271 7.787 1.00 38.63 O +ATOM 3965 CB PRO A1137 31.101 -4.554 8.916 1.00 33.57 C +ATOM 3966 CG PRO A1137 30.736 -5.972 8.523 1.00 36.68 C +ATOM 3967 CD PRO A1137 31.666 -6.262 7.359 1.00 32.54 C +ATOM 3968 HA PRO A1137 30.608 -3.346 7.180 1.00 32.58 H +ATOM 3969 HB3 PRO A1137 30.288 -4.047 9.436 1.00 33.57 H +ATOM 3970 HB2 PRO A1137 31.946 -4.574 9.603 1.00 33.57 H +ATOM 3971 HG3 PRO A1137 29.711 -5.981 8.162 1.00 36.68 H +ATOM 3972 HG2 PRO A1137 30.812 -6.696 9.333 1.00 36.68 H +ATOM 3973 HD2 PRO A1137 32.640 -6.604 7.713 1.00 32.54 H +ATOM 3974 HD3 PRO A1137 31.233 -7.039 6.731 1.00 32.54 H +ATOM 3975 N ASP A1138 32.298 -1.591 8.049 1.00 39.21 N +ATOM 3976 CA ASP A1138 33.286 -0.552 8.346 1.00 41.32 C +ATOM 3977 C ASP A1138 33.977 -0.841 9.697 1.00 46.27 C +ATOM 3978 O ASP A1138 33.287 -1.119 10.678 1.00 46.37 O +ATOM 3979 CB ASP A1138 32.653 0.857 8.289 1.00 44.79 C +ATOM 3980 CG ASP A1138 33.684 1.994 8.250 1.00 61.45 C +ATOM 3981 OD1 ASP A1138 34.352 2.120 7.199 1.00 63.64 O +ATOM 3982 OD2 ASP A1138 33.880 2.639 9.303 1.00 68.48 O1- +ATOM 3983 H ASP A1138 31.327 -1.313 8.068 1.00 39.21 H +ATOM 3984 HA ASP A1138 34.041 -0.612 7.558 1.00 41.32 H +ATOM 3985 HB3 ASP A1138 31.962 0.995 9.123 1.00 44.79 H +ATOM 3986 HB2 ASP A1138 32.027 0.934 7.399 1.00 44.79 H +ATOM 3987 N LYS A1139 35.321 -0.812 9.696 1.00 43.12 N +ATOM 3988 CA LYS A1139 36.217 -1.138 10.818 1.00 42.89 C +ATOM 3989 C LYS A1139 36.303 -2.642 11.176 1.00 44.29 C +ATOM 3990 O LYS A1139 36.988 -2.974 12.144 1.00 44.54 O +ATOM 3991 CB LYS A1139 35.961 -0.231 12.054 1.00 46.37 C +ATOM 3992 CG LYS A1139 36.220 1.268 11.796 1.00 65.17 C +ATOM 3993 CD LYS A1139 37.703 1.686 11.872 1.00 78.61 C +ATOM 3994 CE LYS A1139 38.255 1.845 13.302 1.00 91.17 C +ATOM 3995 NZ LYS A1139 37.688 3.018 13.995 1.00101.15 N1+ +ATOM 3996 H LYS A1139 35.790 -0.557 8.838 1.00 43.12 H +ATOM 3997 HA LYS A1139 37.212 -0.899 10.444 1.00 42.89 H +ATOM 3998 HB3 LYS A1139 36.573 -0.549 12.897 1.00 46.37 H +ATOM 3999 HB2 LYS A1139 34.935 -0.355 12.400 1.00 46.37 H +ATOM 4000 HG3 LYS A1139 35.622 1.860 12.489 1.00 65.17 H +ATOM 4001 HG2 LYS A1139 35.845 1.534 10.810 1.00 65.17 H +ATOM 4002 HD3 LYS A1139 37.844 2.612 11.312 1.00 78.61 H +ATOM 4003 HD2 LYS A1139 38.311 0.946 11.351 1.00 78.61 H +ATOM 4004 HE3 LYS A1139 39.337 1.973 13.261 1.00 91.17 H +ATOM 4005 HE2 LYS A1139 38.067 0.949 13.895 1.00 91.17 H +ATOM 4006 HZ1 LYS A1139 36.686 2.913 14.070 1.00101.15 H +ATOM 4007 HZ2 LYS A1139 38.089 3.092 14.920 1.00101.15 H +ATOM 4008 HZ3 LYS A1139 37.898 3.854 13.469 1.00101.15 H +ATOM 4009 N CYS A1140 35.692 -3.531 10.367 1.00 38.03 N +ATOM 4010 CA CYS A1140 35.924 -4.981 10.397 1.00 36.03 C +ATOM 4011 C CYS A1140 37.311 -5.268 9.780 1.00 39.16 C +ATOM 4012 O CYS A1140 37.505 -4.902 8.620 1.00 39.76 O +ATOM 4013 CB CYS A1140 34.829 -5.734 9.603 1.00 35.01 C +ATOM 4014 SG CYS A1140 35.135 -7.521 9.448 1.00 37.93 S +ATOM 4015 H CYS A1140 35.133 -3.191 9.595 1.00 38.03 H +ATOM 4016 HA CYS A1140 35.844 -5.313 11.430 1.00 36.03 H +ATOM 4017 HB3 CYS A1140 34.756 -5.352 8.588 1.00 35.01 H +ATOM 4018 HB2 CYS A1140 33.861 -5.593 10.080 1.00 35.01 H +ATOM 4019 HG CYS A1140 36.249 -7.421 8.716 1.00 37.93 H +ATOM 4020 N PRO A1141 38.236 -5.927 10.520 1.00 34.21 N +ATOM 4021 CA PRO A1141 39.497 -6.435 9.942 1.00 34.11 C +ATOM 4022 C PRO A1141 39.276 -7.364 8.736 1.00 36.86 C +ATOM 4023 O PRO A1141 38.345 -8.169 8.760 1.00 36.05 O +ATOM 4024 CB PRO A1141 40.160 -7.193 11.106 1.00 35.84 C +ATOM 4025 CG PRO A1141 39.533 -6.626 12.366 1.00 40.40 C +ATOM 4026 CD PRO A1141 38.115 -6.300 11.928 1.00 35.47 C +ATOM 4027 HA PRO A1141 40.108 -5.575 9.661 1.00 34.11 H +ATOM 4028 HB3 PRO A1141 41.243 -7.076 11.100 1.00 35.84 H +ATOM 4029 HB2 PRO A1141 39.949 -8.261 11.050 1.00 35.84 H +ATOM 4030 HG3 PRO A1141 40.048 -5.704 12.643 1.00 40.40 H +ATOM 4031 HG2 PRO A1141 39.576 -7.303 13.219 1.00 40.40 H +ATOM 4032 HD2 PRO A1141 37.470 -7.176 12.012 1.00 35.47 H +ATOM 4033 HD3 PRO A1141 37.706 -5.504 12.546 1.00 35.47 H +ATOM 4034 N ALA A1142 40.128 -7.232 7.706 1.00 33.56 N +ATOM 4035 CA ALA A1142 40.099 -8.065 6.499 1.00 32.80 C +ATOM 4036 C ALA A1142 40.236 -9.571 6.790 1.00 35.64 C +ATOM 4037 O ALA A1142 39.541 -10.362 6.161 1.00 34.42 O +ATOM 4038 CB ALA A1142 41.192 -7.595 5.529 1.00 34.26 C +ATOM 4039 H ALA A1142 40.868 -6.547 7.756 1.00 33.56 H +ATOM 4040 HA ALA A1142 39.132 -7.908 6.017 1.00 32.80 H +ATOM 4041 HB1 ALA A1142 41.191 -8.188 4.614 1.00 34.26 H +ATOM 4042 HB2 ALA A1142 41.040 -6.554 5.243 1.00 34.26 H +ATOM 4043 HB3 ALA A1142 42.185 -7.675 5.976 1.00 34.26 H +ATOM 4044 N GLU A1143 41.066 -9.913 7.789 1.00 32.70 N +ATOM 4045 CA GLU A1143 41.260 -11.252 8.346 1.00 32.57 C +ATOM 4046 C GLU A1143 39.983 -11.871 8.951 1.00 33.31 C +ATOM 4047 O GLU A1143 39.721 -13.051 8.720 1.00 31.89 O +ATOM 4048 CB GLU A1143 42.429 -11.151 9.349 1.00 34.93 C +ATOM 4049 CG GLU A1143 42.740 -12.395 10.213 1.00 49.42 C +ATOM 4050 CD GLU A1143 43.928 -12.186 11.171 1.00 75.43 C +ATOM 4051 OE1 GLU A1143 44.889 -11.479 10.789 1.00 76.67 O +ATOM 4052 OE2 GLU A1143 43.853 -12.732 12.293 1.00 67.53 O1- +ATOM 4053 H GLU A1143 41.592 -9.179 8.245 1.00 32.70 H +ATOM 4054 HA GLU A1143 41.571 -11.904 7.527 1.00 32.57 H +ATOM 4055 HB3 GLU A1143 42.248 -10.310 10.021 1.00 34.93 H +ATOM 4056 HB2 GLU A1143 43.318 -10.888 8.775 1.00 34.93 H +ATOM 4057 HG3 GLU A1143 42.964 -13.246 9.569 1.00 49.42 H +ATOM 4058 HG2 GLU A1143 41.863 -12.672 10.799 1.00 49.42 H +ATOM 4059 N VAL A1144 39.200 -11.053 9.677 1.00 28.90 N +ATOM 4060 CA VAL A1144 37.905 -11.435 10.249 1.00 27.31 C +ATOM 4061 C VAL A1144 36.803 -11.539 9.170 1.00 29.05 C +ATOM 4062 O VAL A1144 35.921 -12.386 9.306 1.00 28.34 O +ATOM 4063 CB VAL A1144 37.462 -10.445 11.371 1.00 31.34 C +ATOM 4064 CG1 VAL A1144 36.041 -10.683 11.928 1.00 30.50 C +ATOM 4065 CG2 VAL A1144 38.463 -10.457 12.543 1.00 31.54 C +ATOM 4066 H VAL A1144 39.473 -10.089 9.802 1.00 28.90 H +ATOM 4067 HA VAL A1144 38.016 -12.423 10.699 1.00 27.31 H +ATOM 4068 HB VAL A1144 37.473 -9.437 10.955 1.00 31.34 H +ATOM 4069 HG11 VAL A1144 35.836 -10.023 12.771 1.00 30.50 H +ATOM 4070 HG12 VAL A1144 35.268 -10.490 11.184 1.00 30.50 H +ATOM 4071 HG13 VAL A1144 35.920 -11.709 12.279 1.00 30.50 H +ATOM 4072 HG21 VAL A1144 38.185 -9.732 13.308 1.00 31.54 H +ATOM 4073 HG22 VAL A1144 38.500 -11.438 13.014 1.00 31.54 H +ATOM 4074 HG23 VAL A1144 39.475 -10.212 12.222 1.00 31.54 H +ATOM 4075 N TYR A1145 36.900 -10.731 8.097 1.00 25.13 N +ATOM 4076 CA TYR A1145 36.024 -10.809 6.925 1.00 24.56 C +ATOM 4077 C TYR A1145 36.262 -12.078 6.082 1.00 29.59 C +ATOM 4078 O TYR A1145 35.299 -12.610 5.532 1.00 28.98 O +ATOM 4079 CB TYR A1145 36.147 -9.526 6.071 1.00 25.85 C +ATOM 4080 CG TYR A1145 35.172 -9.466 4.905 1.00 26.92 C +ATOM 4081 CD1 TYR A1145 33.793 -9.385 5.173 1.00 27.92 C +ATOM 4082 CD2 TYR A1145 35.618 -9.534 3.569 1.00 27.89 C +ATOM 4083 CE1 TYR A1145 32.856 -9.423 4.124 1.00 27.54 C +ATOM 4084 CE2 TYR A1145 34.682 -9.534 2.513 1.00 28.41 C +ATOM 4085 CZ TYR A1145 33.301 -9.492 2.791 1.00 32.37 C +ATOM 4086 OH TYR A1145 32.389 -9.513 1.775 1.00 32.64 O +ATOM 4087 H TYR A1145 37.646 -10.049 8.056 1.00 25.13 H +ATOM 4088 HA TYR A1145 35.000 -10.858 7.299 1.00 24.56 H +ATOM 4089 HB3 TYR A1145 37.163 -9.416 5.694 1.00 25.85 H +ATOM 4090 HB2 TYR A1145 35.967 -8.655 6.701 1.00 25.85 H +ATOM 4091 HD1 TYR A1145 33.461 -9.293 6.193 1.00 27.92 H +ATOM 4092 HD2 TYR A1145 36.674 -9.596 3.350 1.00 27.89 H +ATOM 4093 HE1 TYR A1145 31.800 -9.374 4.347 1.00 27.54 H +ATOM 4094 HE2 TYR A1145 35.027 -9.583 1.491 1.00 28.41 H +ATOM 4095 HH TYR A1145 31.483 -9.481 2.102 1.00 32.64 H +ATOM 4096 N HIS A1146 37.518 -12.554 6.019 1.00 27.68 N +ATOM 4097 CA HIS A1146 37.896 -13.802 5.350 1.00 28.09 C +ATOM 4098 C HIS A1146 37.467 -15.057 6.129 1.00 31.26 C +ATOM 4099 O HIS A1146 37.173 -16.067 5.493 1.00 30.66 O +ATOM 4100 CB HIS A1146 39.406 -13.820 5.042 1.00 29.62 C +ATOM 4101 CG HIS A1146 39.889 -12.711 4.137 1.00 33.64 C +ATOM 4102 ND1 HIS A1146 41.175 -12.169 4.243 1.00 36.05 N +ATOM 4103 CD2 HIS A1146 39.220 -12.067 3.114 1.00 35.60 C +ATOM 4104 CE1 HIS A1146 41.227 -11.226 3.312 1.00 36.06 C +ATOM 4105 NE2 HIS A1146 40.096 -11.120 2.613 1.00 36.16 N +ATOM 4106 H HIS A1146 38.267 -12.044 6.468 1.00 27.68 H +ATOM 4107 HA HIS A1146 37.374 -13.836 4.394 1.00 28.09 H +ATOM 4108 HB3 HIS A1146 39.679 -14.767 4.574 1.00 29.62 H +ATOM 4109 HB2 HIS A1146 39.971 -13.768 5.974 1.00 29.62 H +ATOM 4110 HD2 HIS A1146 38.221 -12.193 2.724 1.00 35.60 H +ATOM 4111 HE1 HIS A1146 42.096 -10.608 3.139 1.00 36.06 H +ATOM 4112 HE2 HIS A1146 39.919 -10.475 1.857 1.00 36.16 H +ATOM 4113 N LEU A1147 37.380 -14.960 7.469 1.00 27.52 N +ATOM 4114 CA LEU A1147 36.753 -15.960 8.341 1.00 27.48 C +ATOM 4115 C LEU A1147 35.232 -16.038 8.107 1.00 31.27 C +ATOM 4116 O LEU A1147 34.680 -17.136 8.105 1.00 30.50 O +ATOM 4117 CB LEU A1147 37.144 -15.664 9.812 1.00 27.80 C +ATOM 4118 CG LEU A1147 36.498 -16.554 10.909 1.00 32.67 C +ATOM 4119 CD1 LEU A1147 37.381 -16.615 12.169 1.00 33.30 C +ATOM 4120 CD2 LEU A1147 35.058 -16.135 11.288 1.00 33.92 C +ATOM 4121 H LEU A1147 37.674 -14.104 7.920 1.00 27.52 H +ATOM 4122 HA LEU A1147 37.169 -16.935 8.080 1.00 27.48 H +ATOM 4123 HB3 LEU A1147 36.961 -14.619 10.056 1.00 27.80 H +ATOM 4124 HB2 LEU A1147 38.228 -15.774 9.859 1.00 27.80 H +ATOM 4125 HG LEU A1147 36.460 -17.571 10.516 1.00 32.67 H +ATOM 4126 HD11 LEU A1147 37.275 -17.580 12.664 1.00 33.30 H +ATOM 4127 HD12 LEU A1147 38.439 -16.481 11.943 1.00 33.30 H +ATOM 4128 HD13 LEU A1147 37.114 -15.844 12.892 1.00 33.30 H +ATOM 4129 HD21 LEU A1147 34.918 -16.039 12.365 1.00 33.92 H +ATOM 4130 HD22 LEU A1147 34.780 -15.179 10.845 1.00 33.92 H +ATOM 4131 HD23 LEU A1147 34.336 -16.877 10.945 1.00 33.92 H +ATOM 4132 N MET A1148 34.601 -14.874 7.885 1.00 28.21 N +ATOM 4133 CA MET A1148 33.182 -14.719 7.566 1.00 28.10 C +ATOM 4134 C MET A1148 32.831 -15.284 6.177 1.00 30.43 C +ATOM 4135 O MET A1148 31.798 -15.934 6.043 1.00 29.03 O +ATOM 4136 CB MET A1148 32.818 -13.223 7.697 1.00 31.03 C +ATOM 4137 CG MET A1148 31.521 -12.945 8.470 1.00 35.29 C +ATOM 4138 SD MET A1148 31.462 -11.283 9.195 1.00 40.64 S +ATOM 4139 CE MET A1148 31.323 -10.271 7.706 1.00 37.28 C +ATOM 4140 H MET A1148 35.135 -14.016 7.927 1.00 28.21 H +ATOM 4141 HA MET A1148 32.631 -15.293 8.314 1.00 28.10 H +ATOM 4142 HB3 MET A1148 32.749 -12.768 6.708 1.00 31.03 H +ATOM 4143 HB2 MET A1148 33.620 -12.681 8.196 1.00 31.03 H +ATOM 4144 HG3 MET A1148 31.417 -13.648 9.297 1.00 35.29 H +ATOM 4145 HG2 MET A1148 30.657 -13.093 7.823 1.00 35.29 H +ATOM 4146 HE1 MET A1148 31.564 -9.232 7.932 1.00 37.28 H +ATOM 4147 HE2 MET A1148 31.997 -10.636 6.937 1.00 37.28 H +ATOM 4148 HE3 MET A1148 30.315 -10.313 7.308 1.00 37.28 H +ATOM 4149 N LYS A1149 33.724 -15.079 5.192 1.00 26.30 N +ATOM 4150 CA LYS A1149 33.659 -15.675 3.856 1.00 25.41 C +ATOM 4151 C LYS A1149 33.956 -17.182 3.827 1.00 28.32 C +ATOM 4152 O LYS A1149 33.431 -17.859 2.945 1.00 28.82 O +ATOM 4153 CB LYS A1149 34.598 -14.921 2.897 1.00 27.65 C +ATOM 4154 CG LYS A1149 33.995 -13.619 2.351 1.00 35.47 C +ATOM 4155 CD LYS A1149 34.918 -12.937 1.322 1.00 42.27 C +ATOM 4156 CE LYS A1149 34.164 -12.289 0.146 1.00 47.13 C +ATOM 4157 NZ LYS A1149 33.685 -13.292 -0.825 1.00 54.42 N1+ +ATOM 4158 H LYS A1149 34.533 -14.501 5.379 1.00 26.30 H +ATOM 4159 HA LYS A1149 32.637 -15.552 3.497 1.00 25.41 H +ATOM 4160 HB3 LYS A1149 34.808 -15.553 2.033 1.00 27.65 H +ATOM 4161 HB2 LYS A1149 35.563 -14.740 3.368 1.00 27.65 H +ATOM 4162 HG3 LYS A1149 33.790 -12.928 3.170 1.00 35.47 H +ATOM 4163 HG2 LYS A1149 33.027 -13.842 1.903 1.00 35.47 H +ATOM 4164 HD3 LYS A1149 35.665 -13.638 0.946 1.00 42.27 H +ATOM 4165 HD2 LYS A1149 35.493 -12.167 1.836 1.00 42.27 H +ATOM 4166 HE3 LYS A1149 34.826 -11.602 -0.382 1.00 47.13 H +ATOM 4167 HE2 LYS A1149 33.320 -11.703 0.509 1.00 47.13 H +ATOM 4168 HZ1 LYS A1149 33.078 -13.954 -0.361 1.00 54.42 H +ATOM 4169 HZ2 LYS A1149 33.179 -12.833 -1.569 1.00 54.42 H +ATOM 4170 HZ3 LYS A1149 34.475 -13.787 -1.213 1.00 54.42 H +ATOM 4171 N ASN A1150 34.757 -17.684 4.784 1.00 23.50 N +ATOM 4172 CA ASN A1150 35.004 -19.116 4.972 1.00 23.04 C +ATOM 4173 C ASN A1150 33.806 -19.807 5.653 1.00 26.00 C +ATOM 4174 O ASN A1150 33.521 -20.960 5.339 1.00 26.44 O +ATOM 4175 CB ASN A1150 36.331 -19.328 5.735 1.00 23.99 C +ATOM 4176 CG ASN A1150 36.840 -20.775 5.743 1.00 40.69 C +ATOM 4177 OD1 ASN A1150 37.197 -21.294 6.797 1.00 35.68 O +ATOM 4178 ND2 ASN A1150 36.886 -21.434 4.581 1.00 33.24 N +ATOM 4179 H ASN A1150 35.183 -17.063 5.459 1.00 23.50 H +ATOM 4180 HA ASN A1150 35.104 -19.569 3.987 1.00 23.04 H +ATOM 4181 HB3 ASN A1150 36.244 -18.966 6.761 1.00 23.99 H +ATOM 4182 HB2 ASN A1150 37.116 -18.733 5.268 1.00 23.99 H +ATOM 4183 HD22 ASN A1150 37.201 -22.393 4.560 1.00 33.24 H +ATOM 4184 HD21 ASN A1150 36.588 -20.995 3.719 1.00 33.24 H +ATOM 4185 N CYS A1151 33.073 -19.067 6.502 1.00 21.47 N +ATOM 4186 CA CYS A1151 31.752 -19.448 7.003 1.00 20.69 C +ATOM 4187 C CYS A1151 30.674 -19.399 5.901 1.00 23.92 C +ATOM 4188 O CYS A1151 29.638 -20.028 6.081 1.00 23.22 O +ATOM 4189 CB CYS A1151 31.320 -18.581 8.201 1.00 20.55 C +ATOM 4190 SG CYS A1151 32.354 -18.956 9.639 1.00 24.26 S +ATOM 4191 H CYS A1151 33.385 -18.135 6.740 1.00 21.47 H +ATOM 4192 HA CYS A1151 31.806 -20.484 7.338 1.00 20.69 H +ATOM 4193 HB3 CYS A1151 30.283 -18.773 8.471 1.00 20.55 H +ATOM 4194 HB2 CYS A1151 31.395 -17.518 7.979 1.00 20.55 H +ATOM 4195 HG CYS A1151 33.477 -18.426 9.140 1.00 24.26 H +ATOM 4196 N TRP A1152 30.936 -18.693 4.786 1.00 20.48 N +ATOM 4197 CA TRP A1152 30.046 -18.581 3.634 1.00 19.70 C +ATOM 4198 C TRP A1152 30.631 -19.253 2.375 1.00 25.32 C +ATOM 4199 O TRP A1152 30.517 -18.679 1.294 1.00 25.19 O +ATOM 4200 CB TRP A1152 29.723 -17.099 3.343 1.00 17.77 C +ATOM 4201 CG TRP A1152 29.092 -16.240 4.391 1.00 18.03 C +ATOM 4202 CD1 TRP A1152 28.131 -16.612 5.267 1.00 20.64 C +ATOM 4203 CD2 TRP A1152 29.267 -14.802 4.570 1.00 17.92 C +ATOM 4204 NE1 TRP A1152 27.706 -15.507 5.973 1.00 19.74 N +ATOM 4205 CE2 TRP A1152 28.365 -14.359 5.582 1.00 21.25 C +ATOM 4206 CE3 TRP A1152 30.091 -13.819 3.967 1.00 19.50 C +ATOM 4207 CZ2 TRP A1152 28.274 -13.009 5.964 1.00 20.31 C +ATOM 4208 CZ3 TRP A1152 30.017 -12.466 4.350 1.00 20.89 C +ATOM 4209 CH2 TRP A1152 29.105 -12.060 5.342 1.00 21.15 C +ATOM 4210 H TRP A1152 31.818 -18.207 4.709 1.00 20.48 H +ATOM 4211 HA TRP A1152 29.108 -19.086 3.850 1.00 19.70 H +ATOM 4212 HB3 TRP A1152 29.026 -17.053 2.507 1.00 17.77 H +ATOM 4213 HB2 TRP A1152 30.630 -16.591 3.016 1.00 17.77 H +ATOM 4214 HD1 TRP A1152 27.747 -17.617 5.369 1.00 20.64 H +ATOM 4215 HE1 TRP A1152 26.988 -15.565 6.682 1.00 19.74 H +ATOM 4216 HE3 TRP A1152 30.788 -14.111 3.197 1.00 19.50 H +ATOM 4217 HZ2 TRP A1152 27.569 -12.697 6.717 1.00 20.31 H +ATOM 4218 HZ3 TRP A1152 30.654 -11.735 3.873 1.00 20.89 H +ATOM 4219 HH2 TRP A1152 29.033 -11.018 5.616 1.00 21.15 H +ATOM 4220 N GLU A1153 31.226 -20.453 2.478 1.00 22.92 N +ATOM 4221 CA GLU A1153 31.564 -21.244 1.283 1.00 23.96 C +ATOM 4222 C GLU A1153 30.288 -21.887 0.719 1.00 30.01 C +ATOM 4223 O GLU A1153 29.483 -22.382 1.506 1.00 29.50 O +ATOM 4224 CB GLU A1153 32.627 -22.314 1.610 1.00 25.60 C +ATOM 4225 CG GLU A1153 33.971 -21.735 2.105 1.00 32.92 C +ATOM 4226 CD GLU A1153 34.886 -21.096 1.046 1.00 51.79 C +ATOM 4227 OE1 GLU A1153 34.595 -21.210 -0.166 1.00 47.28 O +ATOM 4228 OE2 GLU A1153 35.899 -20.504 1.482 1.00 48.59 O1- +ATOM 4229 H GLU A1153 31.341 -20.898 3.377 1.00 22.92 H +ATOM 4230 HA GLU A1153 31.978 -20.583 0.520 1.00 23.96 H +ATOM 4231 HB3 GLU A1153 32.790 -22.949 0.739 1.00 25.60 H +ATOM 4232 HB2 GLU A1153 32.245 -22.995 2.366 1.00 25.60 H +ATOM 4233 HG3 GLU A1153 34.536 -22.520 2.607 1.00 32.92 H +ATOM 4234 HG2 GLU A1153 33.770 -20.983 2.861 1.00 32.92 H +ATOM 4235 N THR A1154 30.119 -21.865 -0.616 1.00 28.85 N +ATOM 4236 CA THR A1154 28.974 -22.467 -1.317 1.00 29.55 C +ATOM 4237 C THR A1154 28.904 -23.996 -1.115 1.00 33.60 C +ATOM 4238 O THR A1154 27.813 -24.526 -0.901 1.00 33.16 O +ATOM 4239 CB THR A1154 29.014 -22.171 -2.841 1.00 40.24 C +ATOM 4240 OG1 THR A1154 29.011 -20.772 -3.039 1.00 39.44 O +ATOM 4241 CG2 THR A1154 27.856 -22.754 -3.675 1.00 38.79 C +ATOM 4242 H THR A1154 30.828 -21.453 -1.206 1.00 28.85 H +ATOM 4243 HA THR A1154 28.063 -22.031 -0.901 1.00 29.55 H +ATOM 4244 HB THR A1154 29.954 -22.544 -3.253 1.00 40.24 H +ATOM 4245 HG1 THR A1154 29.045 -20.599 -3.988 1.00 39.44 H +ATOM 4246 HG21 THR A1154 27.912 -22.417 -4.710 1.00 38.79 H +ATOM 4247 HG22 THR A1154 27.874 -23.844 -3.698 1.00 38.79 H +ATOM 4248 HG23 THR A1154 26.887 -22.445 -3.282 1.00 38.79 H +ATOM 4249 N GLU A1155 30.082 -24.644 -1.092 1.00 30.61 N +ATOM 4250 CA GLU A1155 30.283 -26.001 -0.591 1.00 31.13 C +ATOM 4251 C GLU A1155 30.151 -26.042 0.936 1.00 33.04 C +ATOM 4252 O GLU A1155 30.889 -25.337 1.625 1.00 31.62 O +ATOM 4253 CB GLU A1155 31.681 -26.500 -1.023 1.00 33.45 C +ATOM 4254 CG GLU A1155 31.705 -27.145 -2.424 1.00 48.63 C +ATOM 4255 CD GLU A1155 31.115 -28.565 -2.509 1.00 77.47 C +ATOM 4256 OE1 GLU A1155 31.014 -29.051 -3.657 1.00 79.43 O +ATOM 4257 OE2 GLU A1155 30.795 -29.163 -1.454 1.00 71.00 O1- +ATOM 4258 H GLU A1155 30.928 -24.124 -1.283 1.00 30.61 H +ATOM 4259 HA GLU A1155 29.516 -26.647 -1.022 1.00 31.13 H +ATOM 4260 HB3 GLU A1155 32.109 -27.183 -0.286 1.00 33.45 H +ATOM 4261 HB2 GLU A1155 32.369 -25.654 -1.036 1.00 33.45 H +ATOM 4262 HG3 GLU A1155 32.741 -27.203 -2.762 1.00 48.63 H +ATOM 4263 HG2 GLU A1155 31.190 -26.497 -3.135 1.00 48.63 H +ATOM 4264 N ALA A1156 29.242 -26.899 1.430 1.00 29.44 N +ATOM 4265 CA ALA A1156 29.023 -27.150 2.855 1.00 29.48 C +ATOM 4266 C ALA A1156 30.223 -27.806 3.555 1.00 33.67 C +ATOM 4267 O ALA A1156 30.476 -27.502 4.720 1.00 33.39 O +ATOM 4268 CB ALA A1156 27.757 -28.004 3.027 1.00 30.70 C +ATOM 4269 H ALA A1156 28.664 -27.429 0.791 1.00 29.44 H +ATOM 4270 HA ALA A1156 28.860 -26.189 3.339 1.00 29.48 H +ATOM 4271 HB1 ALA A1156 27.556 -28.211 4.078 1.00 30.70 H +ATOM 4272 HB2 ALA A1156 26.881 -27.493 2.624 1.00 30.70 H +ATOM 4273 HB3 ALA A1156 27.846 -28.961 2.511 1.00 30.70 H +ATOM 4274 N SER A1157 30.950 -28.663 2.818 1.00 30.26 N +ATOM 4275 CA SER A1157 32.168 -29.342 3.258 1.00 29.88 C +ATOM 4276 C SER A1157 33.374 -28.401 3.465 1.00 33.17 C +ATOM 4277 O SER A1157 34.232 -28.713 4.291 1.00 32.88 O +ATOM 4278 CB SER A1157 32.476 -30.490 2.272 1.00 33.89 C +ATOM 4279 OG SER A1157 32.886 -30.029 0.997 1.00 44.03 O +ATOM 4280 H SER A1157 30.667 -28.844 1.865 1.00 30.26 H +ATOM 4281 HA SER A1157 31.948 -29.796 4.226 1.00 29.88 H +ATOM 4282 HB3 SER A1157 31.605 -31.135 2.153 1.00 33.89 H +ATOM 4283 HB2 SER A1157 33.273 -31.118 2.673 1.00 33.89 H +ATOM 4284 HG SER A1157 32.111 -29.806 0.472 1.00 44.03 H +ATOM 4285 N PHE A1158 33.409 -27.272 2.735 1.00 29.17 N +ATOM 4286 CA PHE A1158 34.480 -26.271 2.792 1.00 28.42 C +ATOM 4287 C PHE A1158 34.364 -25.321 4.002 1.00 31.03 C +ATOM 4288 O PHE A1158 35.354 -24.668 4.336 1.00 30.36 O +ATOM 4289 CB PHE A1158 34.510 -25.469 1.469 1.00 29.82 C +ATOM 4290 CG PHE A1158 35.025 -26.146 0.203 1.00 31.53 C +ATOM 4291 CD1 PHE A1158 35.131 -27.550 0.071 1.00 35.10 C +ATOM 4292 CD2 PHE A1158 35.269 -25.343 -0.932 1.00 32.91 C +ATOM 4293 CE1 PHE A1158 35.496 -28.113 -1.145 1.00 36.69 C +ATOM 4294 CE2 PHE A1158 35.632 -25.925 -2.140 1.00 36.44 C +ATOM 4295 CZ PHE A1158 35.745 -27.304 -2.246 1.00 35.47 C +ATOM 4296 H PHE A1158 32.661 -27.081 2.083 1.00 29.17 H +ATOM 4297 HA PHE A1158 35.438 -26.784 2.896 1.00 28.42 H +ATOM 4298 HB3 PHE A1158 35.106 -24.564 1.599 1.00 29.82 H +ATOM 4299 HB2 PHE A1158 33.500 -25.125 1.250 1.00 29.82 H +ATOM 4300 HD1 PHE A1158 34.936 -28.210 0.900 1.00 35.10 H +ATOM 4301 HD2 PHE A1158 35.164 -24.269 -0.867 1.00 32.91 H +ATOM 4302 HE1 PHE A1158 35.576 -29.186 -1.237 1.00 36.69 H +ATOM 4303 HE2 PHE A1158 35.818 -25.302 -3.002 1.00 36.44 H +ATOM 4304 HZ PHE A1158 36.021 -27.752 -3.189 1.00 35.47 H +ATOM 4305 N ARG A1159 33.176 -25.255 4.632 1.00 26.80 N +ATOM 4306 CA ARG A1159 32.906 -24.430 5.812 1.00 26.06 C +ATOM 4307 C ARG A1159 33.488 -25.075 7.093 1.00 29.47 C +ATOM 4308 O ARG A1159 33.377 -26.293 7.244 1.00 29.53 O +ATOM 4309 CB ARG A1159 31.382 -24.205 5.951 1.00 25.47 C +ATOM 4310 CG ARG A1159 30.765 -23.488 4.733 1.00 34.60 C +ATOM 4311 CD ARG A1159 29.350 -22.923 4.944 1.00 34.22 C +ATOM 4312 NE ARG A1159 28.289 -23.933 5.053 1.00 33.48 N +ATOM 4313 CZ ARG A1159 27.355 -24.284 4.150 1.00 39.53 C +ATOM 4314 NH1 ARG A1159 27.317 -23.814 2.897 1.00 26.40 N +ATOM 4315 NH2 ARG A1159 26.403 -25.139 4.528 1.00 23.87 N1+ +ATOM 4316 H ARG A1159 32.413 -25.831 4.306 1.00 26.80 H +ATOM 4317 HA ARG A1159 33.373 -23.469 5.617 1.00 26.06 H +ATOM 4318 HB3 ARG A1159 31.205 -23.592 6.834 1.00 25.47 H +ATOM 4319 HB2 ARG A1159 30.867 -25.150 6.130 1.00 25.47 H +ATOM 4320 HG3 ARG A1159 30.717 -24.229 3.937 1.00 34.60 H +ATOM 4321 HG2 ARG A1159 31.412 -22.690 4.373 1.00 34.60 H +ATOM 4322 HD3 ARG A1159 29.125 -22.105 4.262 1.00 34.22 H +ATOM 4323 HD2 ARG A1159 29.328 -22.487 5.941 1.00 34.22 H +ATOM 4324 HE ARG A1159 28.216 -24.355 5.969 1.00 33.48 H +ATOM 4325 HH12 ARG A1159 26.588 -24.113 2.262 1.00 26.40 H +ATOM 4326 HH11 ARG A1159 28.057 -23.212 2.552 1.00 26.40 H +ATOM 4327 HH22 ARG A1159 25.652 -25.392 3.893 1.00 23.87 H +ATOM 4328 HH21 ARG A1159 26.383 -25.496 5.471 1.00 23.87 H +ATOM 4329 N PRO A1160 34.095 -24.265 7.994 1.00 24.62 N +ATOM 4330 CA PRO A1160 34.664 -24.761 9.261 1.00 24.66 C +ATOM 4331 C PRO A1160 33.563 -25.078 10.287 1.00 27.82 C +ATOM 4332 O PRO A1160 32.664 -24.263 10.469 1.00 26.84 O +ATOM 4333 CB PRO A1160 35.541 -23.585 9.725 1.00 26.19 C +ATOM 4334 CG PRO A1160 34.834 -22.341 9.205 1.00 29.49 C +ATOM 4335 CD PRO A1160 34.242 -22.812 7.881 1.00 24.99 C +ATOM 4336 HA PRO A1160 35.281 -25.646 9.098 1.00 24.66 H +ATOM 4337 HB3 PRO A1160 36.525 -23.665 9.260 1.00 26.19 H +ATOM 4338 HB2 PRO A1160 35.695 -23.550 10.804 1.00 26.19 H +ATOM 4339 HG3 PRO A1160 35.492 -21.478 9.100 1.00 29.49 H +ATOM 4340 HG2 PRO A1160 34.030 -22.061 9.887 1.00 29.49 H +ATOM 4341 HD2 PRO A1160 33.294 -22.314 7.682 1.00 24.99 H +ATOM 4342 HD3 PRO A1160 34.929 -22.600 7.063 1.00 24.99 H +ATOM 4343 N THR A1161 33.649 -26.236 10.959 1.00 24.63 N +ATOM 4344 CA THR A1161 32.745 -26.603 12.059 1.00 24.57 C +ATOM 4345 C THR A1161 32.866 -25.630 13.257 1.00 28.47 C +ATOM 4346 O THR A1161 33.878 -24.937 13.379 1.00 28.02 O +ATOM 4347 CB THR A1161 33.013 -28.053 12.561 1.00 32.60 C +ATOM 4348 OG1 THR A1161 34.124 -28.158 13.433 1.00 31.09 O +ATOM 4349 CG2 THR A1161 33.146 -29.089 11.435 1.00 31.97 C +ATOM 4350 H THR A1161 34.421 -26.865 10.783 1.00 24.63 H +ATOM 4351 HA THR A1161 31.722 -26.551 11.685 1.00 24.57 H +ATOM 4352 HB THR A1161 32.150 -28.354 13.154 1.00 32.60 H +ATOM 4353 HG1 THR A1161 34.917 -27.958 12.925 1.00 31.09 H +ATOM 4354 HG21 THR A1161 33.197 -30.101 11.838 1.00 31.97 H +ATOM 4355 HG22 THR A1161 32.291 -29.046 10.760 1.00 31.97 H +ATOM 4356 HG23 THR A1161 34.046 -28.929 10.840 1.00 31.97 H +ATOM 4357 N PHE A1162 31.847 -25.603 14.131 1.00 24.96 N +ATOM 4358 CA PHE A1162 31.856 -24.780 15.344 1.00 24.66 C +ATOM 4359 C PHE A1162 33.002 -25.080 16.326 1.00 28.86 C +ATOM 4360 O PHE A1162 33.501 -24.143 16.945 1.00 28.48 O +ATOM 4361 CB PHE A1162 30.485 -24.807 16.041 1.00 26.58 C +ATOM 4362 CG PHE A1162 29.448 -23.909 15.398 1.00 27.62 C +ATOM 4363 CD1 PHE A1162 29.599 -22.512 15.465 1.00 30.52 C +ATOM 4364 CD2 PHE A1162 28.378 -24.446 14.661 1.00 30.19 C +ATOM 4365 CE1 PHE A1162 28.654 -21.678 14.888 1.00 30.93 C +ATOM 4366 CE2 PHE A1162 27.447 -23.597 14.078 1.00 32.56 C +ATOM 4367 CZ PHE A1162 27.574 -22.221 14.207 1.00 30.21 C +ATOM 4368 H PHE A1162 31.034 -26.188 13.982 1.00 24.96 H +ATOM 4369 HA PHE A1162 32.034 -23.755 15.013 1.00 24.66 H +ATOM 4370 HB3 PHE A1162 30.586 -24.467 17.071 1.00 26.58 H +ATOM 4371 HB2 PHE A1162 30.102 -25.826 16.101 1.00 26.58 H +ATOM 4372 HD1 PHE A1162 30.451 -22.097 15.975 1.00 30.52 H +ATOM 4373 HD2 PHE A1162 28.278 -25.513 14.568 1.00 30.19 H +ATOM 4374 HE1 PHE A1162 28.765 -20.608 14.974 1.00 30.93 H +ATOM 4375 HE2 PHE A1162 26.619 -24.009 13.525 1.00 32.56 H +ATOM 4376 HZ PHE A1162 26.835 -21.571 13.767 1.00 30.21 H +ATOM 4377 N GLU A1163 33.446 -26.347 16.398 1.00 25.69 N +ATOM 4378 CA GLU A1163 34.637 -26.760 17.146 1.00 26.08 C +ATOM 4379 C GLU A1163 35.967 -26.248 16.557 1.00 30.34 C +ATOM 4380 O GLU A1163 36.918 -26.094 17.322 1.00 31.04 O +ATOM 4381 CB GLU A1163 34.664 -28.292 17.295 1.00 28.13 C +ATOM 4382 CG GLU A1163 33.559 -28.835 18.228 1.00 37.78 C +ATOM 4383 CD GLU A1163 33.526 -30.364 18.391 1.00 59.53 C +ATOM 4384 OE1 GLU A1163 34.362 -31.067 17.776 1.00 54.25 O +ATOM 4385 OE2 GLU A1163 32.625 -30.820 19.128 1.00 55.00 O1- +ATOM 4386 H GLU A1163 32.979 -27.070 15.867 1.00 25.69 H +ATOM 4387 HA GLU A1163 34.560 -26.333 18.146 1.00 26.08 H +ATOM 4388 HB3 GLU A1163 35.638 -28.604 17.675 1.00 28.13 H +ATOM 4389 HB2 GLU A1163 34.562 -28.745 16.307 1.00 28.13 H +ATOM 4390 HG3 GLU A1163 32.582 -28.510 17.873 1.00 37.78 H +ATOM 4391 HG2 GLU A1163 33.682 -28.393 19.218 1.00 37.78 H +ATOM 4392 N ASN A1164 36.013 -25.971 15.240 1.00 26.54 N +ATOM 4393 CA ASN A1164 37.164 -25.341 14.578 1.00 26.20 C +ATOM 4394 C ASN A1164 37.196 -23.822 14.817 1.00 30.39 C +ATOM 4395 O ASN A1164 38.285 -23.262 14.930 1.00 30.65 O +ATOM 4396 CB ASN A1164 37.175 -25.610 13.050 1.00 24.25 C +ATOM 4397 CG ASN A1164 37.109 -27.082 12.630 1.00 34.94 C +ATOM 4398 OD1 ASN A1164 36.381 -27.423 11.700 1.00 23.52 O +ATOM 4399 ND2 ASN A1164 37.859 -27.963 13.295 1.00 29.93 N +ATOM 4400 H ASN A1164 35.190 -26.115 14.671 1.00 26.54 H +ATOM 4401 HA ASN A1164 38.091 -25.737 15.000 1.00 26.20 H +ATOM 4402 HB3 ASN A1164 38.079 -25.186 12.610 1.00 24.25 H +ATOM 4403 HB2 ASN A1164 36.343 -25.090 12.574 1.00 24.25 H +ATOM 4404 HD22 ASN A1164 37.841 -28.939 13.034 1.00 29.93 H +ATOM 4405 HD21 ASN A1164 38.449 -27.668 14.059 1.00 29.93 H +ATOM 4406 N LEU A1165 36.012 -23.189 14.896 1.00 26.62 N +ATOM 4407 CA LEU A1165 35.846 -21.745 15.068 1.00 25.88 C +ATOM 4408 C LEU A1165 36.196 -21.237 16.477 1.00 29.96 C +ATOM 4409 O LEU A1165 36.632 -20.093 16.583 1.00 29.94 O +ATOM 4410 CB LEU A1165 34.400 -21.350 14.694 1.00 25.16 C +ATOM 4411 CG LEU A1165 34.097 -21.415 13.181 1.00 28.80 C +ATOM 4412 CD1 LEU A1165 32.576 -21.379 12.912 1.00 27.92 C +ATOM 4413 CD2 LEU A1165 34.872 -20.329 12.398 1.00 30.90 C +ATOM 4414 H LEU A1165 35.161 -23.723 14.787 1.00 26.62 H +ATOM 4415 HA LEU A1165 36.535 -21.249 14.383 1.00 25.88 H +ATOM 4416 HB3 LEU A1165 34.185 -20.338 15.040 1.00 25.16 H +ATOM 4417 HB2 LEU A1165 33.711 -21.996 15.240 1.00 25.16 H +ATOM 4418 HG LEU A1165 34.445 -22.380 12.813 1.00 28.80 H +ATOM 4419 HD11 LEU A1165 32.277 -20.564 12.255 1.00 27.92 H +ATOM 4420 HD12 LEU A1165 32.247 -22.306 12.441 1.00 27.92 H +ATOM 4421 HD13 LEU A1165 31.998 -21.269 13.830 1.00 27.92 H +ATOM 4422 HD21 LEU A1165 34.228 -19.714 11.772 1.00 30.90 H +ATOM 4423 HD22 LEU A1165 35.403 -19.645 13.060 1.00 30.90 H +ATOM 4424 HD23 LEU A1165 35.615 -20.784 11.743 1.00 30.90 H +ATOM 4425 N ILE A1166 36.017 -22.070 17.519 1.00 26.60 N +ATOM 4426 CA ILE A1166 36.301 -21.727 18.920 1.00 27.16 C +ATOM 4427 C ILE A1166 37.773 -21.322 19.200 1.00 33.11 C +ATOM 4428 O ILE A1166 37.960 -20.204 19.677 1.00 32.70 O +ATOM 4429 CB ILE A1166 35.830 -22.846 19.901 1.00 30.45 C +ATOM 4430 CG1 ILE A1166 34.292 -22.941 19.920 1.00 29.44 C +ATOM 4431 CG2 ILE A1166 36.333 -22.707 21.356 1.00 32.10 C +ATOM 4432 CD1 ILE A1166 33.769 -24.295 20.417 1.00 31.85 C +ATOM 4433 H ILE A1166 35.642 -22.993 17.353 1.00 26.60 H +ATOM 4434 HA ILE A1166 35.695 -20.844 19.135 1.00 27.16 H +ATOM 4435 HB ILE A1166 36.195 -23.796 19.514 1.00 30.45 H +ATOM 4436 HG13 ILE A1166 33.889 -22.761 18.929 1.00 29.44 H +ATOM 4437 HG12 ILE A1166 33.880 -22.138 20.527 1.00 29.44 H +ATOM 4438 HG21 ILE A1166 35.950 -23.509 21.987 1.00 32.10 H +ATOM 4439 HG22 ILE A1166 37.418 -22.752 21.430 1.00 32.10 H +ATOM 4440 HG23 ILE A1166 36.002 -21.763 21.788 1.00 32.10 H +ATOM 4441 HD11 ILE A1166 32.775 -24.479 20.018 1.00 31.85 H +ATOM 4442 HD12 ILE A1166 34.406 -25.120 20.103 1.00 31.85 H +ATOM 4443 HD13 ILE A1166 33.701 -24.327 21.503 1.00 31.85 H +ATOM 4444 N PRO A1167 38.789 -22.169 18.887 1.00 30.71 N +ATOM 4445 CA PRO A1167 40.204 -21.802 19.100 1.00 31.10 C +ATOM 4446 C PRO A1167 40.722 -20.663 18.202 1.00 34.55 C +ATOM 4447 O PRO A1167 41.631 -19.947 18.625 1.00 34.12 O +ATOM 4448 CB PRO A1167 40.973 -23.113 18.870 1.00 33.39 C +ATOM 4449 CG PRO A1167 40.087 -23.911 17.930 1.00 37.35 C +ATOM 4450 CD PRO A1167 38.687 -23.548 18.407 1.00 32.38 C +ATOM 4451 HA PRO A1167 40.345 -21.494 20.136 1.00 31.10 H +ATOM 4452 HB3 PRO A1167 41.072 -23.643 19.819 1.00 33.39 H +ATOM 4453 HB2 PRO A1167 41.979 -22.972 18.471 1.00 33.39 H +ATOM 4454 HG3 PRO A1167 40.284 -24.983 17.949 1.00 37.35 H +ATOM 4455 HG2 PRO A1167 40.229 -23.559 16.907 1.00 37.35 H +ATOM 4456 HD2 PRO A1167 37.963 -23.690 17.611 1.00 32.38 H +ATOM 4457 HD3 PRO A1167 38.408 -24.189 19.243 1.00 32.38 H +ATOM 4458 N ILE A1168 40.120 -20.491 17.011 1.00 30.68 N +ATOM 4459 CA ILE A1168 40.412 -19.390 16.093 1.00 29.75 C +ATOM 4460 C ILE A1168 39.901 -18.045 16.650 1.00 31.56 C +ATOM 4461 O ILE A1168 40.662 -17.080 16.655 1.00 30.78 O +ATOM 4462 CB ILE A1168 39.817 -19.638 14.672 1.00 32.31 C +ATOM 4463 CG1 ILE A1168 40.456 -20.886 14.016 1.00 32.46 C +ATOM 4464 CG2 ILE A1168 39.946 -18.428 13.717 1.00 33.30 C +ATOM 4465 CD1 ILE A1168 39.722 -21.377 12.757 1.00 35.01 C +ATOM 4466 H ILE A1168 39.386 -21.125 16.727 1.00 30.68 H +ATOM 4467 HA ILE A1168 41.497 -19.316 15.994 1.00 29.75 H +ATOM 4468 HB ILE A1168 38.753 -19.845 14.792 1.00 32.31 H +ATOM 4469 HG13 ILE A1168 40.495 -21.712 14.725 1.00 32.46 H +ATOM 4470 HG12 ILE A1168 41.495 -20.670 13.764 1.00 32.46 H +ATOM 4471 HG21 ILE A1168 39.559 -18.659 12.725 1.00 33.30 H +ATOM 4472 HG22 ILE A1168 39.388 -17.560 14.067 1.00 33.30 H +ATOM 4473 HG23 ILE A1168 40.988 -18.128 13.600 1.00 33.30 H +ATOM 4474 HD11 ILE A1168 39.867 -22.449 12.617 1.00 35.01 H +ATOM 4475 HD12 ILE A1168 38.648 -21.198 12.818 1.00 35.01 H +ATOM 4476 HD13 ILE A1168 40.095 -20.877 11.862 1.00 35.01 H +ATOM 4477 N LEU A1169 38.651 -18.018 17.146 1.00 28.08 N +ATOM 4478 CA LEU A1169 38.019 -16.841 17.750 1.00 27.77 C +ATOM 4479 C LEU A1169 38.588 -16.472 19.133 1.00 32.97 C +ATOM 4480 O LEU A1169 38.529 -15.295 19.482 1.00 33.61 O +ATOM 4481 CB LEU A1169 36.489 -17.032 17.795 1.00 27.38 C +ATOM 4482 CG LEU A1169 35.811 -16.856 16.417 1.00 31.51 C +ATOM 4483 CD1 LEU A1169 34.385 -17.432 16.418 1.00 31.42 C +ATOM 4484 CD2 LEU A1169 35.835 -15.386 15.940 1.00 34.02 C +ATOM 4485 H LEU A1169 38.079 -18.851 17.101 1.00 28.08 H +ATOM 4486 HA LEU A1169 38.227 -15.991 17.102 1.00 27.77 H +ATOM 4487 HB3 LEU A1169 36.039 -16.313 18.479 1.00 27.38 H +ATOM 4488 HB2 LEU A1169 36.271 -18.014 18.218 1.00 27.38 H +ATOM 4489 HG LEU A1169 36.375 -17.447 15.694 1.00 31.51 H +ATOM 4490 HD11 LEU A1169 34.177 -17.948 15.481 1.00 31.42 H +ATOM 4491 HD12 LEU A1169 34.234 -18.154 17.221 1.00 31.42 H +ATOM 4492 HD13 LEU A1169 33.629 -16.657 16.542 1.00 31.42 H +ATOM 4493 HD21 LEU A1169 34.871 -15.056 15.554 1.00 34.02 H +ATOM 4494 HD22 LEU A1169 36.112 -14.700 16.741 1.00 34.02 H +ATOM 4495 HD23 LEU A1169 36.562 -15.254 15.139 1.00 34.02 H +ATOM 4496 N LYS A1170 39.170 -17.441 19.863 1.00 29.87 N +ATOM 4497 CA LYS A1170 39.967 -17.210 21.074 1.00 30.29 C +ATOM 4498 C LYS A1170 41.272 -16.449 20.784 1.00 35.42 C +ATOM 4499 O LYS A1170 41.603 -15.526 21.527 1.00 35.73 O +ATOM 4500 CB LYS A1170 40.265 -18.553 21.776 1.00 32.61 C +ATOM 4501 CG LYS A1170 39.082 -19.101 22.586 1.00 38.34 C +ATOM 4502 CD LYS A1170 39.307 -20.530 23.099 1.00 43.06 C +ATOM 4503 CE LYS A1170 38.176 -20.994 24.033 1.00 46.06 C +ATOM 4504 NZ LYS A1170 38.329 -22.408 24.423 1.00 49.85 N1+ +ATOM 4505 H LYS A1170 39.135 -18.395 19.530 1.00 29.87 H +ATOM 4506 HA LYS A1170 39.375 -16.591 21.750 1.00 30.29 H +ATOM 4507 HB3 LYS A1170 41.097 -18.429 22.472 1.00 32.61 H +ATOM 4508 HB2 LYS A1170 40.599 -19.286 21.042 1.00 32.61 H +ATOM 4509 HG3 LYS A1170 38.175 -19.076 21.985 1.00 38.34 H +ATOM 4510 HG2 LYS A1170 38.904 -18.441 23.434 1.00 38.34 H +ATOM 4511 HD3 LYS A1170 40.266 -20.585 23.616 1.00 43.06 H +ATOM 4512 HD2 LYS A1170 39.379 -21.204 22.245 1.00 43.06 H +ATOM 4513 HE3 LYS A1170 37.208 -20.871 23.548 1.00 46.06 H +ATOM 4514 HE2 LYS A1170 38.155 -20.380 24.934 1.00 46.06 H +ATOM 4515 HZ1 LYS A1170 38.327 -22.993 23.599 1.00 49.85 H +ATOM 4516 HZ2 LYS A1170 39.200 -22.532 24.918 1.00 49.85 H +ATOM 4517 HZ3 LYS A1170 37.560 -22.674 25.023 1.00 49.85 H +ATOM 4518 N THR A1171 41.968 -16.837 19.701 1.00 32.16 N +ATOM 4519 CA THR A1171 43.217 -16.219 19.247 1.00 32.64 C +ATOM 4520 C THR A1171 42.993 -14.821 18.631 1.00 36.14 C +ATOM 4521 O THR A1171 43.787 -13.917 18.888 1.00 36.31 O +ATOM 4522 CB THR A1171 43.939 -17.110 18.200 1.00 41.67 C +ATOM 4523 OG1 THR A1171 44.192 -18.380 18.768 1.00 43.50 O +ATOM 4524 CG2 THR A1171 45.280 -16.562 17.675 1.00 40.99 C +ATOM 4525 H THR A1171 41.616 -17.596 19.135 1.00 32.16 H +ATOM 4526 HA THR A1171 43.873 -16.105 20.113 1.00 32.64 H +ATOM 4527 HB THR A1171 43.280 -17.274 17.346 1.00 41.67 H +ATOM 4528 HG1 THR A1171 43.354 -18.841 18.874 1.00 43.50 H +ATOM 4529 HG21 THR A1171 45.766 -17.286 17.020 1.00 40.99 H +ATOM 4530 HG22 THR A1171 45.152 -15.648 17.095 1.00 40.99 H +ATOM 4531 HG23 THR A1171 45.965 -16.346 18.495 1.00 40.99 H +ATOM 4532 N VAL A1172 41.898 -14.667 17.869 1.00 32.11 N +ATOM 4533 CA VAL A1172 41.454 -13.407 17.271 1.00 32.08 C +ATOM 4534 C VAL A1172 40.962 -12.394 18.328 1.00 36.68 C +ATOM 4535 O VAL A1172 41.291 -11.215 18.208 1.00 37.06 O +ATOM 4536 CB VAL A1172 40.375 -13.674 16.179 1.00 35.60 C +ATOM 4537 CG1 VAL A1172 39.461 -12.493 15.804 1.00 35.58 C +ATOM 4538 CG2 VAL A1172 41.025 -14.240 14.902 1.00 35.14 C +ATOM 4539 H VAL A1172 41.309 -15.470 17.686 1.00 32.11 H +ATOM 4540 HA VAL A1172 42.321 -12.959 16.781 1.00 32.08 H +ATOM 4541 HB VAL A1172 39.715 -14.450 16.561 1.00 35.60 H +ATOM 4542 HG11 VAL A1172 38.800 -12.761 14.980 1.00 35.58 H +ATOM 4543 HG12 VAL A1172 38.815 -12.213 16.636 1.00 35.58 H +ATOM 4544 HG13 VAL A1172 40.037 -11.620 15.500 1.00 35.58 H +ATOM 4545 HG21 VAL A1172 40.271 -14.533 14.170 1.00 35.14 H +ATOM 4546 HG22 VAL A1172 41.675 -13.502 14.430 1.00 35.14 H +ATOM 4547 HG23 VAL A1172 41.630 -15.121 15.113 1.00 35.14 H +ATOM 4548 N HIS A1173 40.258 -12.864 19.377 1.00 32.98 N +ATOM 4549 CA HIS A1173 39.888 -12.065 20.551 1.00 33.27 C +ATOM 4550 C HIS A1173 41.119 -11.524 21.307 1.00 38.24 C +ATOM 4551 O HIS A1173 41.130 -10.342 21.650 1.00 38.31 O +ATOM 4552 CB HIS A1173 38.962 -12.883 21.481 1.00 34.00 C +ATOM 4553 CG HIS A1173 38.688 -12.253 22.827 1.00 37.96 C +ATOM 4554 ND1 HIS A1173 37.940 -11.101 22.981 1.00 39.68 N +ATOM 4555 CD2 HIS A1173 39.105 -12.593 24.096 1.00 40.71 C +ATOM 4556 CE1 HIS A1173 37.939 -10.800 24.282 1.00 40.10 C +ATOM 4557 NE2 HIS A1173 38.626 -11.661 25.021 1.00 41.02 N +ATOM 4558 H HIS A1173 40.003 -13.842 19.410 1.00 32.98 H +ATOM 4559 HA HIS A1173 39.323 -11.200 20.197 1.00 33.27 H +ATOM 4560 HB3 HIS A1173 39.391 -13.869 21.661 1.00 34.00 H +ATOM 4561 HB2 HIS A1173 38.004 -13.053 20.988 1.00 34.00 H +ATOM 4562 HD1 HIS A1173 37.469 -10.583 22.251 1.00 39.68 H +ATOM 4563 HD2 HIS A1173 39.730 -13.416 24.409 1.00 40.71 H +ATOM 4564 HE1 HIS A1173 37.422 -9.944 24.690 1.00 40.10 H +ATOM 4565 N GLU A1174 42.131 -12.387 21.515 1.00 34.83 N +ATOM 4566 CA GLU A1174 43.432 -12.056 22.110 1.00 35.41 C +ATOM 4567 C GLU A1174 44.194 -10.959 21.345 1.00 38.58 C +ATOM 4568 O GLU A1174 44.801 -10.093 21.974 1.00 39.65 O +ATOM 4569 CB GLU A1174 44.291 -13.343 22.217 1.00 37.37 C +ATOM 4570 CG GLU A1174 44.361 -13.934 23.640 1.00 50.70 C +ATOM 4571 CD GLU A1174 45.229 -13.151 24.644 1.00 77.21 C +ATOM 4572 OE1 GLU A1174 45.993 -12.251 24.230 1.00 71.31 O +ATOM 4573 OE2 GLU A1174 45.098 -13.462 25.848 1.00 74.36 O1- +ATOM 4574 H GLU A1174 42.022 -13.347 21.216 1.00 34.83 H +ATOM 4575 HA GLU A1174 43.236 -11.676 23.112 1.00 35.41 H +ATOM 4576 HB3 GLU A1174 45.303 -13.184 21.840 1.00 37.37 H +ATOM 4577 HB2 GLU A1174 43.885 -14.112 21.563 1.00 37.37 H +ATOM 4578 HG3 GLU A1174 44.768 -14.944 23.579 1.00 50.70 H +ATOM 4579 HG2 GLU A1174 43.350 -14.041 24.038 1.00 50.70 H +ATOM 4580 N LYS A1175 44.131 -11.017 20.007 1.00 33.50 N +ATOM 4581 CA LYS A1175 44.793 -10.098 19.085 1.00 33.32 C +ATOM 4582 C LYS A1175 44.214 -8.668 19.078 1.00 38.24 C +ATOM 4583 O LYS A1175 44.980 -7.736 18.836 1.00 39.07 O +ATOM 4584 CB LYS A1175 44.822 -10.782 17.699 1.00 34.67 C +ATOM 4585 CG LYS A1175 45.243 -9.916 16.501 1.00 43.21 C +ATOM 4586 CD LYS A1175 45.652 -10.781 15.294 1.00 53.23 C +ATOM 4587 CE LYS A1175 45.605 -10.077 13.928 1.00 67.06 C +ATOM 4588 NZ LYS A1175 46.358 -8.811 13.892 1.00 78.75 N1+ +ATOM 4589 H LYS A1175 43.607 -11.766 19.578 1.00 33.50 H +ATOM 4590 HA LYS A1175 45.829 -10.010 19.418 1.00 33.32 H +ATOM 4591 HB3 LYS A1175 43.839 -11.192 17.471 1.00 34.67 H +ATOM 4592 HB2 LYS A1175 45.489 -11.643 17.767 1.00 34.67 H +ATOM 4593 HG3 LYS A1175 46.074 -9.269 16.783 1.00 43.21 H +ATOM 4594 HG2 LYS A1175 44.414 -9.262 16.225 1.00 43.21 H +ATOM 4595 HD3 LYS A1175 45.012 -11.664 15.245 1.00 53.23 H +ATOM 4596 HD2 LYS A1175 46.660 -11.164 15.461 1.00 53.23 H +ATOM 4597 HE3 LYS A1175 44.571 -9.884 13.650 1.00 67.06 H +ATOM 4598 HE2 LYS A1175 46.016 -10.741 13.168 1.00 67.06 H +ATOM 4599 HZ1 LYS A1175 47.326 -8.987 14.118 1.00 78.75 H +ATOM 4600 HZ2 LYS A1175 46.293 -8.411 12.967 1.00 78.75 H +ATOM 4601 HZ3 LYS A1175 45.963 -8.169 14.565 1.00 78.75 H +ATOM 4602 N TYR A1176 42.905 -8.515 19.350 1.00 33.65 N +ATOM 4603 CA TYR A1176 42.205 -7.225 19.295 1.00 33.50 C +ATOM 4604 C TYR A1176 41.795 -6.665 20.670 1.00 37.78 C +ATOM 4605 O TYR A1176 41.328 -5.525 20.705 1.00 38.99 O +ATOM 4606 CB TYR A1176 41.013 -7.326 18.314 1.00 33.91 C +ATOM 4607 CG TYR A1176 41.438 -7.524 16.864 1.00 34.61 C +ATOM 4608 CD1 TYR A1176 42.173 -6.518 16.201 1.00 36.40 C +ATOM 4609 CD2 TYR A1176 41.129 -8.717 16.180 1.00 34.81 C +ATOM 4610 CE1 TYR A1176 42.622 -6.720 14.881 1.00 35.91 C +ATOM 4611 CE2 TYR A1176 41.579 -8.923 14.862 1.00 35.43 C +ATOM 4612 CZ TYR A1176 42.335 -7.927 14.215 1.00 42.28 C +ATOM 4613 OH TYR A1176 42.790 -8.130 12.946 1.00 45.11 O +ATOM 4614 H TYR A1176 42.338 -9.329 19.542 1.00 33.65 H +ATOM 4615 HA TYR A1176 42.878 -6.464 18.896 1.00 33.50 H +ATOM 4616 HB3 TYR A1176 40.419 -6.411 18.344 1.00 33.91 H +ATOM 4617 HB2 TYR A1176 40.341 -8.130 18.619 1.00 33.91 H +ATOM 4618 HD1 TYR A1176 42.409 -5.594 16.708 1.00 36.40 H +ATOM 4619 HD2 TYR A1176 40.552 -9.485 16.664 1.00 34.81 H +ATOM 4620 HE1 TYR A1176 43.195 -5.950 14.385 1.00 35.91 H +ATOM 4621 HE2 TYR A1176 41.348 -9.848 14.355 1.00 35.43 H +ATOM 4622 HH TYR A1176 42.520 -8.975 12.579 1.00 45.11 H +ATOM 4623 N ARG A1177 42.002 -7.413 21.772 1.00 33.26 N +ATOM 4624 CA ARG A1177 41.829 -6.905 23.142 1.00 52.85 C +ATOM 4625 C ARG A1177 43.060 -6.105 23.619 1.00 83.27 C +ATOM 4626 O ARG A1177 44.104 -6.119 22.964 1.00 47.49 O +ATOM 4627 CB ARG A1177 41.459 -8.061 24.108 1.00 52.21 C +ATOM 4628 CG ARG A1177 42.627 -8.948 24.578 1.00 63.37 C +ATOM 4629 CD ARG A1177 42.231 -9.936 25.687 1.00 75.93 C +ATOM 4630 NE ARG A1177 43.418 -10.552 26.305 1.00 87.25 N +ATOM 4631 CZ ARG A1177 44.249 -10.004 27.215 1.00103.10 C +ATOM 4632 NH1 ARG A1177 44.047 -8.785 27.738 1.00 90.77 N +ATOM 4633 NH2 ARG A1177 45.320 -10.704 27.603 1.00 90.67 N1+ +ATOM 4634 H ARG A1177 42.382 -8.345 21.682 1.00 33.26 H +ATOM 4635 HA ARG A1177 40.983 -6.216 23.139 1.00 52.85 H +ATOM 4636 HB3 ARG A1177 40.669 -8.677 23.676 1.00 52.21 H +ATOM 4637 HB2 ARG A1177 41.013 -7.612 24.996 1.00 52.21 H +ATOM 4638 HG3 ARG A1177 43.517 -8.390 24.866 1.00 63.37 H +ATOM 4639 HG2 ARG A1177 42.916 -9.520 23.700 1.00 63.37 H +ATOM 4640 HD3 ARG A1177 41.720 -10.777 25.216 1.00 75.93 H +ATOM 4641 HD2 ARG A1177 41.529 -9.520 26.409 1.00 75.93 H +ATOM 4642 HE ARG A1177 43.680 -11.459 25.937 1.00 87.25 H +ATOM 4643 HH12 ARG A1177 44.699 -8.404 28.407 1.00 90.77 H +ATOM 4644 HH11 ARG A1177 43.249 -8.239 27.450 1.00 90.77 H +ATOM 4645 HH22 ARG A1177 45.988 -10.319 28.260 1.00 90.67 H +ATOM 4646 HH21 ARG A1177 45.499 -11.613 27.192 1.00 90.67 H +ATOM 4647 N NMA A1177A 42.916 -5.458 24.785 1.00 0.00 N +ATOM 4648 CA NMA A1177A 43.997 -4.727 25.431 1.00 0.00 C +ATOM 4649 H NMA A1177A 42.028 -5.484 25.263 1.00 0.00 H +ATOM 4650 1HA NMA A1177A 44.110 -3.740 24.982 1.00 0.00 H +ATOM 4651 2HA NMA A1177A 43.775 -4.596 26.490 1.00 0.00 H +ATOM 4652 3HA NMA A1177A 44.948 -5.256 25.350 1.00 0.00 H +TER 4653 NMA A1177A +CONECT 1 4 5 6 +CONECT 4 1 +CONECT 5 1 +CONECT 6 1 +CONECT 4625 4647 +CONECT 4647 4625 +END diff --git a/examples/RSFE/TYK2-JAK2/scripts/analyze.sh b/examples/RSFE/TYK2-JAK2/scripts/analyze.sh new file mode 100755 index 0000000..4901cd1 --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/scripts/analyze.sh @@ -0,0 +1,40 @@ +#!/bin/bash + +#usage: +# +# analyze.sh [ discard_low ] [ discard_high ] +# + + +many=1000000 + +if [ $# -eq 0 ] +then + discard_samples_low=0 + discard_samples_high=$many +else + if [ $# -eq 1 ] + then + discard_samples_low=$1 + discard_samples_high=$many + else + discard_samples_low=$1 + discard_samples_high=$2 + fi +fi + + +rm -f result.log Rplots.pdf p-*.dat || exit 1 + +#get the jobname from the name of the current folder +jobname=$(basename $PWD) + +if [ -f r0/${jobname}.out ] ; then + + R CMD BATCH -${jobname} -${discard_samples_low} -${discard_samples_high} uwham_analysis.R || exit 1 + res=`grep -e '^DDGb =' uwham_analysis.Rout` || exit 1 + + echo ${res} +else + echo "One or more replica directories are missing" +fi diff --git a/examples/RSFE/TYK2-JAK2/scripts/asyncre_template.cntl b/examples/RSFE/TYK2-JAK2/scripts/asyncre_template.cntl new file mode 100644 index 0000000..68c14bc --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/scripts/asyncre_template.cntl @@ -0,0 +1,50 @@ +JOB_TRANSPORT = 'LOCAL_OPENMM' +BASENAME = '' +RE_SETUP = 'YES' +#Arrays of thermodynamic states in temperature and alchemical space. +TEMPERATURES = '300' +LAMBDAS = '0.00, 0.05, 0.10, 0.15, 0.20, 0.25, 0.30, 0.35, 0.40, 0.45, 0.50, 0.50, 0.55, 0.60, 0.65, 0.70, 0.75, 0.80, 0.85, 0.90, 0.95, 1.00' +DIRECTION= ' 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1' +INTERMEDIATE=' 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0' +LAMBDA1 = "0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.10, 0.20, 0.30, 0.40, 0.50, 0.50, 0.40, 0.30, 0.20, 0.10, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00" +LAMBDA2 = "0.00, 0.10, 0.20, 0.30, 0.40, 0.50, 0.50, 0.50, 0.50, 0.50, 0.50, 0.50, 0.50, 0.50, 0.50, 0.50, 0.50, 0.40, 0.30, 0.20, 0.10, 0.00" +ALPHA = "0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10" +U0 = "110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110." +W0COEFF = " 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0" +DISPLACEMENT = ' , , ' +WALL_TIME = 1440 +MAX_SAMPLES = 300 +CYCLE_TIME = 10 +CHECKPOINT_TIME = 1200 +NODEFILE = 'nodefile' +SUBJOBS_BUFFER_SIZE = '1.000000' +PRODUCTION_STEPS = '20000' +PRNT_FREQUENCY = '20000' +TRJ_FREQUENCY = '20000' +LIGAND1_ATOMS = +LIGAND2_ATOMS = +LIGAND1_CM_ATOMS = +LIGAND2_CM_ATOMS = +DISPL0_LIG1 = ' 0.0, 0.0, 0.0 ' +DISPL0_LIG2 = ' 0.0, 0.0, 0.0 ' +DISPL1_LIG1 = ' , , ' +DISPL1_LIG2 = ' , -, ' +RCPT_CM_ATOMS = +CM_KF = 0.0 +CM_TOL = 10.0 +POS_RESTRAINED_ATOMS = +POSRE_FORCE_CONSTANT = 25.0 +POSRE_TOLERANCE = 1.5 +ALIGN_LIGAND1_REF_ATOMS = +ALIGN_LIGAND2_REF_ATOMS = +ALIGN_KF_SEP = 0.0 +ALIGN_K_THETA = 0.0 +ALIGN_K_PSI = 0.0 +UMAX = 200.00 +ACORE = 0.062500 +UBCORE = 100.0 +FRICTION_COEFF = 0.500000 +HMASS = 1.5 +TIME_STEP = 0.004 +OPENMM_PLATFORM = CUDA +VERBOSE = 'no' diff --git a/examples/RSFE/TYK2-JAK2/scripts/create_cntlfile_from_template_rbfe.py b/examples/RSFE/TYK2-JAK2/scripts/create_cntlfile_from_template_rbfe.py new file mode 100644 index 0000000..a322e86 --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/scripts/create_cntlfile_from_template_rbfe.py @@ -0,0 +1,115 @@ +# Usage: python create_cntlfile_from_template.py +# Emilio Gallicchio, 6/2023 + +import os, sys, fileinput +import numpy as np +from time import time + +# following for argument passing tools +import argparse + +# OpenMM components +from openmm.app import PDBFile, Topology + +parser = argparse.ArgumentParser() + +# Required input +parser.add_argument('--systemPDBFile', required=True, type=str, default=None, + help='Name of the PDB file with the system') +parser.add_argument('--displacement', required=True, type=str, default=None, + help='string with displacement vector in angstroms like "22. 0.0 0.0" ') +parser.add_argument('--templatein', required=True, type=str, default=None, + help='Template cntl file') +parser.add_argument('--jobname', required=True, type=str, default=None, + help='Job name') +parser.add_argument('--lig1resname', required=True, type=str, default=None, + help='Residue name of ligand 1') +parser.add_argument('--lig2resname', required=True, type=str, default=None, + help='Residue name of ligand 1') +parser.add_argument('--lig1refatoms', required=True, type=str, default=None, + help='Reference atoms of ligand 1') +parser.add_argument('--lig2refatoms', required=True, type=str, default=None, + help='Reference atoms of ligand 2') +parser.add_argument('--vsiteResidues', required=True, type=str, default=None, + help='Job name') +parser.add_argument('--cntlfileout', required=True, type=str, default=None, + help='Output control file') + +args = vars(parser.parse_args()) + +def list_to_string(alist, separator=""): + return separator.join(map(str, alist)) + +# Pull data from command line into local variables +pdbfile = args['systemPDBFile'] +displ = [float(r) for r in args['displacement'].split()] +templatefile = args['templatein'] +jobname = args['jobname'] +lig1resname = args['lig1resname'] +lig2resname = args['lig2resname'] +lig1refatoms = [int(i)-1 for i in args['lig1refatoms'].split(',')] +lig2refatoms = [int(i)-1 for i in args['lig2refatoms'].split(',')] +vsiteresids = [r for r in args['vsiteResidues'].split()] +cntlfile = args['cntlfileout'] + + +#reads the topology +pdb = PDBFile(pdbfile ) +positions = pdb.positions +ommtopology = pdb.topology + +#list of restrained atoms (Calpha atoms) +restr_atoms = [] +for atom in ommtopology.atoms(): + if atom.name == "CA": + restr_atoms.append(atom.index) +print("Positionally restrained atoms:", restr_atoms) + +#list of vsite atoms (Calpha atoms of selected residues) +vsite_atoms = [] +for residue in ommtopology.residues(): + if residue.id in vsiteresids: + for atom in residue.atoms(): + if atom.name == "CA": + vsite_atoms.append(atom.index) +print("VSite atoms:", vsite_atoms) + +#list of ligand atoms +lig1_atoms = [] +for residue in ommtopology.residues(): + if residue.name == lig1resname: + for atom in residue.atoms(): + lig1_atoms.append(atom.index) + break #reads the first match only +print("Lig1 atoms:", lig1_atoms) + +lig2_atoms = [] +for residue in ommtopology.residues(): + if residue.name == lig2resname: + for atom in residue.atoms(): + #sometimes lig1 and lig2 have the same residue name + if not atom.index in lig1_atoms: + lig2_atoms.append(atom.index) +print("Lig2 atoms:", lig2_atoms) + +#use the first reference atom as the CM +lig1cm = lig1_atoms[lig1refatoms[0]] +lig2cm = lig2_atoms[lig2refatoms[0]] + + + +with open(cntlfile, 'w') as outf: + for l in fileinput.input(files = templatefile): + l = l.replace('', jobname) + l = l.replace('', str(displ[0])) + l = l.replace('', str(displ[1])) + l = l.replace('', str(displ[2])) + l = l.replace('', list_to_string(lig1_atoms, ", ")) + l = l.replace('', list_to_string(lig2_atoms, ', ')) + l = l.replace('', str(str(lig1cm) + ",")) + l = l.replace('', str(lig2cm) + ',') + l = l.replace('', list_to_string(lig1refatoms, ", ")) + l = l.replace('', list_to_string(lig2refatoms, ", ")) + l = l.replace('', list_to_string(vsite_atoms, ", ")) + l = l.replace('', list_to_string(restr_atoms, ", ")) + outf.write(l) diff --git a/examples/RSFE/TYK2-JAK2/scripts/free_energies_template.sh b/examples/RSFE/TYK2-JAK2/scripts/free_energies_template.sh new file mode 100644 index 0000000..a11b4e1 --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/scripts/free_energies_template.sh @@ -0,0 +1,5 @@ +#!/bin/bash + +for pair in ; do + ( cd -${pair} && res=`./analyze.sh 20` && echo "$pair $res") +done diff --git a/examples/RSFE/TYK2-JAK2/scripts/nodefile b/examples/RSFE/TYK2-JAK2/scripts/nodefile new file mode 100644 index 0000000..f1f8b07 --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/scripts/nodefile @@ -0,0 +1 @@ +localhost,0:0,1,OpenCL,,/tmp diff --git a/examples/RSFE/TYK2-JAK2/scripts/prep_template.sh b/examples/RSFE/TYK2-JAK2/scripts/prep_template.sh new file mode 100644 index 0000000..980cc03 --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/scripts/prep_template.sh @@ -0,0 +1,18 @@ +#!/bin/bash +# +#SBATCH -J atmbn-prep +#SBATCH --partition=any +#SBATCH --nodes=1 +#SBATCH --ntasks-per-node=1 +#SBATCH --gres=gpu:1 +#SBATCH --cpus-per-task=2 +#SBATCH --no-requeue +#SBATCH -t 12:00:00 + +. /nfs/sazimi-d/miniforge3/bin/activate atm8.2.0 + +for pair in ; do + jobname=-$pair + echo "Prepping $jobname" + ( cd ${jobname} && python /rbfe_structprep.py ${jobname}_asyncre.cntl ) || exit 1 +done diff --git a/examples/RSFE/TYK2-JAK2/scripts/run_template.sh b/examples/RSFE/TYK2-JAK2/scripts/run_template.sh new file mode 100644 index 0000000..c05c2f0 --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/scripts/run_template.sh @@ -0,0 +1,23 @@ +#!/bin/bash +# +#SBATCH -J +#SBATCH --partition=any +#SBATCH --nodes=1 +#SBATCH --ntasks-per-node=1 +#SBATCH --gres=gpu:1 +#SBATCH --cpus-per-task=2 +#SBATCH --no-requeue +#SBATCH -t 24:00:00 + +jobname= + +. /nfs/sazimi-d/miniforge3/bin/activate atm8.2.0 + +echo "Running on $(hostname)" + +if [ ! -f ${jobname}_0.xml ]; then + python /rbfe_structprep.py ${jobname}_asyncre.cntl || exit 1 +fi + +echo "localhost,0:0,1,CUDA,,/tmp" > nodefile +python /rbfe_explicit.py ${jobname}_asyncre.cntl diff --git a/examples/RSFE/TYK2-JAK2/scripts/setup-atm.sh b/examples/RSFE/TYK2-JAK2/scripts/setup-atm.sh new file mode 100644 index 0000000..7585066 --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/scripts/setup-atm.sh @@ -0,0 +1,89 @@ +#!/bin/bash + +#load settings +work_dir=$(pwd) +scripts_dir=${work_dir}/scripts +. ${scripts_dir}/setup-settings.sh + +cd ${work_dir} || exit 1 + + + +#process each ligand pair +npairs=${#ligands[@]} +n=$(expr ${#ligands[@]} - 1) +for l in `seq 0 $n` ; do + + #return to main work directory for each ligand pair + cd ${work_dir} || exit 1 + + #ligands in ligand pair + ligpair=${ligands[$l]} + read -ra ligs <<< $ligpair + lig1=${ligs[0]} + lig2=${ligs[1]} + + echo "Processing ligand pair $lig1 $lig2 ..." + + #append to list of ligand pairs + if [ -z "$ligpreppairs" ] ; then + ligpreppairs="${lig1}-${lig2}" + else + ligpreppairs="${ligpreppairs} ${lig1}-${lig2}" + fi + + #creates system in complexes folder + jobname=${basename}-${lig1}-${lig2} + mkdir -p ${work_dir}/complexes/${jobname} || exit 1 + cd ${work_dir}/complexes/${jobname} || exit 1 + + #files of receptor and ligands + rcpt1pdb=${work_dir}/receptor/${receptor1}.pdb + rcpt2pdb=${work_dir}/receptor/${receptor2}.pdb + lig1sdf=${work_dir}/ligands/${lig1}.sdf + lig2sdf=${work_dir}/ligands/${lig2}.sdf + + #creates simulation system + displs="" + for d in ${displacement[@]}; do + displs="$displs $d" + done + echo "Displacement vector: $displs" + + python $AToM_dir/make_atm_system_from_rcpt_lig.py --receptorinFile "${rcpt1pdb}" --receptor2inFile "${rcpt2pdb}" --LIG1SDFinFile "${lig1sdf}" --LIG2SDFinFile "${lig2sdf}" --displacement "${displs}" --systemXMLoutFile "${jobname}_sys.xml" --systemPDBoutFile "${jobname}.pdb" --hmass 1.5 --forcefieldJSONCachefile "${work_dir}/ligands/ffdb.json" || exit 1 + + #residue ligand names + lig1resname=L1 + lig2resname=L2 + + + #ligand alignment reference atoms + refpair=${ref_atoms[$l]} + read -ra ref <<< $refpair + ref_atoms1a="${ref[0]}" + ref_atoms2a="${ref[1]}" + + #vsite residues + vres=${vsite_rcpt_residues[@]} + + echo "python $scripts_dir/create_cntlfile_from_template_rbfe.py --systemPDBFile "${jobname}.pdb" --templatein ${work_dir}/scripts/asyncre_template.cntl --jobname "${jobname}" --displacement "${displs}" --lig1resname "${lig1resname}" --lig1refatoms "${ref_atoms1a}" --lig2resname "${lig2resname}" --lig2refatoms "${ref_atoms2a}" --vsiteResidues "${vres}" --cntlfileout ${jobname}_asyncre.cntl " + + python $scripts_dir/create_cntlfile_from_template_rbfe.py --systemPDBFile "${jobname}.pdb" --templatein ${work_dir}/scripts/asyncre_template.cntl --jobname "${jobname}" --displacement "${displs}" --lig1resname "${lig1resname}" --lig1refatoms "${ref_atoms1a}" --lig2resname "${lig2resname}" --lig2refatoms "${ref_atoms2a}" --vsiteResidues "${vres}" --cntlfileout ${jobname}_asyncre.cntl || exit 1 + + sed "s##${jobname}#g;s##${AToM_dir}#g" < ${work_dir}/scripts/run_template.sh > ${work_dir}/complexes/${jobname}/run.sh + + cp ${work_dir}/scripts/analyze.sh ${work_dir}/scripts/uwham_analysis.R ${work_dir}/complexes/${jobname}/ + + + # copy nodefile, slurm files, etc + sed "s##${jobname}#g;s##${AToM_dir}#g" < ${work_dir}/scripts/run_template.sh > ${work_dir}/complexes/${jobname}/run.sh + + cp ${work_dir}/scripts/analyze.sh ${work_dir}/scripts/uwham_analysis.R ${work_dir}/complexes/${jobname}/ + +done + +#prepare prep script +sed "s##${basename}# ; s##${ligpreppairs}# ; s##${AToM_dir}#g " < ${work_dir}/scripts/prep_template.sh > ${work_dir}/complexes/prep.sh + +#prepare free energy calculation script +sed "s##${basename}# ; s##${ligpreppairs}# " < ${work_dir}/scripts/free_energies_template.sh > ${work_dir}/complexes/free_energies.sh diff --git a/examples/RSFE/TYK2-JAK2/scripts/setup-settings.sh b/examples/RSFE/TYK2-JAK2/scripts/setup-settings.sh new file mode 100644 index 0000000..f229ca7 --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/scripts/setup-settings.sh @@ -0,0 +1,25 @@ + +#basename for jobs +basename=TYK2-JAK2 + +#path to AToM +AToM_dir=/nfs/sazimi-d/Dropbox/AToM-OpenMM/AToM-OpenMM + +#Maestro-prepared receptor pdb files +receptor1=TYK2 +receptor2=JAK2 + +#ligand pairs (.sdf format expected) +#with their reference alignment atoms +ligands=("c46 c23" + "c23 c46") + +ref_atoms=("5,12,2 15,1,7" + "15,1,7 5,12,2") + +#displacement vector +displacement=("0.0" "70.0" "0.0") + +#residue ids of the receptor that define the center of the binding site +vsite_rcpt_residues=(892) + diff --git a/examples/RSFE/TYK2-JAK2/scripts/uwham_analysis.R b/examples/RSFE/TYK2-JAK2/scripts/uwham_analysis.R new file mode 100644 index 0000000..11cacd5 --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/scripts/uwham_analysis.R @@ -0,0 +1,289 @@ +# cat r*/*.out > data +# R CMD BATCH uwham_analysis.R + +#.libPaths("/home/emilio/R/x86_64-pc-linux-gnu-library/3.0/") +library("UWHAM") + +bias.fcn <- function(epert, lam1, lam2, alpha, u0, w0){ +# This is for the bias ilogistic potential +# (lambda2-lambda1) ln[1+exp(-alpha (u-u0))]/alpha + lambda2 u + w0 + ebias1 <- 0*epert + if (alpha > 0) { + ee <- 1 + exp(-alpha*(epert-u0)) + ebias1 <- (lam2 - lam1)*log(ee)/alpha + } + ebias1 + lam2*epert + w0 +} + +dbias.fcn <- function(epert, lam1, lam2, alpha, u0, w0){ +# This is the derivative of the bias ilogistic potential +# (lambda2-lambda1)/(1+exp(-alpha (u-u0))) + lambda2 + ee <- 1. + exp(-alpha*(epert-u0)) + (lam2 - lam1)/ee + lam1 +} + + +npot.fcn <- function(e0,epert, bet, lam1, lam2, alpha, u0, w0){ +# This is the negative reduced energy +# -beta*(U0+bias) + -bet*(e0 + bias.fcn(epert, lam1, lam2, alpha, u0, w0)) +} + +uwham.r <- function(label,logQ,ufactormax,ufactormin=1){ + n <- dim(logQ)[1] + m <- dim(logQ)[2] + iniz <- array(0,dim=m) + uf <- ufactormax + while(uf >= ufactormin & uf >= 1){ + mask <- seq(1,n,trunc(uf)) + out <- uwham(label=label[mask], logQ=neg.pot[mask,],init=iniz) + show(uf) + iniz <- out$ze + uf <- uf/2 + } + out$mask <- mask + out +} + +histw <- +function (x, w, xaxis, xmin, xmax, ymax, bar = TRUE, add = FALSE, + col = "black", dens = TRUE) +{ + nbin <- length(xaxis) + xbin <- cut(x, breaks = xaxis, include.lowest = T, labels = 1:(nbin - 1)) + y <- tapply(w, xbin, sum) + y[is.na(y)] <- 0 + y <- y/sum(w) + if (dens) + y <- y/(xaxis[-1] - xaxis[-nbin]) + if (!add) { + plot.new() + plot.window(xlim = c(xmin, xmax), ylim = c(0, ymax)) + axis(1, pos = 0) + axis(2, pos = xmin) + } + if (bar == 1) { + rect(xaxis[-nbin], 0, xaxis[-1], y) + } + else { + xval <- as.vector(rbind(xaxis[-nbin], xaxis[-1])) + yval <- as.vector(rbind(y, y)) + lines(c(min(xmin, xaxis[1]), xval, max(xmax, xaxis[length(xaxis)])), + c(0, yval, 0), lty = "11", lwd = 2, col = col) + } + invisible() + list(y = y, breaks = xaxis) +} + +args <- commandArgs(trailingOnly = F) +jobname <- sub("-","",args[length(args)-2]) +mintimeid <- strtoi(sub("-","",args[length(args)-1])) +maxtimeid <- strtoi(sub("-","",args[length(args) ])) + +mintimeid +maxtimeid + +#define states +tempt <- c( 300 ) +bet <- 1.0/(0.001986209*tempt) +directn <-c( 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1 ) +intermd <-c( 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 ) +lambda1 <-c(0.00, 0.00, 0.00, 0.00, 0.00, 0.00, 0.10, 0.20, 0.30, 0.40, 0.50, 0.50, 0.40, 0.30, 0.20, 0.10, 0.00, 0.00, 0.00, 0.00, 0.00, 0.00 ) +lambda2 <-c(0.00, 0.10, 0.20, 0.30, 0.40, 0.50, 0.50, 0.50, 0.50, 0.50, 0.50, 0.50, 0.50, 0.50, 0.50, 0.50, 0.50, 0.40, 0.30, 0.20, 0.10, 0.00 ) +alpha <-c(0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10, 0.10 ) +u0 <-c(110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110., 110. ) +w0 <-c( 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0 ) + +nstates <- length(lambda1) +leg1istate <- which(intermd==1)[1] +leg2istate <- which(intermd==1)[2] + +colnames <- c("stateid", "temperature", "direction", "lambda1", "lambda2", "alpha", "u0", "w0", "potE", "pertE") +datafiles <- sprintf("r%d/%s.out",seq(0,length(lambda1)-1),jobname) +nfiles <- length(datafiles) +data <- read.table(datafiles[1]) +colnames(data) <- colnames +data$timeid <- 1:length(data$stateid) +for ( i in 2:nfiles) { + t <- read.table(datafiles[i]) + colnames(t) <- colnames + t$timeid <- 1:length(t$stateid) + data <- rbind(data,t) +} +data$bet <- 1.0/(0.001986209*data$temperature) +nsamples <- length(data$stateid) +samplesperreplica <- as.integer(nsamples/nstates) + + +#LEG1 + +data1 <- subset(data, stateid <= leg1istate - 1 & timeid >= mintimeid & timeid <= maxtimeid ) +mtempt <- length(bet) +leg1stateids <- 1:leg1istate +leg1stateids +mlam <- length(leg1stateids) +mlam +m <- mlam*mtempt +N <- length(data1$stateid) + +#extract U0 values as U-bias +#this is relevant only if the states are at different temperatures +e0 <- data1$potE +for (i in 1:N) { + e0[i] <- e0[i] - bias.fcn(data1$pertE[i],data1$lambda1[i],data1$lambda2[i],data1$alpha[i],data1$u0[i],data1$w0[i]) +} + +neg.pot <- matrix(0, N,m) +sid <- 1 +# note the order of (be,te) +for (be in leg1stateids ) { + for (te in 1:mtempt) { + neg.pot[,sid] <- npot.fcn(e0=e0,data1$pertE,bet[te],lambda1[be],lambda2[be],alpha[be],u0[be],w0[be]) + sid <- sid + 1 + } +} + +#the alchemical state indexes start with 0, UWHAM's state labels start with 1 +statelabels <- data1$stateid + 1 + +#runs UWHAM +out <- uwham.r(label=statelabels, logQ=neg.pot,ufactormax=1,ufactormin=1) +ze <- matrix(out$ze, nrow=mtempt, ncol=mlam) +-ze/bet +ve <- matrix(out$ve, nrow=mtempt, ncol=mlam) +sqrt(ve)/bet + +dgbind1 <- (-ze[,mlam]/bet[]) - (-ze[,1]/bet[]) +ddgbind1 <- sqrt(ve[,mlam]+ve[,1])/bet + +dgbind1 +ddgbind1 + + +#estimate p0(u) lambda0 for leg 1 +#uses a gaussian kernel estimator for each sample: g(u-uj) +#p0(u) = sum_j W0(j) g(u-uj) +#dp0(u)/du = (-1/sigma^2) sum_j W0(j) (u-uj) g(u-uj) +#and lambda0(u) = kbT d ln p0(u)/du = kbT (dp0(u)/du)/(p0(u)) +ux <- seq(from = -20, to = 180, by = 5) +sigma <- 3.0 +norm <- 1./sqrt(2.*pi*sigma**2) +sigma2 <- sigma**2 +gg <- function(x, y, norm, s2){ norm*exp(-(x-y)**2/(2.*s2)) } +#matrix of M rows (u grid points) and N columns (samples) +gm <- outer(ux, data1$pertE, FUN = gg, norm, sigma2) +#this gives a column vector of p0(u) values for each u grid point +p0 <- gm %*% (out$W[,1]/N) +#do the same for derivative +ggd <- function(x, y, norm, s2){ ((y-x)/s2)*norm*exp(-(x-y)**2/(2.*s2)) } +gm <- outer(ux, data1$pertE, FUN = ggd, norm, sigma2) +dp0 <- gm %*% (out$W[,1]/N) +plot(ux, log(p0), type = "l") +plot(ux, (dp0/p0)/bet, type="l") +dbf1 <- dbias.fcn(ux, 0., 0.4, 0.1, 105., 0.) +dbf2 <- dbias.fcn(ux, 0., 0.5, 0.1, 100., 0.) +lines(ux, dbf1) +lines(ux, dbf2) + + + +#get plain be histograms at first temperature +umin <- min(data1$pertE) +umax <- max(data1$pertE) +hs <- hist(data1$pertE[ data1$stateid == mlam-1 ],plot=FALSE,breaks=10); +pmax = 1.2*max(hs$density) +plot(hs$mids,hs$density,type="l",xlim=c(umin,umax),ylim=c(0,pmax)); +for ( i in 1:mlam ){ + hs <- hist(data1$pertE[ data1$stateid == i-1 ],plot=FALSE,breaks=10); + lines(hs$mids,hs$density); + outp <- cbind(hs$mids,hs$density); + write(t(outp),file=sprintf("p-%d.dat",i-1),ncol=2) +} + + + + +#LEG2 + +data1 <- subset(data, stateid >= leg2istate - 1 & timeid >= mintimeid & timeid <= maxtimeid ) +mtempt <- length(bet) +leg2stateids <- seq(from=nstates, to=leg2istate, by=-1) +leg2stateids +mlam <- length(leg2stateids ) +mlam +m <- mlam*mtempt +N <- length(data1$stateid) + +#extract U0 values as U-bias +#this is relevant only if the states are at different temperatures +e0 <- data1$potE +for (i in 1:N) { + e0[i] <- e0[i] - bias.fcn(data1$pertE[i],data1$lambda1[i],data1$lambda2[i],data1$alpha[i],data1$u0[i],data1$w0[i]) +} + +neg.pot <- matrix(0, N,m) +sid <- 1 +# note the order of (be,te) +for (be in leg2stateids ) { + for (te in 1:mtempt) { + neg.pot[,sid] <- npot.fcn(e0=e0,data1$pertE,bet[te],lambda1[be],lambda2[be],alpha[be],u0[be],w0[be]) + sid <- sid + 1 + } +} + +#the alchemical state indexes in leg2 run backward +statelabels <- nstates - data1$stateid + +#runs UWHAM +out <- uwham.r(label=statelabels, logQ=neg.pot,ufactormax=1,ufactormin=1) +ze <- matrix(out$ze, nrow=mtempt, ncol=mlam) +-ze/bet +ve <- matrix(out$ve, nrow=mtempt, ncol=mlam) +sqrt(ve)/bet + + +dgbind2 <- (-ze[,mlam]/bet[]) - (-ze[,1]/bet[]) +ddgbind2 <- sqrt(ve[,mlam]+ve[,1])/bet + +dgbind2 +ddgbind2 + + +#estimate p0(u) lambda0 for leg 2 +ux <- seq(from = -20, to = 180, by = 5) +sigma <- 3.0 +norm <- 1./sqrt(2.*pi*sigma**2) +sigma2 <- sigma**2 +gg <- function(x, y, norm, s2){ norm*exp(-(x-y)**2/(2.*s2)) } +gm <- outer(ux, data1$pertE, FUN = gg, norm, sigma2) +p0 <- gm %*% (out$W[,1]/N) +ggd <- function(x, y, norm, s2){ ((y-x)/s2)*norm*exp(-(x-y)**2/(2.*s2)) } +gm <- outer(ux, data1$pertE, FUN = ggd, norm, sigma2) +dp0 <- gm %*% (out$W[,1]/N) +plot(ux, log(p0), type = "l") +plot(ux, (dp0/p0)/bet, type="l") +dbf1 <- dbias.fcn(ux, 0., 0.4, 0.1, 105., 0.) +dbf2 <- dbias.fcn(ux, 0., 0.5, 0.1, 100., 0.) +lines(ux, dbf1) +lines(ux, dbf2) + +#free energy difference +dgb <- dgbind1 - dgbind2 +ddgb <- sqrt(ddgbind2*ddgbind2 + ddgbind1*ddgbind1) +maxsamples <- min(maxtimeid, samplesperreplica) +result <- sprintf("DDGb = %f +- %f range %d %d", dgb, ddgb, mintimeid, maxsamples) +write(result, "") +#noquote(result) + +#get plain be histograms at first temperature +umin <- min(data1$pertE) +umax <- max(data1$pertE) +hs <- hist(data1$pertE[ data1$stateid == leg2istate - 1 ],plot=FALSE,breaks=10); +pmax = 1.2*max(hs$density) +plot(hs$mids,hs$density,type="l",xlim=c(umin,umax),ylim=c(0,pmax)); +for ( i in nstates:leg2istate ){ + hs <- hist(data1$pertE[ data1$stateid == i-1 ],plot=FALSE,breaks=10); + lines(hs$mids,hs$density); + outp <- cbind(hs$mids,hs$density); + write(t(outp),file=sprintf("p-%d.dat",i-1),ncol=2) +} diff --git a/make_atm_system_from_rcpt_lig.py b/make_atm_system_from_rcpt_lig.py index dafe944..d6b22c2 100644 --- a/make_atm_system_from_rcpt_lig.py +++ b/make_atm_system_from_rcpt_lig.py @@ -347,14 +347,38 @@ def boundingBoxSizes(positions): print('Call Modeller: include ligand 1') modeller.add(lig1_ommtopology, lig1_positions) -if not rbfe: - # if ABFE, translate the ligand 1 coordinates into the solvent to calculate the +if not rbfe and not lsfe: + # ABFE mode: translate the ligand 1 coordinates into the solvent to calculate the # bounding box below + print("ABFE mode:") for i in range(nlig1): lig1_positions[i] += displacement -else: +elif not lsfe: # RBFE mode: # read ligand 2 and place it in the solvent + print("RBFE mode:") + print('Read ligand 2:') + mollig2 = Molecule.from_file(lig2sdffile, file_format='SDF', + allow_undefined_stereo=True) + ligandmolecules.append(mollig2) + lig2_ommtopology = mollig2.to_topology().to_openmm(ensure_unique_atom_names=True) + #assign the residue name, assumes one residue + resname_lig2 = "L2" + for residue in lig2_ommtopology.residues(): + residue.name = resname_lig2 + pos = mollig2.conformers[0].to('angstrom').magnitude + lig2_positions = [Vec3(pos[i][0], pos[i][1], pos[i][2]) for i in range(pos.shape[0])] * angstrom + nlig2 = lig2_ommtopology.getNumAtoms() + print('Number of atoms in ligand 2:', nlig2) + for i in range(nlig2): + lig2_positions[i] += displacement + print('Call Modeller: include ligand 2') + modeller.add(lig2_ommtopology, lig2_positions) + lig2atom_indexes = [ i for i in range(nrcpt+nlig1,nrcpt+nlig1+nlig2)] + print("Indexes of ligand 2 (starting from 0):", lig2atom_indexes) +else: + # RSFE mode: two receptors, two ligands, second L displaced + print("RSFE mode:") print('Read ligand 2:') mollig2 = Molecule.from_file(lig2sdffile, file_format='SDF', allow_undefined_stereo=True) diff --git a/utils/__pycache__/AtomUtils.cpython-310.pyc b/utils/__pycache__/AtomUtils.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..c12d82393e18dde30a6becc7fc0f60b7bffb8587 GIT binary patch literal 29383 zcmchAd2k%rdEa!;fx%z^3=RSyxy$Y4E_X2?Zg6)caxW~o+`}YyEmA9M{vMpRIE5sB^8$wA99?;_8)N$C$7Z*btR6g$BMh2sebSEyT9)p-+SNpz1Q{r{!9$N-1Fa9|Jk39#r_LlqQ3-Q zp2uTXVVE&ftHuh-)(V=u>xDRMy_(oc7E&6+;?|l-}eqmj9toWUeC3%WmoDoI8*gTxwf?h zmo`;mc=XqUm*?@==d@U?9Ao_ox~ZXlb7tI3d_gNDP%cU?Cr4xDl-V;9JIXqwMq}$S zGyQdquC=7pLM!y#Q`|l?i+s~&zd3-K_nL!d4tB;IGKXRJnIq;X?5ugn9E06&j++y( z2h79f5!i#~QS$-VIrBmD80;bQA=7|8+_h}fTGc&L+m!jRc^owu=}oG?Id48Ef6&P}L(Sw(?WT51vtDk-_J^B@sm0#<2)mqgyHxR2 z^d13%;GVV0MF+4IYlQq_*(nO}f)S&>x>+tcvzajV>qV=$Rd&!_L$8_e7kb&dwo~3R zP8*lS5&E;dD;s6wHT3a|7yVGfsT=6@7HVN^H|n)8_F83U#VuR)l?$&nSgd{8SgqHq zVK{U9#75cKC|k?}(TyV7(l)MFoDG91jSH_DlC-_XVGbWFJKI+604QPj^6hcbLdhjh zo3((^*gG`b{@JNZ_1bE^W|qy_sr-nSQrPhN&t5!x@m$4r1i#+U*^A4y^=cXT@KNp! z`d+VZR8*YM!}dMKuheCtC{{mKwjHZjsrk9Z;qo%|tu22hv2@hMOWFYVAI{RrY#H^{qywTK0O^%PL>nOKugN(uNmDX|AOhZfbFQ{#&)G${vQ?Qe=U%dk z<~F;+*>VlBjdNDLv0C4myIiks65BB}h|A!_q+%YfA~ zN*w;dkMlGinGTM@;b7?9)U+4|q=u7gW7#y@qfX|Hifx!-3A4t> z?eZP7&FfyWVX<=^xqa#R9_t8z^m5h8`bueQ1w+oMl&WRh8?s6br`;=Yb*;4JC7pT| zR;s?XW|ti=Zk2864$2_Pydf0WUj0RQ+oa~{bQ%qqcrT&5M_WyGAbwk$3?W_ECXZpL zI+&zyVsgHku+y)`KCj_j_uq4TH+8m-8GkCamogK3J(z4YGqD}BUUBsOxS4FGZt0xf z>5tH!{e+p~R4cBY(3K8dy`d{Zm#OWgkv6%XYD(;ylps0v+=?NrXFuJx-Pi0hwZpN!EbKnm{jig;2byV98;`;48;`B)dxOp1 zW~P~K_BRLClY2Ro)YlwzvYY+Q9LxbT`?h{dXSwK`{l&+zL<+kX`V=~%u~scQGplt6 z^R4mLcG1M_T`3ujx`R<$DOL@%r<$HPGhZ#28wRFndCp!m>TBXcZz!+6#C=aMKrpz3&4zWt!%CD&Y1wWSSyu3 zy=ZJ>_HD<7&^Dt~uQ86Gi&*K>i$X-pWYJMlP(+skt^idQiw{s7?X6+Y40Bg=5V8*% zX(lepMT-s4V%19t?%9hoXyP#E;u?vay}gQ2gE=2P zQ`M@~H`(N`IGn$O&K?e{j=W?91<6Aw@3z)qg;ho&6#g<;EdogV15elYbm8fWXC8T7vL41PZ#_oiaTs2LnTfe8rfZP|d{gt1Cf73gK`&k{ z*Q{Q~)wj01@w3}DrZl#yRj-&YU=^oUVk3b5^|D2eaBh$VkC#S>ij&2v>C*PrOICfm zVT->wz2U2sYJIbgvAcq0?h1zymP5r_T^7<_4>DlBo?dHs$)aTycfFKZ-(Ibj^Fu;d ztw#ya2^t}2)+FnkDDN~Z>j5|my|wMFbt$?K2l@*MqFjK!W}RfxX&N(3l~VD%6bLnz z)g6S_dIWJ^z+<0=k$W&FE2M<1ky0>&e*$Z!l&qaHT24!c{~Y`$w1nn9+D4jhvvO(M zM#WJe_v5l|8i2#pHo2A3P5o^hv?zYbec?uJkNu^L+0dDk{&iz#54~WmTCZD^aOVxY z&CfoOpEgS6N>#k3Bf)vBX|$TB?VuZ^uoT4t7pplgV60^t1ib?#UTy`Lt(h+Z+hvtBqmVH1cweA>a<;-+>E z+re9)*?U-3Y$k#=quKLz!c4qD!iGjwS71bO5+|_6sb4CF!4=h`G}dL|wOvjTSm*pRU$R z#j5@6Y?$;NCUeJbTxWBuCca_qO|kjU82N;!U6+>fG)o|SHx6$%j^Ml|9&RsNehz8S z;HputAV=(0QdpW`hV=%EcBxWXsn)NTty0l0dx_0@1=|zAx?Z-k9CaSyZSja|BTmD{D;UEIs}cyYw_^qmDy-^JtN*;#}e zkGp8GxO`ec{VBMupQQ07jZf29q460SMH&LX7y|#m3i56>?UxZnM#_ZdPDH?Ni&WyY z9Q*>PWt=<<-+LM-Ju*&uf{}vp0sfcZCXF4sX`M$#w;cr5O9-`Irtu1m3pAujL%6Kh z;rCVg|2PbHCISkVIM-Sbcj?U5$C&1g8#~*6Z=SnhvLD~rRUW(OsLI1t9&YFXZ=XD( zJEK|mPTtsMlfrh{oao*?Rtedo3AfRNc-(D&XzY5Ln@?JAu-2cT@e?#YNrT-xXk(Ke zWg2TVq>r!DwLybn%UJ{-x((p%jA0BqQ?~#@r?B&gL z6Kt}#dsR<==7xzWpR)q`^$e^9!KJw?p6u-KM8_wBO;*8Yag14O#dKezJ zbeB0Hinltk)u8bfjSfV0pz#3SN><&rTZ8MbBMY09RM$rJ)DPQm))BSDP8IxeaAfhs z@z~!1F(mI4oByP>C>wiSTp+>NChOy1=fj3uY`Dcv`gY2DLxM7~1d)C`ZwT`3P-5sZw662j7l7c=2ls+xJbOz7f;{fGys4 zZhtq-Eq-nB{ww#3L3W)q=Hm#+_gdu9S;I8Ck*rk)RA|&-kB#Gb`a|DYx@PJ$eov^jau z=HR>c$!*{+liT23Cb!&OCbuETA%n?pxXa`>4EbabKH4RG1aiwDe5_0ODCC(z_(YfR zLy&U@;YYfJk3s$!gg?+Fd>nGoApBUD@CnFEgK(ou_+j(mO-%01iRNMR_}lTlBh4e6 zx|W*nhQ%l2;;EiLi0ouW=F|P(}4x}fP?{4G*8g%lICFD z1|<#66HS;MX$WCQuJGwd1D_$uh2{ymJ0N5(9q_=11olxePl$OS-;P`|2h%8GsmN@X z*d6t3C$Md8z`Q$PX!eO@L5Q-DWArYNr}THEk` zSIeu}`8;0kn|A#gOOw4?lpY5q-klx`dARRd{CZFeAvE`$-M546K;D<`JGb9x09@Yxqlw!7T@{+F!x(wc6w>& zzMJ*8Bf0I~cW%EEQ2UiuA47+Pm}*T5p()P1`qeRa$^&^ zpT+uHKMbjbIV$Fen1>F>oc>M7;ki{^kHbA^jzP+vgp{3p`tjm_*JH6|6XI~lv3(t% zb}2fghDzQR(Z{0Ht|hOdnDMTnc_kw^jn&;yHdutDgxWR`lZfJ5Ae)_rRv6{#zBsj0 zs<~0Ljm1XAfK;neH!CH`fFo54G!9T-XHdc9F`$KZ=s zkQ7wQDT3jP7l~M8#Nxb)QH;jGi^SMsjIDWhhIwp7V{BDS#u4ioV-g8YBH#SnB0S$6 zkdjg2;uHqLnRk0&K4Y9%^Yp8DP^`W>uY}UVi;819v}R#|dr^SpB_Ms=@bpH-;=bNm zpx^L8gnDDZDCEyRlEa}TB53OrQw=ETvme8@o}yvkyFEVB=C|Dnm2T^g%FS=80 z@edH)COQ&h2}qg8ARZfo9C<*?=vlDEm86+2%9(TU%YrOH>8o9`e4ETmhmdjbI}Qh1 zKfGX z522JHLfL#sU?ZFlHjj0{Dezc7Xl6Ugf`(dH7Tl4t+A$6GHp;%YvJ_5_`ZzTpSrS~@ zqs_t4HSFW}`#ye$eLRl%_UIk)J1qD$n#TT!k6*eJe(6&9^~<&Pn!O!RXPSK>)Nn_j z?(s29Xvh8j_K=V1hf&_B!gTZD^@QK24&vH}()u=Z{@PnM*BlDVg*#Gi_m)*yzt?gD zoc_P&a7Vc#&C#%2xFh9uZ)MFS9`3bV)!v30tIeZLV=XS?0qbj+5ZqTf$WTaxsI$~Y zhJuh8GYBFXGBMvQ-mcdnS9%( z9%fOIMkucJ5xPD~qn*sQD7E!B82UG1csZ5NG6hnyaPmeKofn@LmEUJ%Dw>JEMJa^! zw`tshkw2~kAwyJ0#p0}`eq9(A9np3_=wDmQg}AjmUr1UIJyZ+Ht8322G8D!(;Fp5w zdp76^1D-I$m@hEq3lj5%FeW@3;t4bKJWJ2BlKd<^dsm_6CW{EHc(62TEXa_t{vJX3 zCX7NxR>=}YEiJ2l$GWDZdR!}JT6+vR-rXmQMUXog zkqzAuxHbivK>(S?qZT_@b2c?=6eoyATZrD+R@3J{J6CiHbj+;r} zPSF;nclh4YMQxoMY^B?a-p#Bzpq5DHpwud(5}TeS5;U5Bv5J+5+=Yfw>=S1j5`eu=E2eETOP@?+3H78k%xS;VuH7p}_W zDm+%|8IGRq@B&<3=%Z zK7#o58)iC0XB7Xe^5RT!LE&vNT6r4<2JOpe-LnnaJHotLjwtW@%Kd1g4yYP-MPPyr z2m*+}8Kp=IwdsVcQ7zVZ(sBuvompL!`ig62bt!}_THoVVy;?mUpf!RBo=T8Tx&^*n zw*xWu?iRGmt%{32D#s!H&gAoK!qUn+r43Y6PD&^w8`a`!nTO33IwLp<*CVZ7-G!mY zT-ui*;8g|ZQkGEhj?*B)p$m3~4klk~)X7+q{<2oFaKuJcHG~4Ms~=LCe&gF^@I=kd za<8u807s*f8Ta9wfw?MUsDtmPit55ue7Rg%-w4mvEX+g(VT)bd8n~Q)TB9+H5hD01 zyLh*gKKEF(jFd3j$k+-B4#Wxms0pKnHBjeSP=}zu{8=2*X`cy=`#Pl4k=KuQNN3q_ zwi}o)(JTEEIOoZ*_m4cY1*Jn4OJzZAH^M zMxi@y;CPP|!xKI{!DPS1O{@Em&3sb3qO=A-dRz1)J5#A&40-f=U8mU?&eE z5_6^x&OM!ZcM!3eGd+NjGw-rCJTSFmE}}N9pwyYQ2|T3Ytc~x%+JtAUkj}4-vJtCQ z8_D<-YqP}K&0C%cA0Wv^GlIwHV39`KG;sqd!+m!(Kq3ejGK)$X(R+dXk zfy@{?CNoBrmm(lDU^fyFg3JIn5)c7-iM@{5ML=GPfV>m|d5Hx-L6A=oLKcMr>4Bbe z#?7$^6hsen8~`@Z-l^ZA;Fv-OyYgMQ@cYhl`F>%yc$qhf)$Q_&mQ}YD>m@j$hnos` zBCExM;f7ZvA&ME(jSoYSh?02>Dw)Ud!NrP4zmCO(^^cfPlr(;uu1Ojc;Nuz;(ti-K zQrY53m5wRN%Lvhya7a*WB|+)rTkxR!GD@v+&X)Ono2-hjBfs>?2{0OXLjnI;NI+Wb z2<117dka!fM1}n1J^T}CKduT5OqKGOHp*D>?s0;+2W^#l3``9Dy$L<>!?Aea%EUVk z;J3q3qQ-sj8-s&d_~1tXIJ9|-8*v*EjJ}rzN20&kFB}QlN2m+TZl2 zID|IEA+#wDp-piJZ7L7+L%gFyyz?KF>MRcSUzI)WAolorc(6Zf=Dw^qvpC$ZR0il$ zDg$(l$Uavc;?L6UAL7p<1rG5`O74MkhjFM5+=8rd3!oSfzG-b?qBJ03IOq><$$&%g zPr}I_MT)&ar{B!+;s`Ly;d4{p%Q=X#IY>V+&6VE}?toz`2pPmiy(eNfwY}jl>NsM^ zYkJbokU6MMAnf5J0PctxaYi;rn*-4MABJFNWb=?Y?sHf4y-{<5ID^W@7%%lPk3wbR z0a3#Ud~vmp_&(I;YvAG@#yuYK9p}|O<_YsLUeROb%_;fgVjgqmR=+tLi8&%U_+mP zVD0zOD-OdQgZsMli|74*ahM^%O76?C=4jY2=vtPRqw586seUm^xAY67LJIZ^ri}Ir z^%nFC^>)_pC46i367?3uOyN3+ta;W~OBtXzPW265>L8*y^ohM8IeT)>Z~5oLmLH9@ zJj6W*TK>=n+VU?RY;*Ix`I7naftJ75c9j;z)mP{t(RM{oolrUZEq@?J*OtctGqk*J z{T|x)h_t+JIc+Tu)#}Y7dxy~S8br6jj6j!adAg!4FJfD1d89%LwmeftTVA~d?a8-R zTdTMBu%K7;cC@?_8M3u=OD>wzb@J0h~ph}>ZSCI)uZoBk~~icis<%dPIX0rMi< z4=M(bY+8exK2)LW+f`g365jeDF@kCY*M5Y#sOvw%*DKgSMFI6U|2{xn_$VQOxR)W! zCE!hU#xLR;9}8D)K_Mf;CKQGuFRv0#W0(o|a$&WD9Kmf|nl@@^f>M2^3I=2mDqF4n znW$8^>M?17!)SrSXo16M@-`E2@_e2pa;MS}FFEiTm+Rm&)(mws0QQ$*MHK7B$3#%0 zS*-lQA`~VlSf~nZ>u66uo&eS2)-eJ%igG81wK&s})}1NtKy|Gxt#lux3+rJm&8U>Z zMQba2$2F8^GzV1iGVY2(XQ=MB*F<65kL$NBijN}s08)*~>Ow1*Dv(;eC#1@S41_E| zV+ap%;ujuVtP&X|R}@OaAt%hlNFB>KwQdwGUUgH)6;2WUX;=VmNZ^999j^hB@6e?M zJz*|Bnu3Nmu5b8kT5=;LDp-Z6hYj^0-dP3qCA0}~)mY>rHw-EE4STz^f%-yI5ADyv zT7`wAxJGCL_%WdQg@3*S3&4{@UL={R?X5%%9%QnzGs)#TAqb4usx6r!C=6L0Os_ha zRBdslx)A1IRscVzKD(oGP>O0*jroNfmPm_W{IzvmX!VK!<=1e1`I z6|{IK#9#!5jd6R3ImSbfkf0r60e7albO2&z=dcdlcqfeb;e>=3WE2_^(uje!pMLe5x=viUdPU>9eUi|E1%{Nif;TG>#NjaJRj zA*K!CcA|s*S?c1Vb|GNEB8ChqfI-JuU#5T-2e?Cx*B0p$Djufi000ceMiCGeqw2k! zKA`a%!Pz|v1$YabqAo3QKp+-S?I-gCREj@kd}@Ar0kWb`Ez($e(|9wi8dy%oi);jc zc2n~iK$WcgK@DkKFy(fN6oPqAX3Z7_Y|CE}0)G$$x~{5|Vaih7PUZ;EVsw{?jE=SA zFSwe^r>6G+@Tuu12H~V73;dqo8e?K;m{1|31^&pP`|!oJ)qmtAskWJAH4ePTx7+BRJXsSEL>K1 z6dVre5EJZgfGWh%{K*+X4zh1u3i%=Hy-OvD$&em~)q~IbY9`sc37^6zb?7!9qOPMS5Bb#Y4T;J#E~UDc>j1pG|EhS9B}3h@c{#z z(ZB+SMWsyZAA=2Q{R)j=rSWStew~IK@%#35>k?`pM%RwFguv2 zlU!}r^?cq4Vt#KF#yYS0O6}o_uckI0`x*T$T&fn~MqfY_Ts%HN1%Dz@kuMeD7)#4M zO)|?{f}h>Qai#C!iH*kGrGX!vcIMH^xSbhe=N?-22;Xg2Hj;lK$?yF!=}(8zT^6;$ebAy1t1dgD8Z4D3aV}N~YTo*Y+$7##)D9}lMlr8KZO9_^9l1t}vL01VQ3lDqZ4Dd2AHX-4sj8vU0f`SQ zjmkCZHWuc=F7u6YX(`WVzq5IQd;m+r=Izu29XTcHX0L00i>D_5}dS`xmcYfNP&;Q67 z`xhI}?C{*`$;sWBUFC3RkSm%E7Yg7c#4a8e&ss^&LC8|Bb#^G9Rpe97o{Xq7BQN4w zbE{UY3TnJ@;0DJ-G2-MvbU5-N)KwHBNLal-M)qTNoKk_>#SuiYz7C_1QX|Ov4t;n$ z11b#uN$)}yeV!u@i|$g{(;C))Vx&K$@t+wpzE)b0D~J~&YZD=8IhJ0xKNegNZ~rPL zEc-De%1uCt0c0klopSTsHg!IjmxHLe6#y^OFdXIU{xLRp6$}Pq;aEo>9R`K2^y^GP-2zVAMj|-6x z&j?Ayt2}#)51p~X>WmoT9+83haZhW*1UI`ov+X%*uC&-q1T7}!mAzgi**gP>FJbQZq)ppZCcVrDkIWjMfuo75OmO8|{A$9Qr9BaY z{td3)p1@uhi?tLl^lsu)RG1^M%N~u5^Rx^<{L<4*$muDG%TIDJh59tdQMql@zqC7k z$zRw0@8^6+?0MW_eHvxsYb?C38h0gfp7yluLSma6BYk_-(~5=owp}Xd>+p54cPS)k zHaalm_1pC|=PVAzfnqo>rsBZW05ap=VHE$Y_5i2Z@z$okEq-3RlJC3J`sEMv8#^_$ z|H_J&S;6)8{6-es*_9P60;+yU&kC-EF0HIs53$~(yb>Q$D+=3Nm*S_vHpS|vzGY1z zlH5ZtH*m{U36X1jWKSn|`Rp;C?DKw+u3x6{uW0;78sCNC9f}lXhh<4OvHmY(aq|^1 zNTe)kB$8U#7ht4;noJ_`D7QbLOMjXe3S8-D((!Z;o)rGc^l$lAPN%^DKs4OuE9 z+Mm!RyAB5*1lv#g1G5;!6lCAaltvJ-yVpKwt8?|{mPx=O-{-{owM?v#^)VojMnRudFao+cIm~HQ?I|W^5W~4=cm-rZdi45&N}0cM#Hc$ zyK#DL?~IpeMZ!m|I7@pyep&0MzcT+vU)_E2S<3+Otp5Q6>!ovabG>AJi-vF-J_(nX zQ}fu1JN%>!CA!`ie8Sh(Os4n`i8b;W{+M}?&)|(=TI&)ypW$33WT}viLLkfluSY@_ zPRXoh@k%G_muUPcjUUkXA&pi~l$BD(E_3#C$_u9kIY{Z5KyQLV=zGBmDTe`T$gstv zrde2Jv|pTubfR!6y^Es?U)IyUjvfYEhYdwXd_qpUg}%mXkFUin+*p7`N&;=0yp-=R z#9x2yN+EvvwR45|*$c~V{L=DCSO2k-F5YHb{rrrlpI!F!i!Z^x;OUo^J?+Ol?L2PT zkH7rd%UWfdP_71q)fU3J&ww z46+N^>qRGg>%`D7qE*c8@=C>CvFlYRusFwvDUK;JKzNcDSQ!RZaN)`u@U>or;U&o( z+f{2{Vo1K0X7Si8$WLXgP1bVO-ez)QhhEz|OmEyx_oQc->7-ZLO?IoeENw{`bH4{`bG%FD%U0;jtciYy3ZXU8nn>=_CGR z#|)p`gyA(Er{nZq-4*$*zoKW~hAT$A4c@HD>?=8Xax;2!C$p}Ym^sUvH$-+>-u&3R zU`S`s9n*2yU)6CrZu8qlo$g)y%g>cUF88atD@B|M(8B32=p1>!CZ|D%KAL;e%?CVw zAB;KvDYtKO5+;4iXe=yy<;Fff8Prpb-8#zU6$7V7E;n(;uj;R4arBq%&JLk;?i?;B zWYXzE1v=!&okMoxIxhFSdf7adjhyJO?^oh4%jFC+_cxtd<~5%4UFbNb?fN+lP&`_QCJ_=4aZsyjX+;$I{9H= z@TK}vVq$Jt8n-yQ>Vk!Fdz~&=lrUeXwAr(e7dNTjoZ)Sx{ca+CW0m5pbwMs!w;|`x zEw!w5QUij@PuRfEaz=DS^PDkkTu_xX?t@TSo7=gpulguY2Vfkpe~za$G0TJPfS} z0sDEkD+p|J`3M)!xPvZ+jtocb{*mkM(O^fu;`^+NcTKv3AR~%ZyYeVjf!RRNJ!#)# zzrYNNJ*77^;kG{m+H>Yi%+((B+d+(YE`Avf> zUH9|D30K&7d|Dd=?~dk<`X{G6UUxKa+%3l&h-Oc^f};~rBT|cI1!t$+Q41>i3M%*X zNrnsoM@}>=;P#I3)WM>~DXqqrlYO3VWXcr;;`pN3V?^%)Ik2WCwA(+s*6AAybOu}@ z&!nfF>paH0xM@O%ezy-H>;t@iYQ#U&dBN|UbcO7FYjl-G~FHD!+KrCrunQ_3Lb2#o6nL=)sebJdT)+w*-GzP z<=xau-wnUCZ++{e)Uac%Vc%-QzU2#IL!Z>pw^AoH42bq4lKlwz+Vt^;d_5?reW=UM z>x!7m=15ID}w#qeI^Qx_Ru}rjeO14hH*7@nf z0wl@OeV7xE>=V?8ZtzzG>G?I`w!_Fb;FSQQ)O_)Wcm_5gU4r2?U649L?BVoUqNUe? zXsO)e{&X~q8N$YJ7Kj&yp?8&`Xf7w5gR#>PI-&H-0rwQ|9tDPQ_OWT-Xb>z-hrQqB z^@5CX+@*jg=+^cR>Uzx%C4A`gEf??e_{R6x`#4VPwb^0!1niuWLWligz`bs?4ns71 zil+`(ojG+!F24z7jat2)@!`?QVUVSuXVmKsM2q>+si4*>>&DpVWHdYI_u`e~9~%p} zgHa>z4g{#CS)Z}n`8tZP7)fdi5UNQad5U8>@9ik=ru*Cf+5!E`NB zRI*mozFO2SbQ};4or`pIFCAIl@f)Mw(y#xmj^MoUfu&?VpQiyUJp#M{G|(bII0*qb z{SC%*1Pmv2f2>!dN;sK!(D>vGgb185gzts4#Fx9kauyF8e{(r0D4fY>?uLDuHtaKR!#?wqeRBFa6UwO6%!0bp z#*3#5r{vmKlTtJBX@L@o3|fu{Y2_{`{Gr-oG7f+UWb&DW1Mq1Ks(75BEfFu59iMp6 ziTojiC76gvcU|E$!`5JB!ryg;n|#l##Z~PW)fxz4p{ogKs?ahJ zFi<`FnAa6-AMppl0NG!fc5z^*Jfrq0e-J~c$K|zyc*y($u}U}G?kPL?CidTd#_k_u zCXgnVkBc!;N&-H&3;Y#4Cp?1qx~GDEUiR7no(?24krqCt1E9@FiF1#6d~!MgjQ^Aq z_YCC;X(}mD~5c%AD`{yP+XU9)cr!YeHyHgwk{a6X&?3b$PcS7s+BZYq*OE;nUYe9Cy^$B zAygGl$;Yc$jjal1DzVE09-@yoQjb!krT`UcoupzcW2`BaxCuuw#a6llP}DUA=2*s3 zDsKOob~LdPvulhv&%pEudJPy1V5Xd_1a4B3p9m7O5Jz^UTP4NCdQd#LQp!h7J}AR- zL`o@QD+ThbjChhn_G42jd9IO|oUn;WsHvGSqqE!5f_d3gGw1AXXD#SxQJH}np=a!S z?Qpg4w+CM0gU!t|PJ25QdwfgzVaz*+sT*N_;_~^~ z%r=?}j}&jz;G2qOyLjF;8_nVT(<5HDqnL4Vyn_nVLO>}R-%feXa?echyq%1BzUj$v zIcX!RAG0U0bF9!ec_#%WUX1S{uQ@S)Ip7L0&kYpAlF&=@Fn*73hEu3P!{KG%cMrp7 z;P1d8fz{iivz7{_TSZHQWNBD!G%^!(WZd$8sS*>glE8C>XHq4?-g@0c3a*oKoX?4rl-&*98(QdHv_(oO=UoN~m_U6bN6AL##IRC@vgv|%V z%?Bkw(;>-pNH85js`F-<<5sv@v@CI|^!-T}02Y?@3wWnKG^u*epyeaLLl_4`hj07l zsGqwriUpe)UAR3nhu%Bp_51l|m>qU}b#-iawAn}99xt z<%%%;qA)ftSgwec3CS`cm?q?!q1uQ)%IfF=;QrTgFdK=x;GLK;yqv@7Im3c7FHm{X z&F75iIpbGNK^51_WofzVfh6u%>q>m$92UtJ)Hzdkj{e$lqqB&p>I6o%4qZ5A5sQVpb z)X>ot)qA43UN@~81!9PFhau8udHcq}*Z_?VgxXXXbc=UQC6KFQpVvR?@&*ocD89c+ zxh6vW>A%+fYuz24P}Ps$(z!Rcz0tmyD^_<&)m^fk8ZsRFHI+J4e)|^n8o8(3=I2_d z7wxq>vZDH14B?}Co>kdrMp%c8aCYdKMJSItP$$Bm-!QK{E!t!CEC-x97>uaJ6&Uq+ zhQ0n-)N&^1^Sx_Hi@yK1SpFXbus1^zi$$if< ztgW3;RmO_@V~XG}06x8=`?#c1Druh2jhHQW>tAd7Mw7Z?{ zSI;kL&DW-0yif3ri5Fw4|Tde zL%%_=^!)~#mIH?0G6>te0fStlN=+aprAGe>A73+Nq^6i7XQZa4&xM-ia+#=UZk(Qi zZsvfdCbwqpU{ufX=TLwzj*Rga5IsLc;4*-QT=7?76KYqr8qL9OCR#KNrTR09>3ITM z30$KXF5RA)j!~b^+Z@rI+q1I8EC`Ei5t1!JiUq7=+&st+@OZBE_AKEr-XX$YkfU6F z3ef{+r-8Hh4^78N*=$rFa)AC&4n_!!65t3BIdbI5NX?T)fB+4(GEJH$6K#64xMi9| zxD-QddyFbshm)#8!x1F8y@K!o>L^b~m&VsDzEz7aVlBRBSSVSnU#eR!UeP}^>a2eK zZ*+PqTkQnIs(D_&UhWb!ONl=PFfbx>0EUecnXoCG2SS4?c$cbyJu;!$f13l}MPmxc zN;_Uo*0S6zvm{yrOVAx^ZZ5>Am`eZtd$~ zuFiT1&0w@P{g%K(oiVTJ3vYuLZ_kWU&Bh3PtbS4V=pb^<&ocLRY8^)OX)r*8Dej?I zc;+5!H0Dk%XJ^ecGm7qo|Ilbs^(I%ox|#ln8i!b6{tkilhmQ2kG|Kw}fdsM9G*gn> zJ){xn1HfjO!BEoss~!9Pa%`pkez!1mNw_vFj7h_%Pd$Hy9g9sH?;uGYqWT)MjBMu@c8f!=L%xq$2W)m}KtNi4s%#6E^`7x>N^Hk=1W@a&5&;^mx_>*vwk8 zIQA}yy{+M*n7#Zik-xP(16N9Zu*z>i3TkdBjtshW;%9pVTya=_m&ot8kMZ6Bsq#bWZ;v+1SS}@mnY{KTm)- zS+rXBmn!>jYqM{>+5P3J{_kt@pUj-U2v@N2Hu6+PARVvoBZpfA!T_-~@Mt#hJvgyG zM}j#;511bOhkE#bLNR=uz<)&GPYLuBxB`%N%{w+pC>>7iTA@wr_PjSK%D=_p9;OOx z$=bfqw_4DMb?e0jspa5`bG2naXc>r1W7rR{sD&vJJN0 z2MB`qo(Bkm_rV7Ug7*>q0|bHLr2fI_vt&4j`G%qJoc?zv2q8)3ZS%(>CFS?(|Dx&J zO=@EB)5iPyA2J_XEO(OFz3MT)rY)eL=kZf@m9-Y{SCHxM&-nABdQ( zcL&yNj#ZmuaqHsfJ55Vlmqvfkw7hkB^uwl=o)!MbJMM42Kk~C}!nq;g;$`vNWzqJm zWP4V)`l4uiQ8d5!1w=9O&Nk#?9cfjj^ttJB#{cKt$`poZ{iI$mknZ1zB zGD{|#W%giwM!RMmM!V*7VYG|ZVYDfQr)RV+>oD4s!qYR_)^!+dO5y1l?PAWFk(H+u zil3U5FX2koO`-IuQz+$Z>!wil)G6Scz`7|^Jar0XT;;kcR6TVH8I)zG{+sHIMCv4sF)G1VP_DmDcaAmmay*llgoVn_7b*71AxRR?6v*{+cHTG_Z zz3aneY?`+<_HK~hNmJEE^1~)i>!nhKR4QVz$?t~P_micPe$tmYjq+I9^1C6--boYI zN5Crl$#U0Gsj$nSr%Y+5Z4aa& zFQ{ydy&Gch40(D)+O*o5@?=UwUh@HYqa@| z(;6()Y#ZeN1U0~a6(D5Y5BWMQ(r}&$H^fi9&HO)x^=EpAJn{QOZ@;P6E#g^Rcctd9 zk$cTb&DJx*)-%g5y>;|^XO^18hCNcl9#|y(5-T-qmirH7sbfPWUZ%EujR39GunGE? zD*qp9@{g6Ko-bAQ|0XH>KIfMz`~OUveWULm&N}6Wu>VKe{2P4TU#jZ=TW$7@zJECD zlpCu4f3D5HVe-p`{r^InedFYp4EtBK`8SNte5tVi$I02B{ZeKBUuv=++H`wr!b9>1 zE^K*qH{TwGEJ&OE_9)5ZLfFt4HNu@=q(J{Ufzt#M5;rg6(^2q@Wi;6EdD=HVRHhI=X1l-x=wl(~`EGk==Xgy)Sa0kKTv%k%6OR zIHr%BI8BB#`UePtMStf51i^df0|dc)-vb1}`>_52g1~T0{{TT?IHP}?;C%7 z?0&y+_QKDO2}75KXRnGwS4G?NlI?k6m=kTBXy!iWSk~Q8LQc;A?5J?@S>d^>;>C

toX(*28#f#4iFSvvexA=lv7{4yu@QLF-VJaX5Z;4a4MB9vHn}IA< zSl?%WBvl!Mg?$F4$e&|o)9;`?UV%T4I8rN(cJh+)AzXV=aE*%BMg{kT;JG2XZwQl9 z!b<^hG9cQ5k}W9Q3X8U|XbvY=)$cj_&v^&%^V~gDA0r{5G`4%#3rLcybJ=vPo-@+n zcdSsuIrSl3PdEaP5D6_)@e3d1>f;EY#636T1 zwbF58uv+D+sAqbwTzd@aZS6rSd2Jx->|`byS0(@uphI>(M=x{}gi@u!KL3Mbcoxm;?Oej8opUiKny%t-)JRv8Sue8y2zueOZMSX`@jeDF-blqyF%?0$E4cFq=zFv?6u$Ci~y~O z*U{Mx%g>5f%1E)h1s!4UXSsm;?Tuqm!wvi+S;I(|d{&)yNq$WPlJ5m@Sa~;I(JUNp zoroHyJiL{hc9LC5YK2D2QKLAP9;;-fYq68*{2mHbBp*tT`3Ug)$ubujuRJbaAexWx zF(>{ITzC@3=MMv5Lca;GXr9uWqFK~UqFIE*(Ht4yq9(il zRWw0~*8@7f-n7`eTF@yJbbj30F0~$7v5BomrPibK1CqHpQc)vS^voZRm~Ct3)>U)s z;(%y&N@k~Ec5d9x`pT&_vwhWUU#Jw#Et0uKFtK-^07JpRQ_}2L1OW(PU)dsQ9Id8x*^t(I0e&fxZVqtyCm&v+js#!JF+&i)0dgJt> zW2x`Gw&lE)x*wTWJi^&?Kk*m-)s26+FTt)jBc0YC~$BR6aS~Tv^!omH#QI@FX~-&D<#y z$?7EGw`@V>GoDfSG^TJ!nS3T46k#ke7;a4)DeC1sL930H&9QArM7SGc_Q zOi6qWYCEAG3$>xUuH+(vTBEY$x<)J3gmdl~!{)pCul%Q6-dt_Cmdj_{H<=0)lUXqp zDyAZhG9;34WRJqX*J^M>DO0#sn+xQiCcU!FG`Nw;r$rklY9o`+R4zZ~D_;rcXxiT% zD+*pI?VlSqF)mrOPm+2O*EBs--_nEj+pp)g)sY`j9=GcPBe+ zK|d_ON}SH14W?r|CzTe5UrJOg>ZlQQlWx z4(DwcgYt2}3iK)kPd4G05tBVmaiM;ctHO}-q<&SAMCG?6^{YD64;`3DdE|Z-t{cz# zLVA`3^Js-LT)a7y^u?$ zdQsQIqbZJFgI|BBdU-SrvM1A^a9Ow}Y#%dXrK4<+r#@5BeRw4BAvl~M&%r#hJ&bi>n4{%@#6Odv*? zZZSn?p@ZrIvN@@$jPe|H{bC+e7gG}fN}3Wun!;XE7giGi%9|3whKuYd<9AS@+057? z&x{pqZTxO>qM0s#fWSclhX^Rs+r$i+Um=Gd14ONIJbiTRlPy?8ZSwq@*(7GyKPAtk z-;LSx|B@p3I|6?X;HZ};&c&o15{n`#)w?B3Wuw+E>&6)02W7i`Sgzo4#>^YdzA+Y@ z=!5>Y3E1TT#w@4E5`ay<kv zSdy4>vM$5_cT^Ms0LueZ70in~rB~1kzPqD&G~bU$&=aUf5Y+@fgHfLMZyrYVrO_mJ z*pFq)(TPyA>bTvyK1(t651hx^Dbp|vwR5&c(XvglY+I~bwX_QHA5%M*)&-i|=JRl7 zPbjGQxUyQRY!O;-ij}vd%3Dz0W-ePZJ66q(#Rk#bDVaM3bLaYYjiR|rGIt5)u1N9L zg+8fx8=aFQQwf=h%RZ`byzf{#_fDHwu|q80Np`kxJ@@J+@>cO?-m9JS{Vat|tL9Dj z_=Wm=<8Sfbn^`JZI=@`HRP@u4pLm3(vtrX(3DA5_GM^L7=Wu9ESpcXK&8?ETRWP?c zD65*!hsHahpccC7?9PboBHOkSY|n`1XHt!0qIoQ4i_$j8TU;mJ%KBceXloM9P4fdE zSJg;WZHq%E*)u|YeFO|aM_Wz`?mcD#RUS^rK*tlce^?YV1+lvm%o z^y=hWm&LNSl&`X;MZHwk0{euiob1ZU&RV@@-MVVsx^RBcu-LtD@&m&UP0RJm=T{8N z)xYTe`EH@>qS$p&0<>P1td|ArWvIJ*x@;s8Pnez{8>$wp7R_yvxlJ&)#ZXgjLBZ}^ zx+rcxnrOz0qB-88Dx+64dmqt^gy!vwoTBKRu)J;6Of75fmdxFPxtrnOM(m!p{u0fY zFsW*?YR$@)??x6&77s7-3)en4{KMnRBP%5liv!ux!Ij*@`JgHf7Muj!@cVD5j}A3uR$XdhLhdRITZz^vh%1#(gGfXTg$BrZ`jd zt7r6CkiuB!s2Ag6+o5@!Sv3vK59e`(s_z1PtEZ`Eq^2zK#p{XQn5L=X!DLnSg(X7O zR6en=hlNVj7OpyP+J!2bM2F3o&??IXSZGwXYTql;wxRY58_pJn6IKN$iWQT*s6n_R zFKUoUUeq8{nc}ZpF;yt0O2t&An5tz{25hTI!L~vyb3O{&3R7CKFax$FEky!{3OCeN z26c;TTMl0;Y(NX7Z^tZkI}%=v>z}Z#HnFzatkmch#bj4Zb&9E8F>O^$4T`BzF>O;! zO^T^mF*y`di(+b3Ol^v(T`_eircTAwrI`@25jj` z<8vcDTZ=84MXVIuQBjWZ?DV+9^@iD1XrC7bg^M!ayoMra@fu&MoF-8+O$mQ*r7+R0 z4r~czyK6IsRb|t?k8WCE)6f8Ismt2lZ~39)pRP@SNCyl)Y^RSvcPnSdRc?tL_%XUQ zi*A*n+Ym^k!;YCYbT0?lr2{=GpDwz=N=dTW<%DcUH~xDZOva;m1QsK(7=Z<5dWpoD z^GF*>nM^^Wv*)JUtCsS(;C9<5g2Ac4p3csx>5)K(Yc$Z|=f^uazo*mL)#2>wc6O58 z^-<4chjX;c>FnN}&?C>v?n-wj02P#^3tZ0j5vQU*zYY8FzG>8nkJQJbpea!)5)+EZ z12jn6?KkXK?W9VcbUv|F8i)N_TTD)1#7%nmSz^IOmRz25qGwW=zDu1;V`IteMF zbhmZ{W+$NnpZA1-qwEs37&65qNR-svGous8D7(%Vyg5wM54y`jhC5 ziVvlNZxD*7yN+aoNwc1!M62ps@r2_CJ7T>?@v7uNraj0*9AADPH;HH|q5Y|D5=n~d z$!-$qvj?ZAKrexnv1>w(vK#p1K29yj5Yjd3Cc?m|tz4tBT%l6SO8u(3x4cPUKjFIx z%0j3fkjJ#7UKpyd;|>y*3|&J)*Q^9yqNV)M7B*(!12S9bt{Z^|h{i+eH6&11 z+lWb0G&h!f(%l>KHUtSgFnO;~RkPe>kV|`uy*V}%1+kOySt}_#qkRI-=WGF>%TQ*? z3_#`(nE{x-Zd-wO_J%LKDH~Qe zQN-OCB~f7zZnMA>#Y{H1oMrE47Wk%^$pSU9_cO{3-Rd&Kbt5;FL6&FAP27TIoN^Ph zpxh`I!5~~LH}V_461ia!_fl?pC^uHbNx31LS=k2ODLZ5n>OpHVb=J`wxu!!E%|s}) z6+VTMh8j`fQ z8%0OB;zZ^t2Er9)Mj*l!ip4@nBHq9e$y&RbMu z_A!eO6q%Vr%ptVp7CgyCz9kn~eud~I7nyv_a1=4J+@mToIn1gYlp>QuNadg^at~o0 zMW-rqkE+N$sv`GL!rQ6Hy;MR<3JH=0FlTSbN=YCgvH;?sU`1M_{x!B3AeTv~^DCI} zJUHkmWSdaY{7WwHwEGCp`+0doDt?U+?l+|iND>=UBm>FhGUY9*bh}e*+v+gS^S3ve5eIHS8M%k0DfYdrp(+17oVeJDto-gTj=FQMMn0G`k)Z>~^ zGJI^S5O7_NtyQwMF21yC>k@2TA6yW2pAxs9mbRaUWZ~-ebHes>AD7#Ox_+^IKq?;) ztOF0Mj+p4BQ#3g<8Gl(`DV29E6)z2l<-4Ww-PjN@nO`YbGu5t|YVTc9UCC3jX4`o^6fA2{?Q4@|WuNQ*om?#v{! z(U5lvW`b0~fF_+4_s2eXX_r1~J0Lb55E>5tl>f=BP;*YKIVaVe!$H`*A*v)mQne45qa!3@6|++`?Ti&x zWmKV-19vsWJft_Os#aB9>5X4h5~{j?WIL&HCJQhBvb0PpZC`XP*>LVyD%}A|YE@r( zRy1vsOxpz0wg?FVH>{fIvMp1aWNH&kZOpE6)l?}|w=JHNsyl_Q!z)gy>xgg^2NJJH zN3TYb9Dupi$MwHtXntYQ_MK-x>Nq4e9ugY*eo^xCDxv0rSaU(Dxq!3Cd6yVEUt;JC zn4`-pUNb#OVpTP7R4()^1i!P3P-N=?pZ+rCl^hE zrCTs{%R3^bq$yFATC6g>9OD0*kk4*A$x5BUyf`J8CjRX;wpF49IRxvH%LhX8d z#+z@=ob~0(uz5jQ50A%9Z!YzaS|*>Vhtx9pEKOMfee^B0=HxI*x73ce!k+D1$ zUCoQp)#`X^k40CNP@t=dd9Dm}wE_qHHp+Kr@|j9kGx>ZHx|(v>kI_|CDNurq&{ZmF zda7kumlw_)YCXD|Db)HDGIOXWOKUwEp0{DT8b9Ks!uc3ojURDJb}62(09`%)*mSk* z_eocwVAvKeW0DppT))J*P6!#;{k#XOn64l$hgKA3&>p$6>ljeB{b?B%yQ}oiyGPwq z5Pnx}Oq~eYp=M*6L@}`KjeXeb(>{nrAX>JwjWyFW((e6d`p+~wu-&cfAj%>GY@0JM zg>11cdP;PB+Uw%&?wKI68{cb>XTv^%J!#}xi6!6(x>b1_!j_x5pt0@ZSb@^)yekDn znUqN5(hSM|UG{z`>u?94PypfLN+6gBihay8!(>yGNND#@$#y(O$fxwQ*?p+1QGdG^ zA}cPQ1WV#kF*VPLd^GcrN#P-r!b2v7b3;D~WItk3E{L6!X7GLw1Y}Um9{V^XQ+#&$ z!h6^#8Id>ZV>J=aQ3v*lAXLJ{W*~GUSKBz+Gv<#KDk0xN9%yUPMOrWT?)Idxp?22{ za6%K7p%20-`QUrn<&aG7LX-AP$Szx|V?Y)!cqTnS2JfskCvuI){KncA$*U_lrBdz9 zUS}c}FDli$p-RQQ>Qk&_@oH4cLv<2Md=gqlMyI{&VImVhQRUH%+o9y&xO`~i)` zjgkN^kf)6YZN0`Tc^#By)uY4`tEPCv+iy+81baw+g?WW=3GxwudW#^C3j#0DhU1@{ z^!pNV@E*dA!1U+@@(WEfXn&#(Uc3-=#2=i1Mol|3m*CHl)E`k#P(>n(-)LKjYEZUU z3mg$LK`cjw!Q?NITiQlPVu&g=yo_KhYu)W$r&0jUgYpxN3M6F?N<9);qxh6Pd3BbO zP#5tlF;f_%>UFkzyJaLM`5%_QHoH3zKm&rb0fXh-hCGwg$i7zzADEhe@*v!%4nj zS&GESX2+NW%*MW--R%Mj%f)w%_;0%HvMgL8XF!NHJClzAg8e>qNg;Pi!BAv$8Ds#R zj;KB(0STF*BsEk4Rx)H<2~QmWWw1}UP(qhlJr$7;XslAz*@nf)hDRrd<Ahmj{AaC(w?qAXzfnF&crf80eys>Wps#v*U|Oc~uf~84KLoww=nlgTT(u zv%v9g48lzV#S;`c&P7m>`HV$=Jb^a08&1q0@dOH+_R_QqvX)S1rs{jt>k_D|v=c+| z$5IjI4}kem&_zSSHlRL?^^r{Zz!}jbaXLAAx+XorjuCPUs5mBsa`TKMicz>RuPfM& z!I02aVXKo8R=TuO6BI2XQ1aH*+RiEm(K{4RU$EXbmPsPC%6O=x44cPlCJcCPUT!A0 zMirm7MlvS0@wOP+c>SkOEsYrE=cx=YQK|7EH&Lm9FRoJ4CHBQts*;*gwnwSZ%P2HS zl!6)x|3Mc9VH%0!BbhR)gH6zqY$aVLFgX|+Pg1LZeie)>P~hmJeUy3@liG@@*He3G z*ZP4hmz~)_WQx2&XbLY0{~+-12z*N5|0M7kf&YuZ|4rckA#jZV z9RZZJHe^wB(JaanQ)G~$U7t=TeL{;u-_pOP8;269Yq@j!uN%Vp5bRzxykfebdq>9? zVcXha%k&-&9NO{N(7-4C*-(iAHpXKkPaSTlU)Pc~xK9H-6L5~+F7cxxU z`$%*?pt^He2~7&c0-F)_r+0Kh#X${lCt?j0v`Z` zY^Y9I^8_(1F{Oq4Uy=J?EAC9=g6z(eOYqC&{vo-yQh26NL3UqHVIfcI_o3;K?~WR0 z34{pD@J{*!2m$Cx6{44H2!y;&{zXdbE`e7Ge1pIQ0S|%e1a1)U5|{*l&i?Jt*^mFw zcK&^`{VxdoQv!cOfa$RK|H$;W1pYYz5~qEV_Ghi1iUMY!06I|`1mLYem#1s_KSRrZ zqO|;ep@M#ku6wnMda=qOe*&_W$E^wh4^=7EIf0P3`|~bm;0r3}U!t769o5B3;;508 zanKei6M*D*k!d%9gv8@s`rJogKY;5qV_PI-r$ z9F_=#36PF9p7!}2RkFxrA^710V;(KiGOkQWk~C|84s=CL>`jE`K1K600{=AulA?sh z42((8c8L`=_{gOa_mks~2o%s~0#VHrz{C&>%TN4&LtaeeWeb6A1S|l7DmV~(llmMw z6uV<$^ZGGn8MW-5WRM+Q>~vc-%A#bUvxh^17rGzymX zkDFVhW=NQ=aANZ*srl4=5cZK;yHwjfABx!P=Km;SsamtNuUbgYfu%>X^az%ogx#2E z*)CbO3zqHa?Mh#{y=K|EYT3GQQnYkRmQI2F9&D`@?5p6e|u&6$eRkDN49`)x7!M%=;zpRW5Ze1(%0}?!&*R|G7hO42g~*3DA5= zGG7wRmw-%6N9(%kS%*aHkZ2lW=yo?NrU62u!1d8SZivjvX5#hqK!j)^n@QA>T3m)8#Fipz+t#guf?jg1Y3`Y&W(dmjA%sXmOqG?>UHZHgq zFD@Nf?p?911n+ag5F&a(v<^#Fc8j=mTr`dUUi@d&Ity(!VnGe-EL))g=i_b7(zZh@ z#VZ5iwiD8}6VzF@MyfYU)gALQk^{Wn!K93;)eaNW zNK>;<{#)>wOwWu~drT%BGX~CZ0T(CmWoj)lD)r7uN}F*#g)M{6B&E%BIpLfPil9@K zHfQpgqm?s)TvaBYxf}MGs&^(+oT++e9<5^{HOKk^-L*HMxx)}v=~3YH#L~)7P$eDD zqy|h$e)HGyo0sIbU>(2t&?%!RXNDA*DqYC7gX5*tSq=)I{95J8?98Zp_(^@jx#_i6 z#4bK2?KIhHNs8-)tL%Bttd&XDe(80uycy1cqRT?pCqQateWq_}%Im?#o@$k}O{4b! zGY_?J0yaL`UZlJkphP3@!z!vET%_!QmK)W(=yFWzy}pg@a!hUDE{@Y!If*ZCCLNHM zvxZE^SF4mvBXd*!fNCG%l6$mAai!@|KU+6V?DeXalH;)j18n05n*g-wnkcU(9wfu6 zQQj27&Li7JQR0=aqG+>g!ub3_`}JuQOWuoS+pBUCfgtZ9k%JD!|JZ0^rQ9=1tJ(1- z)3|)VlU*UA!ivP&xsocTq={r%s`1p)oOmBfUKdVmOQcUlN#;>YmqS>cly^Sl9Yr)X z=G68Jvsg%+Oeo@D%X@>N%d`?XHrf)vR@Z2-S-#{0*u#{#w%MDh2r-4OZT2n)78(h) zaM^e4Hko)4n`hc)+d^$KU2U^nZJ{p56GzMrtTxZI&(IYjt2_?;L)WsRMtcr``MzQKMe8K89=>TSv+AM~_RF8qP>h=lMx7zkBsRz)>#e+8lzxQ&Q$ z%(F{pt)e4#m2dVhejr*SYWgWCg>ZOzoSY9eigrf$hZ=dvQ7i`_-h)FYXC1XB-=1S*F_pBGIn zlBq>7wLB=UeyGdIdjV&|2+sFKiYxBvzgcz9`OVrlJz{YaDf8TbO^NNJ^5*xemipeQ z70b7aB|D(<6EpGISND_N#>zEw!>YMq;oSR%_e@LmOCwNVIl9s-IFEmH_PliVIidNA z*nC9-G+&d<*97*9SZV}Q4P&c*_3hW``S9R)dw=b}`Byut500t@K1p}wIq*QwlO3TuKjTpt9X8H_@_mY?@V!zZkbAbWDEpiFw z0LuJwxGdFoUf6V9VJO2{H&AHceN#9ujcsk%fbhn-Jmf}IDi(x+a5f2)hx6V>J-(~d zB?j~n4tI3Xzaz&*T&6-XFJSN`5_sC}^SOAg{iL5%>R=p&S|$($HiQTKlWx*l1ksmC zJG5C$y8{VYIW$3H4l#K`+5wvOO-;-Om_!Wg(2%Tidm-b-MkUS<;kh7_Yf!S_Vlr>o z+s0OOkR+)_T@X&BA-dk@y5Z*P?a-;iL#K|sOB{=7)Rho#!iY)AmLSE1oy#Q8Byi)O z4uU9yz&*kBUUC`s#Px%)PbKR_h6epU>>2w=K;--nLxA*7V$5g>puMIPy34Tl7e#`ZZ zOi|R)92uXYxvX|ipN!_kN`Cre07p7>%1C5qLlIvKyHHhP^npm%6*uoceUjxg@GBa8 zXyqP*&o*6g#eDY11!Z^LZ=RPnb%+I>QbFfKU0&WZ`j5-1?`>bJ=~}Jn5^K7pnr^YI zM=I-is52El1FBB&u0B$|WvzPqYW4Odmsq_^s@`=sH&SI^D1M{*Zce1SZlUgt7TDB6 zr}G;p@8(5HtG{_*;mB&KLnw7DdZdm6D`l%4M}>}~kVKSX#K;a-4&=EOuk!^RtoAn`}Y zOeYC(%F!U3LI};~IyoG!H4Nv_H^?O0A!TleXD(Mw{1c~qLGZG)Bp)O)7H`;uIFJ&H zkIaaN(m|>eBQB~0K{O7I;{(sbgE52dki)=unP~Qu|CXC~ydnVH?8!Of;L|RDd+kDo7!-Cxrq3Sg;@Z!ogMrkAx}`*r9RAL8S$F1jp6e zMV5JEq`*ASzr169N2H|m?%`J(?iJq~SSWe@*y}Z7aU(|X(z1Jod)=>RL;3dM*KfUU z5lcz)wXOV{$M10q=b#E(vNg>gp=+ZJukO5eapC;ySHzO$#m1$2EGU+2Up9y(doZ9| zO6K$B%`yFuqhK)cII5zi;b9;8*YI#Oe|UJ(&p}2OX7lhcSaNU7C3kq3^N$V>^YzGj z)OG{31>%q-#XSr%h)`ZPRM7jz!JGLf`A&G^n+ZHaz)iqM;1&V4N%j>o{l^5B2>gNo zcrP8F2S$MJCeQ~EEmI{GP|{*OkiSa4Xj7e)OzxUAWby>4-v*AOC*D#19vTeUCY+=P zFx6#uJ=AFdSdfnHm0+Z`Ktn4PT zhyk-Pdk{fXFyES8`B0~ThC2FGz;V5kz7=rD@S;Au`=L$+j~aDdz4sd;4NXGJ0kPr0 z^346>4{wVNCnH<836A~Z*8NHyYU->Yq|XL*OMxMyZr>q&WPe{|=U)6C=Jgw?byDET z9Nn&c!h!SR&hx^BtHQMx#0xKoJ6{mSJc2hUjs<}~hp|)gP}h-Nn+!(uI%n_F#1D$@ zUlcB07tdUOsN0lHq%H*>$fcG|1u~KmYH7B`i4-tGcpkXMI9QN3&bR>U)F+&@RLDq_ zA^oCXI7un>oH1<7u;`bxJcy;dOg@u1*>!xTEVij{48{>O^IVG$y)fNGlRr3q;Qjw`;D5X3 zIuz>fZHX}^EzQl0SLx&(FE~ljS>kht1KPHp89XxFd-lZek+T=NT4e5KiuZG!{N9jF z?S_?%+k3|5_D1s)p1>m!qZ-YPr8U0im9BsFXR}8R@C_(5e;93q1%^Q~?<61+*iC=~ zh+1VcpW8qbdWDA=_zwt8Szmq1o3 zmCIb5y^OKr{|#m4-?AK0ylw(x0O^>yXnw#=Twu_R&^~yw&HE{GJwrmzP{dsN=g++S%)P@4hJ`CjWy`rj!y(b! zCz<;Ma~~Yn%q^?tmPO~{2&Vp{%RMVb(TsaS2L$uLr;&n^JA*P~h{{qPqJ@keUV?#y z;W+(w^>cc>4R{-H1XS_5pbn?lYH0`y%g^oi_2M`6@>_L-rm@xn6$ zQDgtpNi^_I&z}Mcj?i*sp-l*}Jv$&B4w%dn}Itc5n7e~H={GXt(n+dgOU5!xdS%Lk4V5NHn_Jc7u|En`! z`=dYpBQdu^%B{F}dU2mvyHm*Bg&#K1=YzOFWqv!WbllDBLQMQc%2_r^kfjD25-nyFDo;5VCL$Zoa}H-O-0RW8*~No+d&f5(H#HCb*zXoUW)Y#R)QpU z>oe0nnPEJ@zl`!xdj|d<0P2+V`iQRZ4*OFXN(5c(7tu8f+FwMsS{bXe!g;2oeY<)49tQ5fN`Tqy@;^Dpk literal 0 HcmV?d00001 diff --git a/utils/__pycache__/__init__.cpython-310.pyc b/utils/__pycache__/__init__.cpython-310.pyc new file mode 100644 index 0000000000000000000000000000000000000000..29af542a418ad27eb2a5afb9b30cf627d4e1d660 GIT binary patch literal 185 zcmd1j<>g`k0s)7m=^*+sh(HF6K#l_t7qb9~6oz01O-8?!3`HPe1o10IKQFCVzc{ff zGdEK=Mc=(BF{L!IBvrvVHLoPKNWrBjzaS~ULO(b^CpWQ5!4afP-!UZLSJ%HFHP6=< pgbnNzGEAD@|*SrQ+wS5SG2!zMRBr8Fni4rFUF6OdqG004ssEmHsh literal 0 HcmV?d00001 diff --git a/utils/__pycache__/__init__.cpython-311.pyc b/utils/__pycache__/__init__.cpython-311.pyc new file mode 100644 index 0000000000000000000000000000000000000000..b94904d547e3cb9f74b9d2e32efe3723f4d81f00 GIT binary patch literal 201 zcmZ3^%ge<81Og6A(?RrO5CH>>P{wCAAY(d13PUi1CZpdPO4oIE6_5KbBg(a#0O?ZM#c{eFrtVV GC Date: Mon, 7 Apr 2025 23:52:22 -0600 Subject: [PATCH 4/8] Removed binary files --- .gitignore | 1 + __pycache__/async_re.cpython-310.pyc | Bin 13869 -> 0 bytes __pycache__/async_re.cpython-311.pyc | Bin 28894 -> 0 bytes __pycache__/gibbs_sampling.cpython-310.pyc | Bin 4134 -> 0 bytes __pycache__/gibbs_sampling.cpython-311.pyc | Bin 5966 -> 0 bytes .../local_openmm_transport.cpython-310.pyc | Bin 7418 -> 0 bytes .../local_openmm_transport.cpython-311.pyc | Bin 14366 -> 0 bytes __pycache__/ommreplica.cpython-310.pyc | Bin 9175 -> 0 bytes __pycache__/ommreplica.cpython-311.pyc | Bin 21110 -> 0 bytes __pycache__/ommsystem.cpython-310.pyc | Bin 27246 -> 0 bytes __pycache__/ommsystem.cpython-311.pyc | Bin 64929 -> 0 bytes __pycache__/ommworker.cpython-310.pyc | Bin 11285 -> 0 bytes __pycache__/ommworker.cpython-311.pyc | Bin 28464 -> 0 bytes __pycache__/openmm_async_re.cpython-310.pyc | Bin 12720 -> 0 bytes __pycache__/openmm_async_re.cpython-311.pyc | Bin 26230 -> 0 bytes __pycache__/transport.cpython-310.pyc | Bin 743 -> 0 bytes __pycache__/transport.cpython-311.pyc | Bin 1070 -> 0 bytes examples/RSFE/TYK2-JAK2/ligands/ffdb.json | 12 ------------ utils/__pycache__/AtomUtils.cpython-310.pyc | Bin 29383 -> 0 bytes utils/__pycache__/AtomUtils.cpython-311.pyc | Bin 51937 -> 0 bytes utils/__pycache__/__init__.cpython-310.pyc | Bin 185 -> 0 bytes utils/__pycache__/__init__.cpython-311.pyc | Bin 201 -> 0 bytes 22 files changed, 1 insertion(+), 12 deletions(-) create mode 100644 .gitignore delete mode 100644 __pycache__/async_re.cpython-310.pyc delete mode 100644 __pycache__/async_re.cpython-311.pyc delete mode 100644 __pycache__/gibbs_sampling.cpython-310.pyc delete mode 100644 __pycache__/gibbs_sampling.cpython-311.pyc delete mode 100644 __pycache__/local_openmm_transport.cpython-310.pyc delete mode 100644 __pycache__/local_openmm_transport.cpython-311.pyc delete mode 100644 __pycache__/ommreplica.cpython-310.pyc delete mode 100644 __pycache__/ommreplica.cpython-311.pyc delete mode 100644 __pycache__/ommsystem.cpython-310.pyc delete mode 100644 __pycache__/ommsystem.cpython-311.pyc delete mode 100644 __pycache__/ommworker.cpython-310.pyc delete mode 100644 __pycache__/ommworker.cpython-311.pyc delete mode 100644 __pycache__/openmm_async_re.cpython-310.pyc delete mode 100644 __pycache__/openmm_async_re.cpython-311.pyc delete mode 100644 __pycache__/transport.cpython-310.pyc delete mode 100644 __pycache__/transport.cpython-311.pyc delete mode 100644 examples/RSFE/TYK2-JAK2/ligands/ffdb.json delete mode 100644 utils/__pycache__/AtomUtils.cpython-310.pyc delete mode 100644 utils/__pycache__/AtomUtils.cpython-311.pyc delete mode 100644 utils/__pycache__/__init__.cpython-310.pyc delete mode 100644 utils/__pycache__/__init__.cpython-311.pyc diff --git a/.gitignore b/.gitignore new file mode 100644 index 0000000..5509140 --- /dev/null +++ b/.gitignore @@ -0,0 +1 @@ +*.DS_Store diff --git a/__pycache__/async_re.cpython-310.pyc b/__pycache__/async_re.cpython-310.pyc deleted file mode 100644 index 341a06dac3334ffa24051d0597980076afb4db91..0000000000000000000000000000000000000000 GIT binary patch literal 0 HcmV?d00001 literal 13869 zcma)D+jAV*S?}BQ^jtI=OR_B6Yj3Z2z4ipJoGiJmy6ff|=-_Q?0LGj?HP_-2vQk9tB_nn^B z%vcVQs?Ys?zVm&*?>lGOV`F&@f8|R*+Bj9!wEv>W;Gc!aC4AxE!4aCL30)Wsy=i!c zPGJ*a(=$12H7w6Un$^g78TM_@W^mL{hXI$Kkwz)FL(v^i-|wxjUk?Cl$zt- zIJa##$}7~L-8hu^6Nx{`zSWrW4vVZeeN7XN$bG1ZTyW%(>CFghS*zr`kMk>=fxFh0 zf!l10P9t#J>+an0!`9l;!fQ9TgVv237u=e=E^E!;ep}vgqqZwMEw>h;$fj(!+MUpq z!FHp*R&#>~Yn!#!2HLAN);f(^RByLJ_kKOvbX8ON{9Gs6Y|HRMexX@!)Z6a0S_4(r zHW9oSaMJ8XnsjNSS*tf@*V@fD^Z6%OXsx2hrEOVnMgDrHwMOkD#S!&;^$_7IBDwi? zYrVd4b9D<5{S)2H=VxD^{nQ#&9{kH9atUAfzi30iNj(V{$X)M%)p-(N5wJtN5paQ0{j_qLY#zuRJphPr!ds{F*oi-xaTkS@7*Wte`eqDST{wv}$*!|DO z4sW9`gYIJ9#ov6R7KXINVGy~UZMW7E&+hhmy%D^&S_=c=E-eggHMh~7=tT8Kc)roz z*r>NQuzRibH504c|D&U0 ze)jJ9)_Qn8taaKc=@;1hDg3vh#|jKoh$rQ402(kH5;LRKck^Ez0gX!sHUU-Ta;wzS7d~9^+I? z)!Qwoe31c#*xlD}5u4%@wBG21n{Lf*24PqOcck+biFQZjMw>wkoUN>V)TopqeMQ3p~ z89(p8a$Z2X9D{QSUpNDYwxy`&@fmO(xW>=(R!Q%c_BV+dU870#|0ql!?+_7ogj4od zCw5-&{d<8V=I;BCbsoq_|8agJh~8CYZldnTwBMHAolHC2&mZcQ%B6hhEF#@8oO11o z_JO^l_jJW??pp6byf0&T^#4AGDs743&i*fge5sw*=<|f9x@RGKVs%-SaDfY}Q*W zgk5#c!I)eDGFpqkyFp4WcS8i%*`CFO%rKI?ofS)Mxrut9783rk*$g*E=W+z2c%SA% zn^x4Z%`@q$kMNeErKinKr&2~F!tm*+5pz!_AZc$ZW}Hm~Nu0wzDh4V~AxqAZL%c{i zOp6YpAK(jVbIXH7u+M&1$eZQ7?16P1*kTS5Lwh-(o+E`x4Crjz}Ci)|C?MR zLp36MH~SGrxMzR`m8x+$0cN3pUon=UP2h8a8BgN-m{xQHobiLP9UTKeBS%5&_-HX8 zk-ul$rA9&YKz}Wej2|lLqQCc8C&oge=CKhQv!9IhI|F+|+Y;w5HXzuDi@muVZg@&+Dj4-R zw^SGYT1SG>M)D$R$T!K^r!6L{Ic^FACz`ZzYA2q?FN`j(AGIO36#{?I2zx_!naTQLSO-OHm7!wM5?i$HAP!U{|<{RrvzkFs7sHe-^Q_^n5i8GSa zkT}=s?~(jG6}v{o%tp|XU#5`VUflvOjLZHA-Ss7&#Yl@;3=;&?0`cyz;R|1d2B9Z1OV5Cv)yCE+Tl4jk-db24-Eoa_luNNOaQBj<-VK%)(c(xbVx|KTFEMQ z{xaq(&yz!-Q<7AWhv39HU|@-_8CFaM04`Coes7fd6C?W_d|?UBlu-s!EP~i4bn9vN z@cs@AVB?|HC#FOQmskI9!5x#eO2iUkhA=u96n4W@ST8AowT9q={;*|niBnu6L%5LB z>^r7B&uLkTt9^u?qxq!6Sb~JcPY|M=aY)%jFITvHE@>ml+0k=gX*))@7ugU*`9}up zOxZnc#}b8|OwW@4(zAe6i+lQx-7|J`b=IVy_t>IvRNF1=L5TH?UIy%C?4ri$rIGaU zB)vS6eke(w7)hT@(x*n!4=3rk<5#u5`Cq5qI%7Pf8&UaxKESzT2rw0Kfgi?ABoR3Acl_`g%POv+k{$456NE z25?FBZzCwvwv-lFYmjk(w3Ki*&GMYfbIS|Wxf=`B?#X`8Z3Tf~Yr^V4FW%VOH!u4u zOLNubTQ`?hx-Sn!pHruJ{pS4Kb^qqAh3btP-I-47POE*t^>LWH#Z!J(sJ+3UBB+HEZ$h?o=b!7Sai zzPq?|vkHn@iL>u6EM302ybzlYgK*`lH@OVt(s>e9kHw->7O?^j$UOH2SvIZhKNt<{^102D%!cYZS<)xaV|}a zEz@aZ;`G{7Ma+tZ6jUC*U<*jfLFKU%vz%jD!4^SIS`M}8w8{V&`V&Jqx+IB zwzi8Am}LA4q2pnSqg8|wkrn_`PsViV&UC6WpB{}H}0f>Uxxp)Hx@<{^S@fTJ?PWDl@1$|hjx z7Uk+Q1OH`%0F$Fz9~VnD6iEVAwtmu>Fxi@5O(6|RvN>(qC{@ypufr4sV^9g=y*qUf zSw3?nNWQad|8oSOIYX(#2T8GIJ_5h@$wY5_s6`}`ZKduZl_WM)v=3(4CgAK*y=+h4 z$`L?^B-6~Q?P1`E$!bD7^269ZYL8f)BquRQukicC?17(ARUn1KRtH5^knJExB zy-e5@vrj$=K= zc0KK$P8Syx*V%@V>7WBIxpC^NdvYnc4md5`dD2r{1eQr@s|y4xG9#m=@s*VI33p+yFN ziSF8m`PrnO5yIvp#uNTe^v9fZ3N#2ReVR9>^eO#yP$IznzWK4gKtuaRW}ei-Fagm4 zA|T-o0gk;(!$Je-n~7lBMjBw`aR9YPDA95vBGIGJ_EcpY(asML5KT56w zqC6e59jE6AGR<2(eMXzoj%Yi%p0krzxxL&Sf^Lh*$MFN;I&{b4c=o$`xR|s+W`8#K z_m3LP#ecCljBKFOOh~QwqKOjMlSwBm_ulRuc+V z?jBYpcIZ-q(kE5=;JRV_pMUPkP2rAdWaX%Q(%Q({J%4rNKk#_fiV?W|O47n%8c%CF zUEK`wHj_L8w}~Q?q#Q{`U)Y^a)?##>0fKp*)x5Rc8HzKjo2h!`r3I4dbNtaK-m6%spE<$}mp`=r}fUB?3!O zy913yJkFjK}=@WU@#EjpwY_A1DCmqNq1^Mb_%AesyIcLo9aK9*Nulu-ba;CR2z=|0sOpzs-z;N0C)Bqn|+$}@{pOp zzudY5RI5T$xCw@MCG~Nz*~C)HWz>%I-qW_@zH@+Te}a_o`*4b88KSamIA+0CE-ts|B#=7_ivrC4>lr;6jN+F8`M}OaPGn0W;|y5M^QIK`*KW8}&;6 zPIZl^ENXbliDZKJ3U*n$Q}JVf#k)B6_`gy{tf-tbkhe7-vru%<<<>)xk zb)b-!sO|`m`y-@X$MIvtV!<>?OGG%?0%`^l|5>-3G8!_@g5HMaPMm?5;ygaSq)O+E zv8%f;oo}%QtmONL|2wGl9`#O`hk72sM}6{sraS7Ay8DAU}z~Ko3JF`?)ju6?(umJt>w6k62B+ z8ZcE3}o1g=Al!{nylg<2zQ z?5$SKq+Q3HB2QN zl58a~FksOj6-aEXK6C}N?2QX)_4~C5uQb+R4tr)eX_@YeeFa8oEiQW)Qlib|yN6GI zR=~J+`ZI7(e+C&8%8zJT-LWNgQ|7`BF7n;6{^h=k7EXuhO2qp8Y9%+K;K&=;SNS$M z<8bgOgpCmy7A&%Xq)LXR1a34i`AbxW?n?PhNv2KS=&>P57SORFer?&rFiT*L(9M70 zJT2jtJ`XLNboBuiIjAr_b94Hf^8`%9F9s}9tVRX_(YV^d^8&n7xr!k^Ov!%#3=b6; zqI*8>7(25jI+vhHXcyF^XpwSF>MvmmbH|7*ylB&p;HG2>17Za| z6WP3x*`7J0Ju+r+=Ytg7`7kSn3Mp4m7q64BZHdy#F_c#-EXQbT3j=YoP-O<<`JTE( zr01c9syDfO`!dYz%l_rtSFbKC`OAymLZX@d$6HC@f8JshO%gZ2vzvQ(vq>gwpX}%% z?)XG^8cGoHaTl6N2bTf$F1?Zy-4n@`?fI~?+JqheodqEjRMn=EyW>8IB#k8m!%{`T za%v2inXU^N`!m#+O^SX*4slUDV5vP&_M?!}m~b*8SnX^ut4+A6H<^q8TxfkAW_=ng zUPcYi$~#PIU5iHQCu656d)by6&Ld&tmd7+aY7@kMY@gVb z60v`#h6tT3lUaN`3__p^G%||N@s43$fn^NN6vnp=BJiFLTNN(s_!85=CAawv@GpSr zGe8zF!S3P(O^-rO4~RwJqYG=an;S_ra9s$9jZ4_zSF33`mj5AvMuja0ys z008j}N&vtHqBX_%)w5R!g?6*?&{Z2s7-lnQrfo2><9(Wm7nt1>*I79nVrIfkc$r}4 zSe3*W8Sq!~@-Gp_qZ!;g0K@asgdb6g35AYt5C(KpVt{eUSEE=`f(BxVqEC9;}XL;FpT zg!Y>xQ+NUG(aRN?gA2K%9!(-_@*5WmyA5MFvoY-c9Zen;=CZ2sGS?u+#!LziD*4(s z@iQN3yLiG&>}<#89xkXJdazqU=5y&@2COif)Ie!aP<4k!lIxL?9td|Q&u^$~k%hes z`4~w7SKql_9&HzT_M^;Bu~&qJ%#?pTT#sYLq?NJW*nTeLXnsHUBF%#b~9BAb_lF&O1tQFi(PUmS+trTR+!<7l=8VzcZoLl7l z1vzKn#1npEd|JL=+rCl5UEKo)72e71T3z0+hXLLji-7L)g4P;@7Mbm^Je6^E#-{qx zX7GKKH=z*XP}<@2wb4-WWPhCrl=KZPhnhT+!K6Zn0s1PPtcEmFWs8~Yk7=NItd_d& zWkNh)tHZ>DH*5;_gz~Rw;+(PNjir@IB~r|v)m`2h!jk_)+<+vcZ58Q`jg2dK#00DZ z(+i9?WQMU}YT-xM;1+qL(34e|SSau34m1b#Pq!k**UQepjoiQp`@8D*CqQ?z&jEbZ%4vE^PPh8LkH`1E`gIG!Mc=>MsWpp;>*Rcw9FmgqJLI_Jkn$kOV#WqX`KJ`xA?JtWki?KABqT9#N&Ci2G9bVB<;;vNN_e8Zc_w;U@hcgcsN=C69Ue zS0VKcc^H++o<*yU*LeJ^2CuY1>@7WsaUQ>xNKRp#Ls-45j;Hx?C~L)dguQ=hKMvb* zR8JmH;3Ufmjqo*c-XVup=b&Yaor{V{-UOMc=Y23OX34~;{>fNLA5dH0C}~*6l<|LT CZbuOS diff --git a/__pycache__/async_re.cpython-311.pyc b/__pycache__/async_re.cpython-311.pyc deleted file mode 100644 index ad0f7d6e1fc3533f14f03a7857ce4a7b682d5d0b..0000000000000000000000000000000000000000 GIT binary patch literal 0 HcmV?d00001 literal 28894 zcmd6QTW}j!mRRFSJQ@Tjf&||L--Jw350Vl^QKTq7WJ-KUByEprk70-nQjkD^Zh)2q zlU~iPQvXZ^CS$%kaLYHS! zs`<(}w}D1C0NV7UQriR%Zr^v`KIhzX&pG$v&ulge1()OO2g{Aq6!pLHCUY6mfiM0Y z1m2|>YJp-jj5erQ(Jp8;7}h~px1b|oeNexkhd6!EuwWqH#swq!E?Oue-=+l<`8F?@ z$+u;}LcXmFR`N}!zikUPxHklgSL_RRQnxYan8)^v!IJd%q4akt`PK)W3uR2vLb;YY zPcf!9D8}q}{ai;;AHlzLEmSc2Im%;+eQ24#>US@OS-*QF%&Z0d?(mX(cn(BA^+)J!)#eXBrUUx^sZgwr?_C+AeRW=+7uSMLfe>E6b^tt^v7q9w4%TS*$ zxVRSdMFZhb#C;ROhg&MvR` z0>Q4u@XDaY@)`ErqY;Z&*+3}jU0Mq*V*L2n` zzOLh4#}=i>mS9o(=8HiMzDYl|pnRcrSk4p!bTM{-6^sL5B~t>hia7+ZnkfZX!#DxfGGzekm~w#i zj0>QfsQ}o(R03>dssJ`I)c~8B8o;1h(L_+e%lcyz7B^fYL0=?-XcF;9-D|6EUx>-a zn596_-+9Fs@iXq(F%`OyI%0>`qJd!KNHDy-90)A~285OtW#olH!k2{iU;HZ=w09{p zk^>c_HgxN{1VrawjCNfUgBO}Rw4tIVN<%$Qg>*M{&r>%v>r_I1Ey`Mc4mTgk5gKY8 za(d+#7FD3iHGL*qLPn)b41TXu*W_~Q-b8Albwy3tQjAVns?c-n(}N7EXRCtHK6z!d zR%Tw;sQakCV>Fd=W*85d9HM1%^p`v@l(1&kkKj|23{8p`bCQuZYO~%{H#a=Ut9s|@?v&T8;*$jRbTX~ zX!PFoS&GU7wujt!VA2g2|~w;AYp!NcFLm{ z^$~w?iN!Z77KK;Ie83`0j3AL9xA^_DM?y=HBN1OLuoCEGj+|$G%$hIicaQi(Q9tV* zWy7mi!Z(l1g@Y@;n0pwr9l-%hPfn_Eh7)zI-V#k-Zy*$idcCm{IXV;7iaj_Cbbg!K z)9TG7DY~A^d{T79F5Qx(TM~f>9enE`PY((75Jx^w_Ou$z?TC*)dGh3uiGIuerkyuc z3Z_cVRQaf;J+6n~Lwm{QjkjKZ^Yv{;s5`>jj|%pqdz8jJkh0p}>VLDJD{sH=6g>TW zc|UJGEm%);*3*w&m3MFKy4sSiwm;W?T(sNXmu&Cbso~qlh4yjYbzX3t|2vJ~x)9fI z(hn;d63s$mH(${sRP;cM4SKR`sz{nDcvF>Ns^UylDU7L1nksoywP32|Ox1fvs@uO80^}xgSrm||f|Y&Me4gL0EPF28 z9+SfoH8A}|Wu^kGL~fnYso5p;tW@qcbxoEH)P0C(LYhs_J~is|YLuBSv@EmJ{FWI5 zupDFT_$8E{$fUd!T#HjqIR$gq$G*?|GA2K_*+U0q%CpW(dunG?XYhZb#wk*tQHu?yiVK#hw*zb~}5DjIQ4 z2PUBpgqFghE^;dZ423i+8c2^seKY_p$`A?q{i~vOWmUBMfcw4b2i_z#E$Xpf9xYn~ zjfq9+{znig-EJ0{I*Z&qR-7e#EN~X$B7Y9xHbn@gDru_XO*Mk4hBMUw!MtUA({{(c zX^-3CX45KB)V7N^H3+5#&eZVGWZksn(^)1bS2@I+&I+cpoayYIR%b4MNINz!Y`t=4 zYI7<+^{})|C~e_O+l10KUho#6R>4WIm+L)y<>aZe%HPQe|x%2(vv-XhVc{DFLA@VM(StUHl0c^%^4R) z6IHyrTuz089Ehy@h@9(r+=GY>+UeMlc|W@n2$A)bTbg`9T5vN!ii=SYsev5bqmt$-%ng)DkEM-Y_X2?GBZFI5is|rPNcv9M+{v*HudD(!XJX z@^bqHOBhtG8^2ZSMXJ_Kq;-5{BLakWmE=*eo?uud0V@QYiwYGpmGTTF?%DDFs^y-Lk&)wD4Bn#6SZAOMa^}I z&Eq?AyKfUJ{=H=&2ulH+rUzr4Sz`7AmH47jHgIJv>i2rP27+PG*hB^)kjcJ?{T~4E z1h^%oah}yE;dVpHRekrh#Id`tbFC)?*U6pkq-&6K4esfvvhoxO!X2R*u^9X5|B9hH zp&Y8RgAEl7PdUzbqMfu5V7!ZKEQlsi_B_;yN(Qu`o&R#XWf8jdUgyV*l_?LzukfvL>|xvO!)3bH3-#3P|6^qs&x+TQ5gWJ zRZ(-#ni#%U%(a~qD*ARtk`+T-#gH7G_yeKhU*S^ z&k0ZcZHBYj&T1anO1QF?q^*Usk$Ol*1xVF42(`ySCUy2;;T|lD$+jL+vO8((=4{=2 z#tb24NlM*1q<@ao_S-bc*#<#1P<)6hJC?K^<7~(FjD??pv=0m(Qw#Qf>-nUujmv{NYU6K3QAR*2dY|zU2t*+s5P4%H7h#$+$^$ME)0TalfS3$IofR0+#s7nGJSwa8XTDSLq0wU7trC~~Pq4Nx+Fb?;Cy zO!zof@D0l6=@XznSzs!xj8;E4to0gRgz?$XY~Zs<4+3zX(KLYKT&uQ4X{gOc#t8FI zQLHVkoj{9Hn2n+>3iJ@}0O}*%t3F(;fKo8h6{}L4s5;!~l07;Qg01)*Ol1c4$84#XK8qk7#$1EuBgm$Yh7_nVNXT#hkbCw*nn zhEurLMap&xu?w(KQC^w&l)0gHGA>(M_U!{at4ZC{FL@@jI_H5{PEPF`8Z#_#HngAw zRajdI~Bh>A#Yu63g@{DZ&^5xWDoK64M_1g>7@AwYuFDX#} zq3^K%(gO86zr*^=3e;cz9oFx{`g7j7D_cKPk=8)$&$%kq_yhE2V2WcvH-PcF!a4{w z{%z=yG9LU0ax1hKGJ57W!XDz4^4S?hSTI@=OV;~+w1ofv?3$@W$l zBg!kAM1W&CGUXDoZ8Z~v-%K@AlQ^V|$%L8OH(?4xY z<)l zx9RJejCJb%0CpEKP?xHeOriarsYP7}l&;AXfnH^T`;~6ZD_xr@a)8n~hC^su_CPp5 z>9)MKWv>QC3*vKoY?V0Apjmwc&G;ZY`=TI9zp@r!!77lIpWQxi_lm6g7XwQHKhx#D z!B++zkcy4TZcxr4qR+kC7Lw-L)JbFjEq4156TV1pToD-&J zM#sh{CdXoRnb1BpYFOfQ@q0}NXbr-Q-%H#e8sH_0)<`fM^@i3~uK3x{P}~xWqgPqK zkBMX=krqY0k6pa_847-)c`f2+Ne!Q&*d|({E34k6aF7A}CKc<*-oXmSjjf@lM&XXd zYM%-Du0Sf7Rngr8Y_i!B=|v4Jf}k{1L)I)YZHK$CDhH7&t#r1a8BVEQ2A!!Da7DwS z3hqPDEwdM}=bDhpd`c9h?b&5a)+?ltuJ~`Eh6vKZZHgQ4razZ1?_Az_?UR?}7_xK_ z&Cd-_PI~7jrp96&a?srl;{ygQc)p0I@c4*_#-_pBWXwA@{p`f-%rs!!yjb+?*zCEP zxiL|9%O9B^7wr>MmnJ7hCg$g6CZEL&j!UyMqtA@YPs~hv=jO*Q&56aAW~b-9TaDJ~p^lAXSE>}>?jW#RM5DecypBu3EUV(Ws)o>J4{!#yGgsgJKA`CD4Ry`)NycJCud`;5{G1qIB zL_K+6Bc=uzu;xRjCPqaa^otlpk@?^ySrKt6ia876Q5;eteLzKEUT}bC%01g|g(q3z zxqq0i=oKn@(NhI9Ynx{{s~gs)Z(Vrv0_Qr((|rQn$I*SDvTAOB|IBVvPqL}!ftPO@ z6Pm`*`^F801Zxv#eM&Ahz|&_0`V2>(c|_6@uP3d&oV8cZaO}aT&@;)qCV6^Fpr<%` z>Jf33DOTj?A-}zJb7R-;PTJjxD&F29*gH6TPs-tZ*Yb{qt3J&;1_Z|d=NLfS$i}X# zJ?Uz{U&Xt61XoY|X>c^MIrc16MOA!aPg`zledw&%u1IwA&Nji>wxvmxmA||2&cfR- z-hFXPpQ@|^Yjkdj8Y};nW4b_oC2yacg3GNpQ9#uJg|04^Q^*ocOfilT*JM`sEOR zdQvz&$)B7OPEKVqt? zgYlhXe>w42Gk-C|_lyZWWBk!^;plj#swLjpd9Y5MIJMLIX~`#^Umf}75x)PT(0`FX zF)5sw%+wU*o!yUI?nJo&qgf-kPV6)$T?3qJ0PF!jvHaM=HC^T_W`&Abu3|RjtlIXy zeG$f}x(0{ry@7iJTcdl`l&hMIY< z#s$YX=NNy~(6Xh!Tf7B-;O_Of)}5$)@1=V$#YZ=%Q}ylfQGu>|lvSH>wMQQ`|CQ%2 zJZX;i46;6cz$*Ye{<3iVWuEp4w2z~G;DJ?Hx6RyJ*{wU0tUL0+%GV7Dbpw3G8KL4# zLBt>9>2ZM`=jic069s6vvRhoAEUxF=J$!MmP}~bXrNu6yL(UhxTI2~6=JK^w@SiIrbv=f9B4+>)1HEe!4fHZh z9X$rN>5k4%bt%tbP~TRd!j}L!iu92)Qg3 zLKvdgRvBm-+Xok9nrPG0J`fq(T~VeTq~o;QL4+VOa0)lD%vk;}$QKy~4gj7$m7VvQ zk5_i)g)^79*=L2>CBAZ5s9Yx8QJ)>nhrRtfJ)aEny%&Vu3ox26hF}2$2sSu?klp&o zRV}!l+M{&lWvv9`=Tm({yL}T$(CYVH6#6a#XS}#wbk8c#%?U40_on)Xcl)Q3{ZoAZ zjL<)$Nak8j@bpQAN}j7d^Qr4M)qltQ$LrjJPgw8^(@Wg)tHSgR?$*X{;k9YTpjB#I zJEeuYaqVUNifLvsa!$)gcYeGZ)+}j1r>HstZOfPf5E5hv280~fVd5>RawZ0UV)*16 z1CT%n*Ifb*`9u1Lwr^q(0D}7Jg?P?V`gTiHR-A+KK<1G|0hHz4+8Fdp&85|M8=6p? zvZk-!lid2ykt+r(ivvAXj*;TFjxlU#p-1ZZ1_oKW_EBi%)RNO9P|ba%n!~6r1N|u4 z(0%QGp;!9s{8N$>9d=;SSQq8(8y3=EKtnLy9(qxkSwVh3uj)n5Rq52b=`tE zyRMh8h`j)H$m@fBXr@F>Yvi5E#sFoj`K@hO4p9H0{QCb9@}ts!Z2Tz0MOe2A4-R0y z%kU6ZhaBV=4d0+VS?RLX2Y9>A+_xK=I|#>urz4UV+jxLBz%ZKS%7ys*0qQ8v?I)DU za%S1Q^`-d!9j_IEuN=TM_BH5{O2~$@FMAHMMsY zLZW5l`H{&nWy;`L(KIz7WhU!X(LVC@*vQ38Gq9tRWMpqcNfw=!#zpJY@b|oP!=PLr zn^P@_afT%eVl){1i8j3?b`xy|#N=OU&cjg1PVp_^&y~^ z$VF)630YG&UBET93{&k#U`^fHx!ZCg2@ABAKB1*=r-X0m- zA}MxyI2gJ`v80LFA)3%fNwY0r__VpHjRTV!&FB%4EEt;yPp0eY?bv4 z2%dqR%e-gsQ#;>2!_9k>?OtVmDJ%_k8|qBl z73-XphdvTmNgr6@Mth6AwUNPBfVQcKCssNgW>>%t3Z8(O-B(?nN@74_e*ohl>R`7c z_#}tdzy|ckI7&Yvv0%ete~Py)2wD*wMu3VD(FQMl8f|*R*gN(EOh76TEkPd~ad8!K zRkUA{OoDK8dCkA(XOZ2ARwg`_-bD}*ZQdK`pP1PpVp}>IZleL#vo-Ap4!%dkccy1}yPE3LX6Qu}RLRn}ZOiH3vDkR+$ z`{9(3<*OMQ6)m9X0m~Yx-30bBDddE6BS0sFhHGWD=`9^35Bo21bp8@R1m!L;Gs)N4 zv&7;A+vOEBuJFWEM*knIU;}2YCrIZ;s>Xfq%x-l@vbuxo9OA3b3e~WOvw~QkB;`0) zdxWyIYu zk3Oj3>j#DULB4WGs2qx40Na$TyI2j)b{hP(}L@C{Aoo=uC_~3^>fyfsk-*~Onl~XT~lK8{i)sN-ehwxcj7$X{It;g zG+#F%)J;IDt7^L^J6dP>>OrA;karCUuAw;nu)K1+IZwgQm!B2N&&I8(s@BA7eARK- zUt3uhFIJ52_V;<~Q-bv=9Nwy0g=NIX*9{7F8AHLvhqbsn5pbhx>OmpEULZwT^^6~VE>IaVIS&YtJre&Oy5 zaZ9SSHlf8);d(~-=26}~#+Q!8O{sbh>>Pd!#t`${*1Oj2t4T*I??7|X-QrzGN7B*3 zJGul%*MpLz<2dg)o^m#RuA@r2A6M7kJN4e_d#B@*U_aWWYm;;>PuC0N2m;Xh<;T1= z^X3ds*9vqkN7ok2ky8fkQq#Ni;UsI2t)e zBWb%XN!RhTTcF(>jmFuWwjl=FZc5TkJl!JDEgaqQ$X?CW9p~-GA9$1YQO-W98u}jI z(JMH5IY%#Pu`%grg|qnUFwr`o`>)U3#!aPbb0;P7w`4-k{XDcfXgdHWH;euT3R zJgkEg65j9JZR}1qc0ZWn8_x-i=lHr2p>AZ$`mmuH9!{QU^24cny(Ws81okWCM|7aC&~M7u>Xo(!T%l@G@P)dK{+z=5=hr@pMR-kNwC;x zH#AYyKBq5O7s$3f^_l@JZq;PBf}DF@wKFbjZDRCkcQ!a3YD2SGqukn>-6z51yM}9i z@ghp+L_#-CkIzd6patlfWEL_?Grig@B8df0L8kO31JR6f3?8w-NVX#EFwA+9cg3&a zCgzZ(TioykGx;RSRX>Cz*k|CZjGI%3s`n_PxvBu6R@B5N9+n|TALPpp3uT94&ycN^ z0B}fvEd!^wU%5NTH69mAyB|c7rTtuKf6CpmHSt7sw!xl_Dy<=H6ax8H0(>j@AYXI= zKnpCBicNN1AZc8Qbd7-T@q_*H8zja%1 z_zyZarKL%Q9HorD0&TJabSnSBWb^wfWcH9vgOt2|98xI;)!-mhN*9*c&?(jB>pI4) zR(GN=cVVCJ+=C)Ob+FG)h&&>(fc@DT`$Trpd=6Iy#2fQm+EtUh)UN1FIOheHGVle< z4m>I(v)c;IuyCkfdhZn+&vp$A&~kkf(YA;i4&OsZMR0Wl?=!MR3w#!rS#(+iPd>mL zSR~;p>dGxQ1MY0g{c`aezUbmr_agYE=5-Bw)yrV`-1sW~E*8ZrB6HSYo!!F*eezwIw2tgs8bO?J?&Vso59cRkF_^K&>&H zr$xN}3}l_f-hn8OL0UBF;P?q?KNucFL5|}xgz+na_y8TvaBO^A3Sv^)v;9C2k^cng zuq2@=`?0w0VF~P`y!$#|(kheyQ`VbL5)dCw(RR++0S;r3oZf?fQgHR9Kwy0#QF8Ys zuDM4j>y>X4GeTLf$_M#*W#tkWx?Jet@)~ylVR3VruaLpve+_7!i;^a@_4DvJ#kB4+m zm_HCm9((;TeWs5djrvN*2w2`;S%cGm;AFCK7*_?yRmI4RDPQn!NIJb33a{=lt#6{xFb-{LN4Z1?oT1VS`KsNziHCLV9p zPIO8T@(}kb*s_bRL=uJ@1CdeCg94kl>WhrXGII;I2g)uM4^I(Y64DZ`@Arn6GKinq z(M#0Jmgv<$L~>11Z|(his4G?{OL_%6|3^p(k0B$7nuHs>gfh?lBSKj}C=ozmb9(EB zU-AvqH%kvIu&6CN15{ad=22dogdA}-n0Ssibqc0VF7wG3`;ey-f;pU<*Qd)eR<WSZY5veO2$F}&wtU+~Z+G48iWebc9N41_=3z}*yM+o-uC5#Q zbvs)Q3*A3ZJ5(;PjmN;$I={bZe|Ck1+vqbF5KJr9__4D$4dK#y?rh$`vC zP7zO^73i}ZeKut;j~C}l8aTHT#?}r2HDgoF?g~i*rM2|jcOKE;e*jR4v?bCkqnLR6Eb!YNWjY+!$} zpDqn}fGoUxoWr}+oOoTM@?6Z>Fs$Yuz?nhEwyygp3Xul%bRoh~ab6);;pH-Ld==ka zS1kS+MOf|CPweqBch0nc-v_Ks#eZP~w}COFx9d8H`at&AQT3+?#k0*7Jdc%}$!dyC z$tz!!?Sb1Ug?m^}BXg2udg(BAkoUtY!CP*L1K{HRs((eUgK$SU15^j6I>%}!i4jpH zNipuUAjJ^LY??@AL_g`Vu)l@Q!O3#4^9@vvBXGn1UyRX#;g9TLQ`j(3`Vx!1QZHtu zH3Y0UYDhF;Sipp&R8f!5z}~|8(7sM2w+OyfvN%rbGygT*D-LIrie3QD_c7xBe}hz5 z8=GMF%5LRT$;zkr%1)uO6AejVP)k~CIcqJP0<_&MR2_LR4||`u(n-E_QYf8_k3M#k zZcTsCorwPQ)cdD+N2lQEgylzB<#xmN@OIPP=Rt32J52!SJ*CYplG^<2rwyOZ|K!fK`%jo9ReW_OUMJCovU-28nt2}{4 zb;L0;EOPxE;792&5x5lYi&;0*oLq)GRN?*c`75doBlK3T{~+VIp5w?2Ckz~*PwNIE zFcuvoFSx8~fZ2VzVTQiRENR`WSbHgSl^YgvA}E~iiKTKz!m4!IS~ss-U<9o21R%D3 zB#Ukv^g0cWTLc%_HxAaODi^&^&ur^9RX)`dkd?1Rm9DA>(;*dzUAp$c>LPe5a6B&L zK6aqe^tz>R>CImsJL;<5J{VfY2k+01SqSGcJZ^1Ax($lbAHPl(r5^$;vX(;!vf z0$xDipK&_zs!-j<9Rc5r;cPMq5ylyFr6(X9h>-tAdb(_3rae|xmck|9n^|azeFg#Q ztXT90A%-{ckT>l$G|2W6HRHR zPs;4liweMwbT}e40KPeJN~)v;iLj`Tl@hLrHn}h=?<2_LUY6$P43zAS{{|8iySf#x z_pk9)8bL0?S4o^(K(N=C2h-vx zt|F}N#IdBcnX@*hN}XHB&~=5>ctyQbnBXpEx7R*~6;0s1>-Vn1G6qgpuWh(D@!rLI z7vUEgU`O?Cd1tb`lj}N{>N*Rm57#*~=mU&f<+=|mdb|CCteJdRUUfI{_Vv5hx#nKJ zyfj5mIRkzM)kENBP(1`4 zsUC`7d|ZZmt9w&DPp5i@;PZKru6!7Ji7<})e;wu9FCnBp8$Dv_u_`jg+0E&S&9toN*3 z>nXnC)Hl-p=Pi-ge?Ux=erpPpbzS@D?|uhZm(}`Dds^_vKk!@+uNQtW#Vh@;6@+Q8 z_mwqYFr8B5^)lf_ua`Xwjfh74i6J-<-GXKt=_jOE+z-K`qZzx2S&Endi)FEP%mqd9 z02Xp$gmh+LGu~DqKv{}?89_M$^ulNFBlynr1!TZNQKKYBGe?GL+$3HbHJT=OVFYt9Q2z4*;`WFTLi=6(&J$;1%2u}t* zw86PY$)HYS04D<(7!8IJSkPxcvDQ$5ji-T0W9Y%mX<)21oYZBzKTZ zcjP^z>nXftMDeAy=o*U%i4q;FM?jFb4MT?kh{n~x;&sp)8DYmRtR6-EauD19>N4mr;I^r#{gFXKkjZJ<$wd>E{^4a&n?L zF_^+{H)Ib^v4fXwG>|^v2BuE71AEwwz>9z&G47C-9upD!_oe}ff(O|acwG2Ukq&^s zI5nC*y-}lwg&TlkO4G_wEy_=ds^`?76lK0m{!*0XHu+0Y*4yMSMcHnXzZ6x<75XSL z)NxdSkDTF=x>4xEBdUhWd>&C1T;`LaTwLapqMEtPN0q<0?6!4J|7?*4@U$?Dzxp{z L`RzXGWHkRDkh1l< diff --git a/__pycache__/gibbs_sampling.cpython-310.pyc b/__pycache__/gibbs_sampling.cpython-310.pyc deleted file mode 100644 index 5b07b3cc2abe456d0cc37828449162e6bf9dfcb1..0000000000000000000000000000000000000000 GIT binary patch literal 0 HcmV?d00001 literal 4134 zcmb_fOLH5?5#9$L3-GB}*2^k+OvMs60zoUTRHYP(wk#!%4q{xA?35wVs0DTi474xJ zEcnWzDk(ZuIpjykhaB>k_L`G!Ij53hzMfrxppx7Ia%X2}dV0Ehy1(v;mzJ6aeygAV zW$!4(SAt4d?Nq~Brxw;b_0Z`! zVWZQ~bJd_3E_4=kzZNWnOPwX%uLsNFN@qp)onW=I>Nou6_eSS}zu+(8{Ud+LU&i}A zf5l(L`=akWGu#Wum%kLfo?^-ilR!iRCgX7`BCg&-Ov5$vz08S#Rtg4D?{FV&qN5w|>B!Z$p#H@lU@ZNg4KId%;)@ zna4t|lsDikjhRY)Xr^b=A&(e86lwdoNiV3~Znxjk-aDj|))?v>sk~M!%d47WULkU5 zP%jz()sXLD)jwWtMtf>gdB-9Y8~)~(((}h&%GpC6rChQ{GERE&;pVeA2)$$WfXFr< zJddAj{3hYilPBl;13HiH^gP+VjMuAv1-7jo zZ$IVfSVl0ZFH~Q0=mu-{(6E3>}A&aW*WySwI&Hm_^vR{N9O?C0iz9w?fNSeiGs20ViI$!$6aMHaAr zf5|vrEB5Dpw{W}mRuK2SKy9~Y3uJNNc3$rmPAY4}u@VTCx|O_MEL6EEZO}={P8^7?VcU@Xc2h z`6#vF8kMZE0EfW$7a0tm)r!Zpynn(tO@`m>;3Wq@^gXsVTBCU4hy9@!A+`=gI%Ei` z(h+84VvY4Y#eEh>nh}va;VD8PhJ{&Q3WNp_;9gTtf3+^QHnvADyU#)q{qAlHJ0$BH z{f9Y}bSVxhE!a$%$(V12+{D#v}G5G(k2@>RUgU`P>xyO$Pp908S%y#NAw zNg`vfUlOY&y734n)RbVXiO!pF;*>P*l{R?W??^G0+ws>w&W zIVx6+a?2mT8&%f{H4cR0-EihGGerCV`>HiG&T0kWRfgHWF4da|wWe7)b*xphVpgn* zCGUXjT-dG9Iy^e;Zo$W=VV9Z|Xp>s`uBTRN(+I-OKCyw6AHK9F&ZIG!23$i2T=Rbf z9F2nl!B@|mE#vh?gj$_KZL;8-lSSW}Ecs?yr5$|pit&LlSuXa&PPZlwc10*tuxcRq zCUYiBuODX%G^)eb%a#EE;2b&V>G6vQUmD34>3!7zo-e+Bd|cDtOIyZojcBD}q_v|z znm}0O(YkMEOP3&%X?$x$<^cdGb<)O6^V$gj=>#xB+10y&^VXj6e***&`3NmENZK=h z-IH-Rb=o4&%wa|f_fyE%@cht26dbnL^AbLuccntuc|kJts0$2vakn*v5UJc<#w7db zJ}V*^vg^Ay^QRHi7cX~YlaXWM5=+-IM#aTK74nQiQgy**SEh;@%C>=Ez+O3DCZ>cC61 zj5A9>%gyy@V%#5=P^&2bRDqE!Z?v3uu6<5VTki)Fu!=qo0S37E>+Y4@pO= zLqN@Kj)crICpJmiW`@{C;&sr{c#_;BZ*VEhwy@e8&bU-0JitEAXA-Zsfb64 zhdr1C90oCoq21}c49H#oAsKL7!>=G6#=2hgrVy!3>bBVzWir!Sd%bucsgJXvx6ex# zEL16y)5yI;iAlH{FDO@u;&bHg{E*T|51d9Psd&Qfd|D{U;*F64R+KHA0tsjU#a#l-!)Efjbp1@&6m`8|cWfp98~ zaaLq-l0ifXYHTgin)bvpOxM`gFTC9sVz=DqG0unf@q(6KSJsX*19*MhDik{y3Z%a2 z@fJ}>NmTfVMQlnbTW_Yuy^;kN8<)PpNKef_A~`>9ov2 z{j#n}y5hF0_bOF}1NF4ks2(VmY9Y#$`S;J>p5k}>v?$~y?~c~pdx&GCW;l)X$U(W3 zvAj2xlYQ*7D29lI6}7nV@dHoaO{P@pGq))}MDmhU<>vOWNF<|A%EWX-iM=#$J|;Z+ zC9&7{16_Ga%9-wp{D`P2b;_I6{Fs`Lskw!wVuqpQ_s}>us2ILxT{4S2-8^j~Ls!hzGK1I5Mcivvt!2}~$RaYh zWj0T((`yy^DVDqMqfGDmalhNmn_XN-aUJ2^uB2pDgkHVrC9(>M;4Tp(t)5{Gm4qdG#1F{eGAFUI9p-tj|09<7Yco& UsTicfb*+dlP%NkJG#79F8?D@Rga7~l diff --git a/__pycache__/gibbs_sampling.cpython-311.pyc b/__pycache__/gibbs_sampling.cpython-311.pyc deleted file mode 100644 index 1fedc14438f1b5e1e860e4b29bc3a8cc1e43e07d..0000000000000000000000000000000000000000 GIT binary patch literal 0 HcmV?d00001 literal 5966 zcmb^#Yi}FJagXn(-m)#*ve&X~i#ADFj-AG?WmmH7*iEg(@dJ$JT0DC0gbrcEbcfP75lN3`ilT9n?3?^DmS5%pP!z7Ie zMq8FBs-Bq6sVQC2RA})@$~}d$vfFUyWuj5TDKBIVC(UIHXIh&vydo6|5f=g3Lqt{5 zGOU!E)s&PBrBGHTnVc>%esnS=SUO>UPV0O2M<{%RbX#8mJ%rlhW{ZIIhBg6ru327Z zJihllgqFw6R-kS2L7?>)ab9;d$!rD5v7JV8f<9gO6K^nmVVE_ZPUq+>7I8+VRGg8q zu3@T6pkLmr&&n#67Zg3753oN_emoxkhRHR_G|Tl4N?oLe$0Re{oTK4l=%7ch#h5Z0 z{N3Bb>NFjuVqVE8F=_Z!B1$t>ClY0BE&< z)-}{^>nsWPk?sZp>)CEA6R4H8b?x#%SriIr0^R9(8|__;%gA^}xd#g@Vk+xcn{G4@&&$fptd6sy zLTJ2Y=4?JM!S@UUcnt|K`vSV-=Mo7;N5OFmeIy8IB_M$W5n=N8DB?66@#BV&GK6`` z$T7yG7yiHVpPi9a*p%d4e!v`2mJ;R$jGs+wDKSmY#hWh4n_@uki87O9{^=r31l>dG}^aG zMh-%EC&QZo0LJBOU-qx~9~?9X|Lo)=?{7yx9few@cccoiYoyvWQt^!}jn&$B)REKO z%fYg*o#c~A*=z@~GE?TW zBPhn%omWs60+TWzkjR`eDe1#ce=YCgcz*;4myjq$~a zf~z2G;TAl$va8^;)zDTs4~)0b*?VD2L$96I#x)PUMSsCB33u57A~LA6wYHwtou&I5 z?ZD9=+~%__dPe~)xZp9rh(r7rC_2FGqPd%h4ACeh;(@sV<~HSp)U2q23!PW=Sqz@j z+FeaFWdJ8dDoa>XIU|O0Ro21fX<(2zMHFy>5N^%{c=sDa%GubtxdBnl&B zhhkDLq0B{!KQ@tg4KQ*EacCg{$j6|VgrX9`F{{-ovevms)TEoAm5GcM?&RliDn|%7 z;PfKaQmI^a5kdesWr{`KpTtC_Ss6m>JvqG?2L)thh>H-1^;v~-S+9;wzJ+xKd_5k5 zz&R^sDV}`iB@kiqol{Xf2@)P;4#v_2jewHUX`F)Cs*_v_f(X1Kwx%*bRvl!*sGBmmh2*hNAy+*Fa^&)1kU zi;zsKhH%sHt6Qxcea;Z(Oo}}9wU(DFdhxo1MJKfg4;8SGjj{iT^nC} z>BEK9g(t!N8^Qgx?!MC1ryR8Rmcrk6c}ykT<^2WR*ne|*b{ALJ=GKay7xsGXF468p zw(|jZ=zItgJ!Vqz2ZHm&+fXa|ivD6?n=A8gIXdVG*lKns2Yj~C*?UbFXs5MtWiGJb zE%?p?kClrpPR_gC$rXc=Pz*_qVptM%X35sGeU6gAxaI+)*!Ch_z|7ATeV`GWduHyq z8FZWlUopJWT?pDSn$Fr&XoKLvC0E;^+=9hYpGI#X#7bMbt|g;du(T5!IF=7oYoXJOuYbe4WJ%C6Y0n7FwKh6tI%A8I0scAhTm|HL{Zq zmnsjfug{sZ|EZi@qlrpD{Kxqe&iGz;g_p46363KqQr+5liEEi7LMs$qycV;);1l$H*bq~ZYy`JajwAnuyMq6l+#&ITGd!ybJwv1O_5+P!k{c2e6aARol+aK*5*AoZ58M;cg1 zI6~ZH^=2c5hTM3Fqa>6g5k8hRWiX&5*BZ+;O;Rp|m5$ZVfAep6@^6}#0YpyB4Mont zK8CapjE0EJKxINSa;70CJ|tmP0})Lva&f`N=S6WZDxm`v-@ww?X1J?- zx)ScMhWqQt@9yKkp0z@%dh1DW&qi=ht)sIvRvLTS-dR4dk}J~>-YdOV+tpWglt(^v zm)%cy^{ox8UHjzF$6m9k7HTh_D2uD7mVZ{dP`XfexZJT?M|VTc=bJ$|vpd|eEwJee z*OAbEw086uOsPHkEfV~(e=q>eEx-wM&!0c9`%tLo!Rwz*eBS-}%`Z+@Vx!gA=$FY# zWULw)s|=1;2gfTt7pm|ECpKIYvLef%+gb_%< zeJ9-O$cY4jloJtl>^0mFFS3i=X1S&E3lHLB{p`?dgm{14x($KU4w+{cewgvI1E{WP zX-Zi71owK%g3Yek34<`ZBD)#j7cBfD$9FcPNx8Iqj$D8acF{-w2B7W~1fhodH&A~K z9olGpYiR#Q>sv#^8~@u|Lq|7S-x})MXnkvFV59Y|p}-RV)m?6(qmG)O&Bv-u&~re5 TdzvP=B%Bd03U&0ukZa*T!FN2{<&q+IMN00-vZS%Br5q%dEw2UA6eLKI){;p_$;9%YIo-S4 zyFJ~*s-7ix&{}Vapnq%F991QxBLx3PK3^2dW$y-{^r|;@t;&V{j*WIflp~9kr9d17>T|RR5npI`=&6O zRI^g6Z*gw-ZO)y(!@1jcIdAkEoO^wb^Jc%vx!?CWZ}r=pclsU9yZsg9cDj0p=-X+x z&M$E8q-&$K{u=MZPA}Gdm+JgE&fWC#=t}y*h4MBk;@jL37IBe`Vj4fpvm$;_jKVD3 zjU`%|cVw8UaW0D?(LDXLP`QCm6-Z*EFCwFFMgn{@BkM~8e6u45xf8ij1G!u66nyie z7V2KqjylMj&6VhdXf?XPsKx!!Z5HILGN8v!uvnu%F*mL7oL+pyDFP zcY>7Y1n+6XUHf#G<`bv}c{jIT6QpY0tVR1}Ln6fjoAJ!fMnw zqxC}MVaD1n&AS*GU{Z5?`i)Q>Wy67tH~E-@9Q+!M2F2oP1r9a;nJCcJ-p2Ret4N5} z=k_tK_t)k<^S1F&Y(F#}n%dlaQ;P%H!VpgW7+ueH)O8h3lTq?Ubp3r9Mia3d?kMHIWuHVknQ8*25(y;3{@8lo9QQhBC`Rt8uj*qmzl_shf=A-dDZ_pNLzpKXd zyJtzl=3tQE!Uu!REhebmL18|7c;2aHla54CQXQ_nDDhcWs7j3aE)^~y(T*C2_p@gc z>h{wtF$&ScOvAE7B%a@kvAfuf!-}pEdlqZ)1@`+(yG@W9B{U$ zuMX2VlwhOECvq6S)_XgcWCvM(KMQKs21yirE5dE#Hj{`2cKZ5Rv*?NlTXB8zD5!>G zX3v%{f*JA(65Y5T$_zp#iTCJvl^g4ow1vBqu+p_gEN)A$43-!C5yq%Dk=Uk*Tk>#M z_G8!dgely|o@EQqG|g+GEo{g9qwUh?{;7*m)0fY_&t>vwY8nBc3Xptd?1)H2=9gY! z{3EWe0_tN?m?g?!tF`@S1V}b65`pg^Vf0)(7MRSEK~kaC7Bztz1*r;Id*(K?{Gni$ zJv3zp6tqq3MH}(2672;9eMZZ8NIc`3FdyU0-#hcn*<`d0BI;(E9L8sXVb7A+h&*YC z+(6PZtNU_7no=$Mm()pX>&_CvzeSUxQ?KJLrZ0W{4whI(ye1RNs`MKa3RV*0^yeQQ z!;tQSLA5IUWKk0bhNPNBeTqspm5@6JLf)$Cj)8gRTd-$a)Z@-zGAqSH&7<+N=E+=H zh5RwA7FOFb?m6{%P$eabsE)bR!)Dd3uIdqC`t>|v{19)IZ0eNNWhe1*V_meaQi6Xcg&nd>y=AE8@>efih zybLNzzd}-)#}NAxUhWpzDl3BBA-|T;jFk%3tiB7fY}QG28fEC&tgsWAC_G3b_0xkjUI;ql&s+HY*XF zIi+1XrCT;mY>LiqSI%S4W$%ieq8MC&|1-|jVVvqF@`M61rG3=%Au4cvnlyx5s2J)v z$)Mb%pW3a|wPKDlJc9XxfmTI4hPRaM#UVirO2a%)xwMz;?hyn*l!#aofz_dWnvtE4 zI4t^U!vMJTMvY6w6(MT2Lc-BrtcmW^YkU zhLzCcpa;t@q{2U`N2UqJwMB7L1A#Y_acHYG2N6q6F_D4N-wHBv7 zr!Az-(l1*l4d9R!wcmp0cHU`ZfS%R~{6FljUFl2FDQz}#-f5X;(fs8=X%uNUsfck_^tm^ogI2xG0U|F(aLJ6ZI~f zcu65nufw9~miU!V5W>Vt0XsPU_!V}d-a}#|2=L5Rd~3qDP`1dx0Zyn~gNtq2!bYe7H}kP) zW8{B$f8kqgjP$J4fA`+B&2!w%rxrca5I@Z7Dsq-zDeXGP zVG&Zj#`7G44S0yHW48cslp??A2wOGcVJegL=*#*a-gw?}b+gNX%KQwh2&jD6SybK#z}}PU*9?FrnyH zX_KO(b*02p4@y49Ivd7ifD@dYe?iYG0RV*H!fXu>OVkgL+Ob#+T&TadEkC8Z{V64+ zysXCBL7biymEpBf*zaA`EjX8h+PTy|#o@Ib;&Kd~+&$9nVVF)}gzQmR>}e-aS%|2A zz^z(5(BepoX=TtV6U5f4DspT;iYk-TA}dx`Bnft9`s!so6&}Wed{W3)sLKt0Hp;4`~ej@ zJB3_0E4)dZuNC1nafg0GMaRpAxuOc>}!KTy8EzF}=RtFeJN@MTS!?OENgok9) z9n6Q_CQO{UHBM5{h_%RLWjYNY>aEB=b}|oCy%Qt<5IKc@PU%Pmnto-SL8FaV69In& zUI4%*saJ;s$YJ2uu2?!yPCtAdnCA!e@77*CJWxTh6NHG~_zf$d2h22vC8M@Uw&^cM ze{gzOq5`@_iUIlA0uS1IF(ymIYvVkND9WT5a&s|#JI9l2u@_=jg?V?K=!)?@h5bc?lFp&pEXm9pirz z_Wdv^9zDj7ouBFE`E%y0@_vF?%3LZqAN)o&fJ{CKkhKfY3_VF=-o7KSZ+% z&DaO*t+#U?>O~SP9X$)}Y;b0)?F|~3lC_H3$uJRIZP?cOk zN$&;n=adjD7+m;Rr%>m~c_{>=09etbcm~d8d4ad#IbO$WnZEznYkFIr=e^QyN*dd{ zO1s>d6cdSENVgMHcibb1WRghi4*gx&L zcgW$4NTtelw`1zey>nmZ-h0kH-#z#G#}0>;fXDsPC-V?|t&FVpjPTkzYM@FYF69?Xd$;jO0ms_$L+ZA$o)t+TB- zk2w)Yw#~MYgpN2#Fw_SGV~MqWswarg;ZJ^MgN*(X5wd=Tq9IapF0%1dCVXuv70txc zDfmJ$@f&dt!ZQ#dNAQ+#oyx>+Ws;FpWIo2i7t3WflHwNAY$jT51HW|D z$Tx38;64!}W=V#a)iETDpzZ?##!nB_$QXc{7$Z`Ndf3+&P7x>@h11&+$ZrY4S1k>Rl$zh~)N8j=3y9<&TuX~miy21JQ;W^R41|^WU?6;QB`b*sip#AoEpXT)bZ zNjJVnBCm5u6>0kS%tY!MH^D`+@nn3AnK;Qtm?cnb`gja9nx&`N^x|Cl*2JZBA{oij z$56J3W0%wC#$>h9gq!m?zPS8*>ybp9%S6-3#iQBhnrY>DI2;G%3x~&#;99t&5U3Ry z16H{JkUIq5epLRIBE`!}}5*`-GMs+Y)G;k~$!asn?=TJRWCcDn? z__x+lGRPsItPgTXMs6{3Gxc3~4UsIGt3NKcQz~u)Q#}5a$YPHi0*bl)Zfu_T8C}#01v_6J>ELzwkswPE}Igy^9kEiA(%X}3M zW}3YoV>wBmh@~V`YLQJxImuN`WMhkocr?OEM$onSm}E<(nOK<1L^4a9ddn|7dsrIM-wqm~+925NGqJO-a zMo*x$j!iq!@giv97yBRke%>yOz95di08yd+sMvlKt5Cd=$FQh+SuJGrywgg_k_@4F?1LNLuVVa2w51P1Cp5hqr37GxPw8h&zQ-88M}a=JS@v{I*f`v?-{Q&ymo zy4G4@0FgQJQ%Lz-NhOIliIo19{!QX0$v}NKK-W=?IUS=@wWP;fC@3MPucy7=4(&Eg zVf5EADqsO*YV#Zcj#7O)Yo?Lf#3G>2WL@8;>#6?*7vJ?RMjmH@J; zCC{Ec1AVjmiu-t57yK&T*23h*u0Szx?`r3rF(*R20&D6w+PLEtYzJ@Ujgk|95!)R6bCN(r=Z zZ7bkgA=MBV6a$o}4v;~pbTbXjV{~%?n*VFEif?*X$h*4c`uTp#b}0-gYsOFL90}N{ z4>yJd@-q?()Mt7Yfj!B9gb&LWhk8!acT^DJKvUUCEhT555O*vQzY%K&W?qMixD!C0 z-622@THYYlwAfz>bcliBHJ=z5=K}|x^oxgH{c=(~glGED75>l_5HXLxf`bsli&#j{ z_Ck#;jYv0;kWSVJV+65*;m!ADTOm0#9A=wmAdYogIhMKqWMIwk$R_ko zioKKam#=Z(K-{5+dE;+fp2GgS+0`shwKYNuW!-&(*Il(hsaI94h)fe#f4xFNy0V(8 zSLgSCv0VzxKJ*0!>Y-*;RITjXeMmv#jvsZc@ExzIDB(I@?b)}qd2i`%sa9@Amj$F5 z)kk$`&4rw3w}_vTvfHYCL2pLiXd$4KvTIZGQnIK^*23Do53*73%j>^tln^hgKimN~ zhDL4}Bb2M#8xq&`&v?ILn!!5s6&jc9=(YGQq&*z61d&W8mR!uhdX3g~uo0OEo2jqt z+0*LGs1z*s^g@KAWq8CusWc7Fg=HE!9Js@DJVW1%ClXLahMtSnYK$@CmqS*SDj?&) zf^UalLx_wbg3JfI7ZHT1Bs=CMEMq~?BV5%lmXI1U1szcS-+y-malD`LaaK8m| zhj{95FHS!=Blw3!|L`VZwLFJO{=~Km`lZX|smnb4u13VG@9@{(6|b@og(dsm3njnk z9bTJ$biV98%zF=4e1UuCN`t&F1V7OiTDvIt#^spc3!&6A>%O6~51`!@{`ISZ?`_fd zHt&1866^v%w{}eo?q3hSTn@f01gFK|bm4fVHCVV^*>|vLKueHc2<&;bp{|AFm);Y6 zInkHneYwi+J%wr1KD700b62fvjoPgkj-SDh{4oqi4)(Oyu{?9$Z!;o{PR=D`s*FnG z)Y`3GRRG5U6074Yunqcc4AD4rM=?Y#+Z&=UT-eNbE)nv!6Yag&=YcdaDhHb`$KlA0 zNIZdX5wb1KtO_!L+#VokjV8!lQ*}~gv?c}Yhd)>e902PAKRjJnZ$n0v<{%>?nPBU~ zq?3}FTUfewEfK3(6^p`-#%H%C-*P*71qHboximht9`6WqKb^@5319Ddk*s7M2C7N2Gdqs%OI$ zD7LKTc&c3%Q)M9o4p12VeRB`UeSqLAuo&m`3|`^@oa-4qUc|wTrUo4Nn+o+bhyGjf z&6e$gnh$7QezZ$D2%=$z-3Li{wj`^(aA6N@6&VjhqNHD3%1Fj{xp+2K#l^S~-iv~d zuR zRSX|Qk?F+q^REy<^HYL%& z#^s}=Km>L6oFQk-nR4b&p`Oo`x{!yyx-NuF*ja&n3^ABqa3?ILxf`*BWPx`aIpR6V z3h{IlBH&4|pe)EE5d&Mblmg3#cR?oEmdUejj4s1w1~y$>CbkI9htxtWg6uGaqUm%3 zhZf@V3&=i$o}IifJaT99MrXbIij=!tzR+0YNJR?bIH>3Qy@884$hrq(+4qwrUs-%4Ue{l6>v<~ zT^TuZ-59P=Ai)$<1G9=jRp)_pd7V_lR#UwWNH?H0b4Q~_F-E+;Qd*AiH^ij^fpaGG zjREd%5NsQ?p=uGdAI^{J9IRL&PO0LylnJE50)JM335i&25o0#V6z8VF zfy^F54LM{xU{1mrE;J*V!Ox5X&J_5?xUg)?!2xYaRlCGV_L~c_6f!1kCdRObP{SB% zAgr*ZbCLm-;y`qXnsLBy*+RH3fEyh)P5>pa4}2RJ+m>8^0hMw4VJ>AW(Vllc^|hj1 z$f)4kE&6unEx&1PzqkDHd-vYU+n+i;tMR+nSFab(t{oIQ_LiM{1?S!kZ|k~uuqxnEL}=YDw(kC#=yr@f&OFKdEceqKV8{0E2V?8O(Q)6gQ7pQHYED@7W9y#XP}@joch>N8Qv`pA9?b+IQ&XM&-?lX_dsQ6R2(|=WKtY@ z3G$p5-2G4chaaB)(V2&5AbwVG_dxkQ`;bqruXIvy@2-UQ$PPN6;2zxYc9y)nw;z6$ z?%vX&2e%8S8Uuw>8{ITYz@!(VZr{4Qx9sjM?JM0D`wl+w@-LhdpP%6`T;eZ(PrUF} zrEjow>){KJho7AKX6_m%B^f_*@=5AgPZ-Z^sDg1uV=N2k3TzO;1}<3eB<_K<+#9sQUT z3>CNUzU>FL;&iD67=U5n@ehW{(elx`56|5_zj{7@{&!bN0>EM8{BC|9?ppwo>@HK? zDm;%6fo${D_zqcCZ1evO0)Q1&h`l)u)UF=fB~1xsje*LPM_U3pqMFQ1$#)ehj@DkeAW4Bkd~5Jun%uq2yksQ)`ctFLga~7PlpM(!4tg*0}2xj4(Yn# z1@D(;FJFSpjgNLBtLHD;ayyt1ywT9Zodj)3HLpt3+7?%gIsN-^m*IU~&M2QJ<&4cm zNm~v~Z2yWWquL@hhle>+-Rr2`tgw1{`>{HZ(?e}@E9M>4X5Q|e2zPWxr4@d)yl~w+ zDy;xMZE2+^(VPMIgxW!E)c>g`RNX79$bOwiN(zbT zlMSk_q<}g_Bq5-!7vxw4c5xe4XaiaOh9_s$_5r}HZX4jI2cQT#p$2}Cw<+w)85?S~ z0$0YmerHVx@>hL)KBxyB+B7`ceqqOpatEh`ZhSO6aMKF4q}noE+j5r)^u`1Z8ES_8 zK9pu7h#-)M;htoKy9B9>?4~h5;GK|HvVl80TyU7+|;gWyy3Sl30SB zy&)ONEJ(&Umx{p6gfRXpk+&prSt7Htmq6avV;6uN#P<)9jJ(gcA=f}P!Xj^t>`$mR zLvfKCv2c1R!|p~&rpO{(D`G-6+4+qipJYuZlQq1n2TmnDazsD~d`ne!7A5iq#<&15 zpZ^?|5>t=Sde+d|^5k-W8HbLMZ0w(fP? zXxTO@*v3TL7{CiS>O@DT6~K%x(Ko#A+gJAO6MXwc-~PLnyf=So!`V`p5S_j2&atv{ zOmISY0(@6c+u>qgadgeQ)-KnuD{z1I2eTi)b?>cBLTBl~B>&1&m-nOWhuPx5gWZB_ z2+m*;r0Kv1zUaso!W%6r_XX>L^|js6LVEXnMioqzXR@ZS$WjI{U<%)>!IYu^eKkmpyu zy9cul3m0B)NY!$)16V*3t5f)DAMhbR_^1p#xd<8HHRCH30+fbzQC7`cnJ9SUu{Y0# zE(TRKkwx1ib`=rqhDCnH`qqn$K{Pwm)P38yef%%T%!Ps6Au8?NVmqjj(K3ih{!FE< zzjX0ISN_$Czo*o5F9k5p+f{t`-ci_9x%@@n-9In2fa{ib^;VEH^_AUyuq6`R1H60S zS+h$v2%^;<0BSO1`v>T_c5c+in=l99d#{c*T!*;?x2=&6zP|jg7*Z6v#PTNGkyfsw z7LdE}SCn8y?2+$h6g1F~~oKW(YsPxys{&{Z~W@%va;n zWWRt8xs{CaegTaKaHIH>lw=5K4IZaw3@gUeFyvOC*Y>&7UdX3_tnKpwXf?9goZ%hC zQ`Q`QXn8@#w>kKLOGcng_4^;-_cYxZ-N7t@XMZc8_|uMj4zALMtdUV**IKi6#}{JJ z>l_`wMn{y}PUy00A_m?R^ld3MZdG!hR%eTIG}3T%qK$7I!JYJl7#&TsaQeKMPBG}r z9G!@dE5&Eha6LD(5P<^7w@*V2@%dDmg_h=)(cN`gxgI=DpU$9kxaz)?gmhdAT8hi} z*b)1vwFFpau3FtV4Xg}t^!3OFF*%Ty0hv4jBE}n>Imf`q4v!Jj9*yebx zyTc(mmf&LGPl8*^N{$)0e-F}hA`5LJPZhcqP+irwob|(h9x&XD#4}(0H$2z@mmS}} zOs!SS4;^FKG|PbltRLE9Gl(e1{gMe>XmM@eW;lMfZ zz&Xg_^1?+4$K-~)Q*`fMckeB`_X_Sw(LKq#C*l6WdT_iP9AD#v;65?94?K6?VBtm0 zjfXe**@)nq6Mb{MZ?1A+sxU43`b(GA0uSLL#6IjvLnuhqhYfWfV0`muIJ9Ekr)Z+2 z8_>_d?GS9VF+m>QkQ?1NM)z~WVaXZ}C)3PQ0)_42@ViTqL^Z`625E|h!)y@B$c`Cg z0I;)G_5q(mQRL`lQ;4ARa4cllq_ap|}rF$fb=BUYOcuBRv@XfXl+R*2th9M~ij;v6rKqMXPQ*)8QR z4?5D2OtOO?u5~A2BZU9U#W?JdBwIDS1piZkMaCNgGRXpaC1??jP;pQ`ewD1%yWolV z9E(-}$)YUF__De@h3I%h?irfa-&03q89K`T6r!*I5L^-{Y%xf(LJaWQUxn!AwLh48 z(g3)bJjfFV{&c?z(ZSb#8-()?{@rnZWR(?ENf!DCS*7wDX4$FACaYOHn@puD`M%SQM}yRiDwPVFeeUC& z`#jHkn?bee=I~p&@{jkoc5=CYXJP(lp>PFn_|E_;r;Ki{XEY2WS7OQRnhjIZd?PQZ z)vzQjGzya14O`M;qbRAb?QO{7(IR-Hq-q_)&H(q(mCT|l~` zUQ@3lJ)_=GHKeQRP4yPiHT5kl?qckIaqHHeKj^kwUdzTbC%+;xWaBlw;lBVJ8^^h3 z?$`u0j`M)#alXSekJLhH9TOIg3xHrBAeaZ}D7FOS0A0oQWyx0*TUU>BoqT6WS$GOR zHJ{qY_IUX@X;+XtBe_+fUyIf|8{3NAX8zS9|RGA zr{hBFNvrF}#V~^8pvPiQq0JzSi@`8DYy(vdy+dE7C`AXexkF-I;^a$%$vidnFm@kK zXBt=1xwMY3z}O7J*cy1zQCw(;s*Rz0512T?!0$IPTD;s1Jk@L+akK#PouVE`t$H!G zLce?1aCIUdSiG)q2de}t1ZOyWLDumir@xKTFTT9oKMXI2-l*Mczo#yLsy#Kt%xl+t z?2)cr*TLW*czpRz(CvAn+EtQWzPcaWdhZKN>DH}G9^09Yy)$?cJI!Xh-;SEib&M0j z?&NHPkAo-4&BGPbHC)uMnk$B5I%dTft<7Y8XVO<)>{ZhX!}k5Yui~xY zfaar_a;Y&+Ch5B;84K+1>=a%^^ymA0?z8pcpy;u2I2?vC{Rql}^c8l>Et$ zdD*j3a7e+D_@^^j$kji8NzX?Rh-WGxN!MqAwFHjOVgDzwhh&PksmJZ#bZBj5g-hI-_V2JNYp`NE7{4+C|)jP7tnToGLlck46bo9F>7vO z+nn8b&Mp;@X~l{C;sjtSU>&Z2KBPIX7^h4!p*gW*+%@45jZ9+xXHzmXr=IRmqafyH zaRMTtg1HV_;g@?-HiaM~ARL&J71{h487kaFIyZAqp^V4yqR;3{;6pmtsbNmPhMYAn zz^fSa4vEzl%Wv(DTo~}nm%<&Gypid>JK7rdy@Re_i-H^XO>S%oi6_? z6u9`Yp&+kMv22w1<_}G5g&A3$!q}!|(jTY!T&D=<_y)EpH#GG3Kup2r_mBKq*zOIx9zAXC$O~%+J~#l= z>1#b4M82v$I%0!I8qOE}L})SVtH#d4of`XDtgZFh_m3jSLNvpeNt09R|9UbVHZPi3NwJ z&aHOvqz2WKxxZxBu-c?40tX#*WlcMybEe3TX;h{Yg(O(u?e_@v|>7j^`E2dIlH|Ogk;o#)}Vk_tic{K z5xmq`Q~+XrL2Lse&rU%U0+u3i%cv<*@M-1~TR_1dm!UwkCZawQOg+D=e-}NEzS{E- zhan`;ix9*OBHD-0gY+y&8ibiF9QL^#wO*k7shp*brcN2K(y8LOk;k!sM~bD?5=~7xLe#jrzxVy-&Al5xxO-#w+K&*X zzk3jyj}Gc)?1()5rJ3YLskwqlm7_#zyhW{cAU=V4_e? z6bu4{^-uIN8a3Qo*ClFikNh~#c)1|aLZh6v7N77LyZ=5wY*9)U*rC4#jE6U*@~()M zScu>((>C79#;f8f&~t_Z8Ar)@6}txI=pa^oo*P@w;VMysT?fRzE90kTdKfZ!d|e&* z5K`4{eG)vrCk8RBJ2T(7aEDd7GstgfpWi%fiD5n+Ca%~@D; z?1)TZDLoKNP_k-mW*0l5cxgzYe*i0yt0V6-`Be&z@= z`^zYmFC|JS@WYz(XTKHLVO;PP8~-!P&`vxeKj3vo>d$vCD^U6 z^GrxRYc^xI*@T7-yUbUb%^wfFZi3NN4E-L#`ve~ne2?JQ33zsqSWR4(zR4ohQvZP9 z4#7UbJ%S$+d`U2Kcar0YOw%Azk;97sPR_BM*Bsl)%VPoBPQ`KX7L&S4URtz3ocU3! zui*WL-TdlnBgAJ;T%Aet{@#rY7xL)E#!Dd%8vryC5*ogZToNSKrOwz&3oJsoJGO{JF4~ zaRW=*y84%H=ltZPLM| z@eBI4NEemXIijPikC@_e6X%(mLhWX#3qoBMYF8D6+UQi2ji-p)GaPEi2YA4*3e_gCU2U(UvQSsZp;fj7H7 z@WRg@??YV)`ZE{5v2eL^)^hag7?@i#*JpzV#<>vvyzDnz5#)0n&d& za6mu?Co%1e^O6&T`X|7CjaM$WU{DRGSXt7neW}sZe++EaAYR?SmEk;tX>N-c#Q#8s zyAM7XS|gVjMCK6BrUnt;EK-AruMEi15E|qpB3I_Xsi%lhk+YFwv}LFwa#VdoImn69 zs}gdIaSi1nN7csd6UOZ@2LsEf7uV=f;e77c#YMV(T#RfeyA#={DG4+Lnga8Lhvn(H z-W(S*XZezO86cm>EK#t>6lYP+k!g;$J7rS2XKzScbG9ShT zuRA#MVsm(eko*0(;zhmWT#aM>=*@|lPmKLZ=#DmKS1`27yn-1Fqq@7`74)BBmPy1w zX^l5%TUuUMPVZCe5*H4;!|-VC5L8a??mV<lQ^9jybi;(Vy>9;4hVwy3J&OFxT6JU^8f9CChiHx<>zou zl%0vQNe*+#+7cv|?TQOnI3;3JhvzI{S2Ebr0v4Zx(%HBfjHSwS zj51z1gK@{J^F4whkGZ36fokm(D%34dtxv{J`$1VKHpGhmn>g$Z;3oTLsfsx4WVIWr zlIhP<)eN?}fL+R9mlAAe6CVQcDKK^RXT{l{gR{p6FSz|}arS3U_YypC={`YL*0n}m zybJ}FLvznpZGLN_dC(6Cs4{7kaDEmgXc}P&4t}|Vi5>JTw`Xzj^NAHnGO!|7X+<>M zPi)?WDf!|1ap}6;&%utw*4>`>IJWN|;6l#_F_XkVyeyp1_c^PXHxWldH}g+;L!JQU z;|S(omxsA;<9Q3NjS&W)lko*r_|@YJ8>5Mr`2;!*x%j_~FAV*!nI2D%FD4_F#xCUp z@drc5Y*bUCmJ1Hv>jVyZE;#tJsJeaiL_jhFu65f{dW zKTKmLYWL!t<kX!h$x0azg&T} z++{o_-4g=2X`sgHKPNaQkb8l@VD2XbUlA~{Ov2IW_v&p{RS}`iKCa6l;H9DG&(I)z z2VfR@UclL|CJ%Gp!E+I}%1O-1f(dex`P?y}uJz$d1$af3O`VRMc-ZDSa)G0s-j3T6<)kH$d{6NwCsA|1Yw@N`8Dant`FK?Lq*mG7bw`iz{y8IAN-QuBQ>XrvuxPSTfwK3qlMJk%Lf? zQHq9m7D9}QSqO8|C5bU2;^(oX2`q%zmKvd1E{pAanGtJtMW^U|==vD?_ZjQsb@!}$ zzTBM4@P7=R&x`=#dfhezd*ivBhBpQ<`X$stwjUB z#V$xV4_fKy#AISPEDv7^M#5s?Q@bWy3MB^Pau|1>td&COTqqJBg>XooaY(IVTZ85p z4vQK;5|l%+U^Jw;ug0Z`kfarj#$$=lbV4hRN2BsJIT4C#?nwO7B}n5ZLf0UhC~J<% zcmhCB(p;n0Mk67uNKU}Mh8l~aB9xhwwW9b`Vk`_vrE+jAL{X$c91^!6X@{q$xv(qOKeQuA_r%} z(eP$*OP>@JrvQClcL)Yb^7TmZ$&vW8?5gbptX4Tyr;1SYw zt4UoO_{xlwOunibh~(25XT?egm85GLXqlQ?-O)pEaO{uz#$-0ed-DXm^8OoNW>sP1hHz(^itMyw*{T7HSPd5UBgs=Oz z@`~G6KfM0I^?PUM0}n2!t2V3U?WDYYfwL8_dnT0KK6>Zuy}WWrX@DstW2>x$) z;lt7oN`G2@yL_%30x7;R$v3Ke6XBZ_zA0@^o`WpUVR*PvMpPkye*Ay_X8=Cp5^R%m zK(wvf9>@_(O)!!R5XYtJje2(^d=mz4rS0AwZqDY$X%0|8iz4p^KLQV-2J8pnko zhC-9*laPpM6|k4-Ivftla`;j#Bx-e2lgK!SGdp5vD>AaSDe(F7h~oF+mHewK3#4$lXntGnU^;oOfo;yuFUj^+;xXO&pz#^=hfer#N9N;mQ>BB+LqYpwQGRhY) z2z9IOubRK6)@>to+mPTrt8co$`I8d0zJt_vAh|;_ls~&{*&_kZl^3)4+oaWyo|!LT zqsZedGe&nVjn3P-G`0s(#T5)It#J*dy9!?iZ~lUJLN2=C{sKIphXDP`3Pskvh$7N; zo0%rg+C;lm=mYAj^GD8<6DOU4*` zGUZU-F^{yg7K&I{upv?OL4te%01Rs zJR_Na5qrcO)^;7H3#Nh53iAYw+3ED!6HIpimdB>4FdNHdgwn5;RGPbtvJ`!+3{|$z z+HRc&>=-WdOouT_pbHCzVr?yra`ojBBj07F;mkAb#z;dqw+~b*XPS>WXCbC-!SMx} zQ7(1~+}xQ*bXik>47x4I@a_Sv=H$8F)2EO1^bVgnbfmZYXm9uN!IQ@Z0>3ZUcfc@; z&F$0C$V}Y{5N%;C`?At4O4G0fg7vU00^=c{9F9&!f++I)#)GnNBm_GJ>weSYI@JX*>b-`9|ZJy4roGL(%vZ*pZMwBhdOl z77vXk;u7c>zFki zaWtd`j6uynbB1GpCz4vNBsL^-Jy0yFg{sUt_->4$Xr-vI!%YW6?aoNDe!Hg_nU z{c7_7X&zAc)#<9WpEw`#pI1LxrK~%kRvnn*pLt4e@A`262m9}>S3NDn)3U%76?Z

78!6wmz`091m7V>{&Wk8vc~V|q((6;!bUmI{*Yv60qr`hu@gAjV z#OqIaw|i;@t}gDQ|ny+pc=I67N>Ucv0zq%GM;kYZf@JU31gm7M{prxylnkUIm;kkZGJyjRk+utVz_R7(YP35 z1c4HznO#1x{>3FMZ_t};6)4&HdzNOTPY{)A{PEf03Zey+zPJZUProS{U<#S zkA5C_^p3KzTdnDyI|`gXC2U9v8&qKv5jH8pCMpXMp*baNN(!4kxu6O=iLg^K-fuu; zcq8R$N_v_UPZO;6F?-CO=SG%^JFHPq5Vs(g%o}`ZLdVg%N{p?hd%_m~}`F(Q(}wvy0B_ zPHK&15<~*Yb>@M!&*IHHCMzpIERz;4Gid-Ux(={%!v6k@?Qsxz8Q;(FZYHFHbxA7? zoPKlo$m!lwXL|>_FM@?_c*=pnFsHeLlOUdoZRIAW(+;>&ZX_K=pAP}@ zAiDOoBB&bolU8&g(0v41k{8l6J`tacgGKI|g!WObq`!w6+`=;<&4H#a7u5hYPo^|V zyAsN<5-w`ZiQ84io&jIUD2I|Cg82e4R1ky&`8I&U0&vyJJBhp3Q#I?8uoYITHG4?S z9<^#OsoD#SrK0L?%|}f?Z<_b06`M%Kra5=oQ?bA~ifhwVwR1glJ>P&~swZ93jH2_i zs``7K_q#r+e%L_T_B~E~af2MVpo~r^i5aEpJ+12xo8L}7`s2bUow`hN!= ztI(V!`dN{99`oisRzh8PXXwgpCxt@8aJdy0NM%=T?X?qOYdS@2@>2;KTL8&LM_-(eu}_GDZ?7EkVKx6 zJ(y?9aFbi$IWP%qB$ew)<7vT6u<4o|!8G z+t6)3#Wy7RhI>8t2OeKl_y(2lBYdA?ygD^9^WVkk%U}{hGrB?D(QoOB2X*+2?RjRU zNk}rqqc9-jM#t6Mgv)LY{_^P~E-kv8aKBlXQ^xKhjYCSFb;yHeph7s9;;%x%=STnn z2e1##!U(;>kf6E77!vebhD0|Ypm{#ufIwrhKxQ~r)WdL;%)#HXh9d@5%Q*`NY>ShTDNL?9D?6AMNVYyvRQR*g1!q?p6Q zTFLM*(8{R@`i0@)A5H}$dWy6W3v?jZg900bK_m;n&1$6yBJWM;+a^wAL;g%M+q!6TmgAnN7E%AkxoX zP`jGuqTGexxGG#SRWoiZ7S{|Oe6002D%S$H=X#pZh+ z997otPJ{imR%z}ebvx$XOoQ!p{ro;szisZgPB+WfQ9FOi+nn?^&v$*^`Kaqj!_&*k z_KRxEMb$e*yhDodE)?tLHmDWe1vlqi4`&1Ul#WgE2AFEALEAjV->p7ot)S)wU=@U| zA@hln*(|>7c1_F6+LAQ{?P9O#^IF<hgv*^yY%#z04 z`64_LC^l!F8Iay!gjs8%vkOunhN&nSd{}td^Wl0SKDfOyPX-^>n&`^llN|%W$ZK{* zx9EOYWR)#}+}P%sT4T=rF$6wi5ir_Jxq%W(yv#w>A$~wY=|ktk*iT9cr1!uVkURj} zDkQ4wpbV?uP6$fCWzjf^vjMjNSU9I5dLZha2t}@hW0V?cRTJSz{Bj%^vpft$3z#%$ zMkp843k6i@rB?~)fzYR!^RPBZHw#BnKSa!|v(WqY%o%IG5$`sZJ_K_B=71Ho_p0wV zrs}pQ>$U^Y*-tu-KkXwO0k!TdsXME#I7e2TLs<$>Q$eFiHFPE$I>AQpF4@ulG)#6} zP#Z3ihKp*=5UCkL8FbMZGxV_`T~jyLbNeXT_%@}Q-$*vU@wn%U0n!yv&W@0-QMFkl z&EnUg3AK3w>gVsQQo-`4(^gh?-NpyAsdWdF>kdAt{<4W2x~L3A$f2mZE=JbH{u68r zwr)F^71np#u?nT4MdjCK= zaxm6t-4pcK02L zP4Nj7J~Ph@Y~li#umhW$2bYbBi7rANtVYokpQtwQfIV9P6DHiaUrdMEJXC?!1keWu z8L>g)BmEdb0kR|g0VYrh=za9%Tn3=V$QO{1{A(J24mHSbNjPb+~7B=ENKPMicL zfm}$oUL+T1b*J&nnG{|!H*CiZPrb_SJ8*6nXVUI zLmvX15BV4XlU`(Zx!$6h27_gSYwH5XKx2^$Q7R1eRz77CT>)VVEE-}5!n@3&sdn=w2Mek>#kA?J z!~N4NMxqdRrPz{EVoE826h`WA-86?@pcQ!_4z{4yk9>7<#6zZRW$0nHAZKAE+Nf$nm zWNRx>LL3c7=vg$A5jEFXWJ(@4ofLWWyHYo>j0gK@bmxz;K2&BkR|LAWO?S3ScQF2E z2!4)<#jG6u3-S4hmvdM{7}ruRO8H2H6Jet?ZYlK=Cyz z!DfGT?cJmIE|ThXbG_+2|9Mi~3h@;y?$+L0d$(!su-RMNc%PqdBDGuRjulX=m6pDz zonLh+7pXXTaYBh+QKqj0RX=F&MdIFPKVb*z-)|p5>fZ+rM2hw?jJ#x@#Yi}c#K;@= zgARy1-JP4j~yyb+*cbwxG8Ft>l z$albj$m2G8R=l>*iLuExpnBI5?^?xpGsn#>NpFj?_6^nBMZ8^#@qS~zxwA_Zb`xQ@ zV!SW07yJ{*E&p#XfF(_zCF$uVHf1GV*3kcOdjVtJi|9Mk?h7B@TS(HayE{ zBfIxd^~-x+*1wm{`wRBiBHDPRKA5gMWV`a3`>=>MUa1cz-F|U>Ft33ZjQb+$%;3Dj zXftEyWnrj!DKtI1c7+$M-2&@}wI&M77{hFvrORrw^p)ByTUMK8d2O1k-^N^k)L1T- zKlEBHPSl=_W}3Xmy5d1n!1G}GfIT~lrV$BlUJ1N4P9JK|t|)9r`V+_@eTd)=f}bHk zML_yf09rX{H}tkoG$e-c`!+OxOK3WlP@l*c!W*)NaOoDNA&q#s2}`AQ zSh@#PtV5_`N$*1~n*A*3S?9NE#Xa;YE+|==^K3LYt+~&Rz}?*tWJX8Vo*J=T)Pr*@ z=F(3f?xm)3RAXLfDu0Zn{{aM!|GlR2rsn&RRMW0x)2_$PFUrX7ld0Y3le^EWyDyU6 z7uBXA(u8(<{!X3BH>8)8xzTt3M5=K|vT?`f;-eVZ*`L~ZCb{#By7MgAc~)&aM;gz4 zeg3lAc$wB;qw;ll2x>WOcr(?}pX}&YJ5G|0lWN@{sT=(Il&IE;v`F<&%a&21W!;0W zR7+Q~rR#Cvi+9PsKx*H+$$jst`+h+7{XlIAl9nK?y-DSLY5#@?k(B>H(tqHI^UE@F z@PcyjGC4S*`Xj_2!E8!Jv&y%mJ9a(lN_Ct_cAR(``08EKFQ)p#$^Nj~KSBB@)Q$-0 zh=4{HvmHV$vGWi;XSh>+w~17&PgQJAR%}))wvdV~D!(|1< zsguzp7%NZ4$;r67W0LGJ*&uiJTC3WUgi0#5k&109zdhZ#`_YM1XMeJ@|Ec&@j0}WQ z0~5)C33VV!2BK>xsW0{i|_|9(KcOCUitIg9CZFEOY19|G!NEX+#k|8E`B+;QAGyzKEZ9mqf(%vNZ&;V$B! z#+a(b91^i3n0Y2Fv*O^%Wt}FROxEL9oX;!{Xjsd8UV?+kPW{?&FjO%dF;t`6TT}#`h`0uT4lfr9h+Z4Z~wwdzJ zrU5)qGgFAIrmq~DP*4$u(oFTuElm~M@?|Kt(k}q79A&nxPX8R?k1*-GHCX9B=KCcA z`~qG2O9ZI0O7jSQh2XCc{566H2!4$Khe*G%!G0uW6-Jf9C64Sb+R%$$-+4R3q_yVX z&PYP7@_)cOgIlQo-M2H~;gTX;dToXJlKwu`e~kE#!KvkLB``vckE()51W^&hyjJ!r z2L_4%lyc@gIrEnCc9finsY09xaYcydWrp!Oob(@7{XN9r^F;h|oN1yH$&(XsbB4fs z#B_76PrpD{+C#6x^xzpN_zTtBll1qf{v*VH34qe(1Fno z5dT@_{9EMwu=0Z`a{dY^yVJJgsO(o zv%oR1z83EqG0?dJzm&)a`ZXi0vuy=_VKO#_ckYLWCFF6E4}fL|L!ASDc}sKR&*W)t zd3-7nj?iB_(cBVzSs#aAcSJ;NmbE_2V`wds4 z81I7fhc+90iBcHeS@}Df@~t_2+_B1r*UAdRJ8%AurhIEo-```i!Rjasu>_`k`+{`3 Gg8mCGhH?0XkjES3QH5Vd-mONk%=KVn;|ED!`J+5$)eprowrY?qh?xa2;- znFS@Hi`W+BS3kRP+J64h=8rDZ*a>a7Us5-AzNU3k_mMcwqjj3Zow#XTJGGV8ugXbn zS+e^3ojWr-iwDIx`XktH&)(PEd*|MB&OP^>b1zz%OfrPO?86^j`}{A3LSJDd_-7#U zFuwMP77CdmQ>%v>T1nFw))CfAx)w?>7Osa&Vfi&mhWtiK5&4alqVgLn#pE|$ipy`J zl#t(KDcP5vDy1c!DGkW)U};c(v!x;Y8ui>V+cWA}_jg!+BlUbEU&>3*qV;`^krKL$ zaa|rPvi5JZ9QmB}FmLpcwoPl+#)@+woH<~N$TC0haxLLbWvk_iEL^~=e zm3FmVYg7?V%(R-TwY4+nFBWwtG2L!8&b4cG+ezBh^@@dZldoA})xkds7SAVO4L0tSs7j{_*3@Rr|PI*{n5c$IRoW ztctmTw=K+6(Nn8%(rT@rZ#{KBK{6O;UEuV;H#)<7+Pi?3_o_zOyV~N zbdBdjtC}FI1~L*P1sMr)mQrR8GdJuc&dkp*$>6L+(TevMLx6Fa_=`fmNhpp` zLPE(0L-HJ`9ZzQjg5nV#Y-dp-+8r`e*R^X}J9m(&!+vU7rRJHMH#30yb)f#Ltg|L!kWasB^>|zGT>+bVIuJ%Lt8{LzfKeQ)ZrJNJiebxNo79Se#vI1Km%X zPRwSYW|m@$volv$>QyJQ!XK8IKe^PduG>zmVFJC^?NVlOHh|mKAZDvvZC%zB#1msc@xg zkw+Eou`OUj=ve`zn`h$y%f*5dRW#n*!RE(dl6V!cvb0e?Xl4A5mZ zPW*huYVi%7_@(OACtH?jGtI7&gq$dDP8JQTfqqPlvlFq`>$SFH)S9a;CyWtuVpm>2wO-$_i!o~eLvFo_;9i0v!BK)E z04S*H*v56pvTDs*yIekqQuYEsRNM6vPHNsKYD9IG8PP{Hge08RMzjHZbS;M*9qETr zKK{~X&gUiLUQ;_(6Y?}+Dt99QG6;3CmI#sQ7sFlSItZt&cO#~xnL2n>cysD3*UUnt zX%<#702d0CLZfQim9=W2-745^v$dge+ZU?MLiMRyd)&GW)h`sIYD6Mc%W7Fp7^nj@ zmGTaz99206ix+hnQqYmAcKgUh$}BaHDs3{ww4TK4Zw>}tm-#EC3GYvFcK2OBg48zO z7K{qy4mNoaZ;KFFpnj3;5nsH2GIo()qS?yVwSfhnSUns!IJkh8xp_WP=L~1!Hvub-W$FQmu(<L=s?yia zJCRy*eWSg7-cuZrvU=GiJZ2vNNE;-Mw5EsC@@r`NOKBsg-TBhyz8*#do?Ia=cz+Cs z@twifCd~pbbj&c9PA-jFSMP*L4}uTG3PlMT<*d!$@kbaEi7j*GPQ?kAk3LYC*|03I z`1;jCWgR@Es*26Gz;tISR=rj5iYEQa7OR&xYF5>LV}bJ6{eF5tF7wmYQO<^-R(NBf zx;9>zJPHo(XRcbPsoGq*irk69v4UB%DFsSLJxhhFG7nFb5n9O=zkuvi~CbEWeI;S-3o zLv76jIYaWmF2@W%!wJ*7;p?H3kQ1(HW1%grZD3+G)3~Htw?S}@m=R%gkdUr%I-?8E z7EsfUc8DG}zheOJM!oNdZGlO4L)Sx(fp{-N^1{;^w+k82jEu-BE_M*8_3;UCHqzVn zAxJ#9h86#*b?c!ktebeKziTA4d93&L7`|#*9xlt`IsRb1wNk0u4~_fJ3Sn=)eWucE zw%VY1u;dEZK($(s=L+h%!ZLV7qw-X(vC$|rHyY<5u^)N$RI$)n6;ue6wF@=7P^ptL zuNF4!sySYafl*@}j#%8AsF_cA?`b>XI!JvMy?4TB!Qem3m%e#m?=kq=3pc*=h57Sm-?YN%_x>orvj(B!A0nW3S3m)*X9@+(@cz&i1lz7I zJU!frbcM$Y3Pie5)1biFrobEO#;*fuPKMrba4Xh{b`$MnJ0ag*2rHz5c%SE|myf+w@h5tDD|*4t2-qpfbA+T?@vn%!P$HP#>c zNtBR%+=0;M{k`cVLHESX07Cl@3PwL49Y1>N#Q0GW8=hZU+-Npy&9%alwKj!~dsYjp z;G)=&AEWrEl9f=Y&>l$ainLX;a1Yi{6txT3()J$u+IKE|<^8|%y{|r0921nb{w6wX znFQkiP6j=dw-qFIbPEzDUyQ3|nFZ1yfrX8Rl(C&ig90T8rENJz`|5htiF+hsooA&F z@RLemr($a*6aQmfTQ+ZArD*RtGk0;02ZHw%oQ8_+nQ+6rE2xrNp_CB>v#FUfGN zR};L3rH9PwYGtF|4v57GU*2{SYv&>MLO5?aTFuF-0V{(V)e_;vR)t&aAXx6u1C!Q4 zOLhTZ3}P1vHm4oX@*0-iAC4Gf_&ucM^sJWEHpljw_det#Vv_p{?UEM?U4fZ{9^I{N z2frJd^#+%*gEFsaTY8()8t9vp3$|~x!O(|82SfP~WG^o-DtQs4k=mo(7&pZixe+$5 zlXir83j>cWl=5fKES0g?1nh$OMSpRr=yEW_$vBoP5uy-RF>G$GndG5^O%&f1_u@0lw z(jZ<5S<7c0on4$>n3*jm)E;G$nHe-8RSOnd6G(INmuj-gw5(dS43dE|1-raBct5(( zYB&k(=gJ$@d6lwQ|IfDUMZa?*I2I##5Wz78E)(3z}IxF5`Xk|eaqO2fKMA8gIpc!NEj*#=z>0^Z^a;X#PF10 z;#S;^$vV;|UMAX6$&V9Lw~}rwA+eO?B+*_PD^psnOIsO9g_>n+KtfQhYz;~%gHTpN zRG$n?T4-w+-+VjK$;irfacf^^xQlhIn>Mr8L2Hn3)9p-W-!%>E(Ah^N ziu7?5@j*8}fIg2Qo(;tJqt`hVry6DJ0OCU`zI71c2;S^aXP7D7LBvN)rLZ|P8j_e& z*LbmEQQmm5ycfF;MNTJ=K4(=;ow3gT&S>XA=ioJrEd;TR_7G+$*U4jbjCT^9WGB@z zuEn=*>)dv6xSN-Cf8XVUrmUGl^HA+%=4Y3uPo6jpRp`mni>2XS^z_Lm&dkj%%`R^y z@3D{HV~?*uieKg~ihHlJ>|smUUirD{ndLK!rJ-KRsYhl{pL%3DSn1s2>|4*xF3kLR zX|z{vY5K9*UPi8$f%=x93R(&_bL#QaCzl^71xn4IUYK4u_2_J0+Vm4DZLn9{!l}j6 zCxeB~&MuxlbMo|z6Tv33U6G|%mR#W-&xS!8#nB$WaKf9lb&I@OScUZrLtNOb3V>rk zV`QtvF^a8D6)WBAn4X*2u)zVAp=*NfNwFH688H(|p=uQxC@>N?+ex3ORcudP?WC#G zF|R`VR9mrSp?0E5B(_RySe8pJoW;Yv6|s~!k2=a`&9X~r3AR>O!BFgy(LkaTRnbzM z6Uw=iS1hHZ=xT*pF*kCdT3fpSuBCFkm9mtRxLvtY?X8|rv&s9}j?px0jncqcWy7{> zm1gJ^(~rPa6Su{x%i*@lafgPsOA0e0(4qi|5lRi}@?~_Wf~Fh8gTpcKF|&<^LJ$hjVdip;=n5@Luf z5m77&sjYBFhp+*Wql1kHO2IgDc|YRuZlZ$)1gtF7O;R_1kz0#2YavUz5m|Wlek?_b z3=x2wJz31iP&v^{)jEtrGGtB|`)5U9gNndTKtrmi>pnh~15qjC&sk3^D+FYnL#`U; zS2IM(v2Oz(wO1+T1COE0-8S}4W(8ZrcGXqF{1%>-#Tav-=kz2rm3iRGNN@{>;T`XL z2`$PcIP=NbK9Y7qD+;In$d||j}U_}*Se{@))w9LtS!1&TYwYg zuvkJ|3yy?gi3MIjJWa!LP=$_7nGS}*0AQgzU!g|dvmT5s&Q8}?E>yuTEA`Vf%{8iK z4HM=JLT=-($V(_CPk(Hhq+PK zp(5wx(bK1<7hZ0wV7&`nQZM{&hMxALg7h*7+zou4>DK@@r}{9B22TjkYf!nX!QX8g zuz9;^U*A{=c8Tg7u3Jzi!h90UndoDBWRD!cCHCN51k$sc_V$}B#@<5Yzn5WdDy)A_ zAng5Dm=#vLfwYe-*h)fGWUmG2o$v2tx4+|`B2`KHSaNcjfki2+AJUAMHV@x?aCUt$ z!Hh>xWe+oCmJj;cLKk1Uph`8@RdIR^)Hz!h~VR?nx|kVzKuenzsu_PVwPZu*=2r$5A+QbH(=zOGC#zq-uzI@ zDsz+zQtp=C#HQWfjB(Wscfd8FAh;LCcWQpaq98D&oT2hs$5ma}rg2X7PQ=>iR}#S5 z9Bmu<5Yz}Usu8ep^OOi`YZmXs)rQUOA+~5+$qqJ&Xn74jDQr0jMItt4Y+uUK92A4P zLC4lG#x04N{tzwkJ+(t-p)}}{<;?ucXdG^pFkiqhD*SofPD;6gO?CBUGzv~;apvrD z`4#IB#2wWkCxSZPGAH{BCyFo>6HWr}uXb8}n6U>-`qy|lkAObH7wyMSA)t)cp7n27 zI#SA#{j4;~FiN*;u-4n9A!}v5-JfJ!T3uJ3@R9{kJKLr}a35egoSB z^_zux*>JZ3afo?wZ46)C{iI(ozPEYj%i~+$98-ar!B?oifEfp6Q%3UEZYWuVzV3qZ zLTf{E66Hk}6t8t%!LFl284;%1f>g(K{BjPpP~GRQ+fe(1>OrM*sKw~3#Xv1k)PQm$ zJ8F5Y;us&+taJx!{)UFofLklnH{zYb7Qh`~CQz-BCs5JPbgFIWHN!BKHRJ^hQ(dFX z37ScTP1;ST$_5@PQie*K0jQ8d8zJk1ooF-Cj&!2nDN*b{pe~a1pXtOTJ%;oc(qo;t zr2l*;F6nVM9jXvX|D_I$38*K*dfG8F>ncmhmDtX&carj4(tQr<6G{K=PD;{Y)|Pfs z9eDqs{1-cEsV}{)zH|qELCF7lCnL{6;Uv#xI`9-i`gc16l0M+3b4hZVryw=E@|LW+Lkp!bmtQ`%bb1+D&&BEa*;9*W&YfMdJ_uCm!>>Jf2*nzghdA2B zZB!u~Fwz}8z12=yzmJ~o*1x;F{*^MS^0&+_ zKLSlwDXpRsnJ5heVqmqUlvnudBd1GA6+v*qdko?JVoSYZOMzk-`7@6S7r&7Vh!V7n zSU*Kz6OcPP`vMAO+t(;tKg|MUm8HXbvC3&`Ozh&IVwb|gSLt7*tf6)(PnH=>foQod zns!HV_h6p0PdI2WiN&4RrBzXWIZ^qUfWH)VVdR~WORMV_YK{Rg;Y0zwM4O4WB!b27 z)LtJTTiqQ=;OrW*-;CEbpl6AT2IjEKVyTTeEc<8bV}hSCFxoM#5P(V7Qz-so{2QA` zZWTkVDjM!HoKo_N;!FPf+|vNCoRD3xRbp&RL*ABX>MlH~_dGFV_^2ZJeC z-nOL-Lcs1XlkFt7r3`hFfm(C0$M;$t?xeiZX5I|d3V zX9V>m+M_0|^KMPuvFq?NzNYF(b@#JPcnpl7)aah2r2g&!Y4f)3VRtMuXp=Z`d%FOg z8$Q>>V+tiNApH)gL-)HS?(7V;3rM@mgjGj=54gVvVdV+8?^YOsC$A!xczQ_TDaP{i zNVx}f6>q(+mu)Moh0xYN^5^Ydv=Nc9zSkWU&N|X0CfJGCtEAMC>!Alj3P1g{qNI_f zsWL|;E?CJla~O(02s6do7QW{32RHETH#x?+`RON|=(!U!XBKCj$h7>VVWWYNqqaxS z-wA&(_~9L)+ryEQ(CMf{3-=c`Ch(ms7VaxN52qa|^Jt}U-mFX=Q@@ji`wK^oY)dO1 zpRTW8s1%RFulLC0eegy)a!gW=9@(&0j-9(uEV4@XsiR0k>~S=;J*D`-^IvA}-=M=9 zJ2<`4va0ucG3oBcv2*8{T0}?A!GhsMkFMG)_o*zr19CTt4}4SK6H^ad<@0`%$NO4*V58U39V0n;e*x`b049$e*_c4R z=gx@ns91Dj?ofJxDNGW_&(Y6aaP-F~FoU$rMAge6ldtO}{CRR>Ze7a9B{P21cdQvd zibE47yrSXIEnb~gwb8nQsCaxTpTf;M`bt2fLSMeVBGx6K)#h=Oqr1$h6NOp>E{7|% zcEN7duRvxk$S#zPz*85;E7UHQ&bcDYS-*x*@jkVqmA$R6CUW9_@lUb%F9JBjl9eg0A+;XPra^R#OS;F`sJATK22kWavJL%9c=B4|_5nI$>PNG?9wi@(d zx2V6gM3}grq5ns~&9U`;fMQ<6Qpc!+%$!(VsBO{<05vKKH8w6du_q^1#9uuD>!TuB z$Jl7tD^7GnNCJfgRbm@zo9>KQ)zvDzMpvplDgY-z_;_No;fz*%<$ixg&Tg&3QOK(H z3R|29ypHGeqXgsFDs4NHud)6XU!-5)5g$+JmzBT%DN3q;8>MIiG$5<;V`zDiTL)n8 z$!hU%mYzRh=I0{xLC^Ug6^p|nl!Mfi#Zw1hFQm#~KpQi}U+6o@Y!2~5$VsCH7vLAweY}9ntWY!mp0!(iCM~6JVx0AaWU%hJ#`Pgjxb} z1!5h;Hvzr@alJd_`4nSyp_E5SBJY_1t)D}Oi~E#ylmfa{AmCof`d0*>BlrTrR|v#d zI)>S@KFa9F2%aE#9lA0u8A5P%9u zj|V^Dco;U}o(=F|zl_{x1cXU*m<>=m4w!{^dq1k8l)X}3l6`P8t{G{iTCaPiB$Z;25iw<6we| z1xt!t6^B2MQVvZjRk|0QdWAIWf5hRq#^LB0=wvv^ilC0Txq+_GXP|St7_`guF|nKI zuJ$w_e#!4&e_QVR2ixj1+KIYr7Vl-9im!oKCroFi~F_TX#U{T>+tG1@yGQ&EN*3r&g7{~;JH5Z@fz%l=$SNzOzW%zDy| zOa>#8GZoC4y48W*6L((Rb0o-PmhiRSMIdN*Q!M=9D^}A>uUJhXkdq)FBrAW@W{E-a zJ$$QA11J%|H3f2WCJ9q+0@*(f=+Tj9f@|5N8<`A7Bxfp^Gvzst{bxL18p4CBzOs9O zIIvFK&bJkG`5elA88Q3y2xRp;AxbKHVpPxTIf(xB_K3p6n;*~h@J@{%_!xYj8xAAr zXW*|TK_1YDF=;eJVR{B%`v{tL`KJ<16c7EY`5CBHh^vdTH-@a&yKT@~=-D7ox@$^= zYs6Mmd=%h$Kpx(Dt6G)tYcReAJ0JMAE->7QS$`MGSk;Ph4|hEhu;wJiV!OfxNP33qV3h=0Ky`12okoAPBSIi?I>Y?jq&qcwX#O)U8 z-I%%8r>R%YOCjU+$@;fIlF}$of{-cEziVb5$NgU+A#%iT=ii|nrFi-G4E-hmyaRml zE#-IdIhfovbxMqF0at|gvO;m4ypvRS7XVywX~`(jwV)^2l?MH=GG==DuBa#ZDy;IY z-(uDOk>Ixpeuv<934V{@KM`zOy1#%l9dB*VA>g|egkARn{F3kxrN%+G#=%b3&B=GNl9P3Fvc5~mag2a+T8Q>LEa03> zmQD-q2n}O|Jcp1x!k$A2ZBm{?$OyuoL&zw?-d2G29nT?TKf<2#$pM7D890crI|F!= z`tEapoU6Of0&?EF`#d1$@7;VRP~zuzp9|#t^6s;NoX@`OeEi;?^YNt}^C1f*YW;yb zA6&@1vp?cM;?0M*obk7KXrZ*pdnPa3Jv+)$YClyDoEXKc~t& z`q{_b(3)(Ow~4XuM)ICre8}sf^#>^SSFUc>tFDyuyiCLkMalI;Doy#NsHEXQ65L5t zV%B>Wt|%&HP^HjKrLQXGtFry6rEO2aYo-4wab1xlS$TKq>{Mw-XQxWLbatw=y|YuL zZJqV2>UB2wlwg=8SJSk?Y|$gyc|r4A}!tyn=z#+ zf*VL&N{M`-50t{)iD8e-gmqXOnnsh!_XYG5}hm=OA z!BZDVT9BA0agch>Rl@dVO!YE$-cqp3PMj>vQ~dGIIN z@3zhBp{ta zx9YF2DtQ|9%dzi*QkCpz`&I|S)xih>`n6y424Y9G#AUvcRb(e|brCy!jA811m0I~e zhWaafh86NyS}CpO_$_ngrP;HJfo9yKvT{I7dC{{=r;E{24(L+B#$h$!d(E`-+tT2N zCwuo&^pZH>m5fVpu~Tl?fi005UFt4Wx4F$J4FNr;J+xG|;R%*_hTuH})P8se(+7Mc zD)Rtn$&XLDanv*^y%SUu&+MsQTn&v35(nJLi50T1^(z=I`!F)o5geR^`812`x_C_& zw=)OCL~3ZsA8Zz04oz?FuxEXhulA<||BK*j1lw5gJCXKxID215V6*47=F`O1(=~J9Edx)sC=XOvAApqxI~Yi3a+{dA zZ&$Ft!JT4~28UlLkzsGWuGvelm+qE|!;O#cv3N(Clr>zB zsH`}IGdEZV-ct4C@<&7pO)V%@v>eyC#Q8~&AAO`^HCoNu3OquF$B*K?pIpGTtPU5C zA6=e%{-EpLA&9=smE-yBl3X77DqDGa*l&D3QYfGhB!`>(Wo)2*3vUwisQ47q&Jnys zK#vSdXOSjD;{e6D;%-tm@0%6Bf>P=N-om|Xq?E*=VDI9Q3>K3Wo<0%p7I8_~hOy3F zAm(xfW?kMsV^%Cvo%gnJlG!)*{{s>jT|eW!lggqJ%z?=AxBx7#>p#qg^%oBrxEcaN zz<`!Fa6`#+5FBzjc-i6***FwP;`~7$s(cWd z!5%SybQCdIH5a{zm_$N1$GtMhLo1|GizsDM9q1lqAY=-|!Lt5ZrO-X5%6})}0Y?uIa_~?-}1tA8-j^d?x|i ztl2*7r!1VrSC$9fM@zqP<@$+pI@1+lH0(HV2h#K6$`yTS zBHRm4g^eEs?&}d@WY^mIkdB)$pXL4xx+%j96SRwHyq1s5(xA82rDK=*WiB8 zdn;`Jr2i2U=;OaDwtkWt6+dmhy=?t(qJYZ=<1qeX*@#Q)5x4aLzjY8Q`X7f5+U@=2 zk4Z@!K$CvKT=+C`AdiBE?6{vsnr0eg)ZL@pr zB5qt%onLcz*GS-gqj2ONvnZawh)t=OSzE8$fE?us2jVCrM({mW|*9Yi?EV%e&!*(fTYGp5bQTPj7bED}-6H4Gn6A=cHrEfx7t-!7i~Y@->BAQyJrxJC z*uNPaaL*EfztWKk`#;=&2CrBRCz&Grg;fS8nB+HRhQViCk=F$G1eaw#?I1i-1`bR! zwKa({Jb22yBu+7@r<4AZ5N*M+z~!Wb+QAtV3}sq|uo+o0AXO^Hq3#9POQrthq#4@;dZCeV@EcKVcnWb$hxlSrj z>u@I?h~;q)oBw=qg2c-HDK;TS?*Lhval-2*f=~}R34N( ziucTeWl8eBE_qDNTHnU{HpG>)$(1h05Yh*&7Z4lv({a8D>GFoiMSJMih&uJcUi)dI z>g0-7*9maQKHEbdo+(xM!iV2K`cc#%;NnSPO>9}<`Z#|WAP z1p?U0u$v`+qO0b`A>V(WlHE|ifByvHI!^v6?_`|!6aRhE!3c$VNH5oi@>}?KIXhxVTx#ywh_(j4h=6Qc(Br?&|sN z%e?jb?dNXUZ(rVPif=7B={zE6_hBxp}9xSe(P6GeL0{=Xyb^fB&}*NKQ4Q#q$?&j7aXev##@zPZIF`17z>hz7u~?{X?9GP(WRBpT;=q+9Pnh c!G{PStbi7^tey>LjnF%@6WMI&o%z=P2g4^R82|tP diff --git a/__pycache__/ommsystem.cpython-311.pyc b/__pycache__/ommsystem.cpython-311.pyc deleted file mode 100644 index 26985085d99d67d6d08a9795987ad68d31cf9398..0000000000000000000000000000000000000000 GIT binary patch literal 0 HcmV?d00001 literal 64929 zcmeIb3sf6fmLMnz2?8WQ0s-PLj4_Bm82^p=n2)gyw)yyjKctKV#s-ND34bV&neM8Y zrfNOiWUXtG>~VIhdYxJ1X69LHPv*3HH|wlxx_Uc%PSrUP+F+%P9`AalJGZ;$OwW+* ztl8Y$>7Kp!g(4IY5(c}R^*LRExbfos|L?y0?!E7O>FH@2c+Bl@PyYF;M)Q~WAwGtv z;mNR8qj^K)(zvwKni=h=R*PmGn02E%ttJ(}lBSbJlgL{?swZ#5sDZqbN0Z4rWi*An zsZol&Q%6(DJ8d*gVQ(BYk?-`;4D!w#%_ML0s0H5o>8xQ)Pd{yrzO%{OFm0W&j#^31 zlBaWKaz}HCIb}L;#x`o3$sf(vYIK@jjf?t*#+B+Wcqd7tc@O@DXS9&GrGcB#U8Hg= zCT=EhOLrHm+)9XB2DoL$xs?((Gq_pe-0ZHTA&n#JrzSCEJaPG|L&v9f_`NeD{;6pnpXPJVI%)9N z)G{6|8hJqjlIMvPUT7vEGiMvBM_@hK4%^hQ|gWfZpexp5Tps z_spyt@;OJleHgjj{^gkl&xEhR=bWFKnW}R&^wLh(9Mp;Zup7!m+q-D*>}BuGh9U3t zjC0=Jf!-QAhQ0lDCuZHA{(gnoJ2T_E<%2}(XK(QtkjLRzdh?YVRaw2#V;%r3aYoG5}0*CA%qX@(HagHv@c8 z(pM6ErAl9V_#)FK+Du_yu(rtKf>^G`zH|q{)&-$uc6wq5@yqOziCv1qjv{uc3cED4 zBPp7M^dNRjKV9*aq4>%azx-vQNdsZ7N+l0kV)ikU%lHn|@Ox4%E5H2PV?O7hypRX% zg5-I|bWF;am0yZ#VwqRT=*oQlT+BnuDO1#H{H;>dnn1G4oG*PU zeah=d6~^+EFj7sXs#D5(N+_wuJt^fHt>&D@lXNrboaTm>v|Oo}MX0Sxua9$Qj^M2fK&-Fz@%d_!J)+rob@RefZY+w3|1K zlNb2u?;7&EXMKFij0@&@Fr*K5%O-gmM+t8n>^|xBcYECQ-ED@GUc2ea|<>Z zJ%fFRhx<+pz!KHn)5E6@_w{#=4Gnjn?DZOP%%lrVuHB)g4x?>+W$_lEDo4LUeuRsmo5h;?ELN}nbqL(Hj&G0eDOW#m)Fi5aTE>7SW^l^;^@ z&du`K9>kao|<>_DK2k6#=@ItoL9Z{7_7F@Is%(1kIH7&=^wu$_oJJc;i;3;PCw*ghBrgP zLPehz>X|qAW~Zn8ynf0v;pLN{#`u)$dz)vc=X{P7+6+}r7A)%T7$deKc%?`3i{X_KDJX$g zrud4w+3dti^p%SNjFE!vf=}{VPu3Kmbw*@+1HP7Su~b=PTMaSaV5w4tebpXfzra!z zk-Gh8X7U^?RlQDWY?vw2N;PPnqH-+p?t2M0s5NAKc7PN5%ZGT$L7958ZG9Tw* zc1@4%kbRCSj;P*`vaEM&!ddm9ta>)9k;`ffXYCGU?OyeOV^^=q=Oy zS(&c4B1wToBc4LA=-&qeV$oOOEj&SK;_gd3GWHYY-8b-s~Loq za3KgQnO$*d2s?xM=99QPu{%93`vi=gD|V-S#_jVtC*5|x*Y5MXymNx9|BBmVci)`y z*V9#y`hX)@7)%B?O?zoR31%Ib;fQ}8W($al*Q0lbj*Lc_f`w?Kh`cb~3}fhJK2tW> z(4rp_@ZswBn&z?4SMozt{&FQtZR4nI47KeMWxSIn^dOchfX>cP1!zYtS-xq!V_YPE z1nC`@S2?0bq-h?2?Hd}u%nh1J`cgIrEJI|Wg0R?_k~!8e;6rL8g%7F0z=zBn3mKFe z2xAu?Ws^c!%r|*pKdyz{dCCm6pv65ebRDpdAu|g)kGWjq$K68o*{-3J$TF?Jp%E5p zzl2_q@<@oSvedgY3rT)yvDavV5;`izjPF2FP(n=Q_R3r-V}|lb=&LIU|Kc`}uzxPs zG--VL8#*D+SOP8lk)5@Eekd(EYujN}a@nD4LT44$RQm+&oqDT!=g5z^Zi8 zO;34UQ{$c9o2P~Ko32MUBZ&vrqsb``eVW+x&CGgfe>WK~dN1rp$(qEcpPiW=f>@l> zux!%2(dG7uU%Z}nJ6&`Q1b66#RgFZYo4m{$raZHAejoNLtPNp68L>jfgtE@(#DI20^t_bATh05h&@_iS7~S%_d&yH^)3Xbly# z3abGw1nbFqoL}o1Tq=0I=x)(s=VIp3Wj)u|1-9~D%F3wDMIcCL2+(b50$==YC*c$_Wh;0iimPCkZVJ8`os!Ow{K zbD53Ybt5w*zmb#No^0=bSZMC3)%>tFtz%!(5BF*T{ws6y;mo8z$VU zkV74#nM^i+2nN+;ql1A96G@C>0)s-De&kb8P?~Na66pyfDTkC6CnjkMO1w_UV^xQC zX^~np{}X920Exp#hE;UbbViZT1NOsnG!6Li^eww{77#GE;H}>a80%ptJ?*uNUelz= z2Hh{uO#uaGza6PMwUWJzx+B@mf*~l2?s6 zjB89xe?B)h=;Zd3kgBf_0E{}TCckE7@9KHh*1_32$Vh`#EWZs)nO#81eU%<#io(WU!_V#y22Vv#zd zMmgDcslJu5&jXERLFt$9PM)!fM^bWSbOanoTfAl;`Iw^cyH z)YUfvB82OR9Od~k_249IEN{-zhvw^IT?P7$WJ`C&RjPvHy%-oFKGdFV?2&z>(n;mxV1Q}y8zdrkv&+eSY)#;Xf&gXX3J5m4# zgx#TmMk2E?q*BE?@$pI1u-pwpF8Cx!K|~7EFb|}{eDX@-&FcD?FW9)Q=CERJ0eDUG zD983z&NBUG{=NLyFWtTL_P9_JpA7%_e7OH|sQ)tC@8bGhV9Pq(9KaoJZik!AaWAGl zGG;8!f3xjQ+p;rcEM<(PuuA>z(Qh4vg}`=N3+qez87-_Y0Ko>}romUyE zgw*k0|Ce_^gA`7-jmvv2(iE|;J-GuA4qAXJ4>K`X2v1O&^+g+eEBl&yM7eY^`pg2* z922h*$~a(s!Ca6hVAyblko?4rFbPeBT}84O6QFL8|M#RaEF}9S)Q%vRqDM_oqMb=r zU{K~!8CRF);=)2oAUPBtJBn6EYQV38Jx`Z^! z9b#O76X&{g=nqnm=(*8vsb9JD6S~Qyg;YfBHXii0mD z0{1`U1+=g0?i37ZXxufy{GSF#d>)|OdB)v*#(+p<>%j%#T^;QKPrPw6M#LzBvXw#d{R%|ps{{bcg7uv6TWt_Viy44bFKyQ=UotjVV7;0xBl#6M*2sxnv!Z^#p5ySSTzUuna^= zm2Q{40(N5H)n|t@yI7#V{_M(ME`IdIUmbGT$f7{|AfNON1p5H+=}^8 zu?ld{MWY83EFuGQGsKUNH_RZR5SAK0&FlTQX5Bm`E;2MO1T^AUun2kQJT5|@ppT%1 zal$?0j}k5EcJ#L&0nTc40{}i3vT+y)v3}YKMH==(>ezCQG-20;xFC(F0^NqbEiU(j zb8gx%BX_1sbW}cd@-mP!f#~YtwNt!VsIW0u(gf_4PnjU=tL6taQ>7sasD7M%FH7y?sC^8z?~yh4?$PC&thI`>RxPGJvg9uL?|vbG8f%lCH6ivE3Lxawf2>fnP@Y*iaq z)y9^$bLH)9X$M!@!De=HnVstzU3zZBY`tp?o41F|+k>ZAb0uf444Zd_%)3@y-0lI^ ze1bEdV9X~X=A0$Nx&Z>fcCn~*`Q^9E-*&GYW%e9lYmcxy`nVl^?6#xawxev}F|P0! zL)jEGMh`;=ex}j9qV3at29*Y{bwK)b=kY~rFQ8=sfvFdDpKCM#!2#eSV-}X}m^Na| zX9}vByqXmkSKrBW4KsBk%-IXv*;(dgnmOZRa{Y_Fi@lHK-g+Ls%+&QUxknd!9~CsO z9(b7k$vkuZGFvdt6^!HV8MBxfrs_jf{R)tI_i)r6M*KYmxnG1P-wIh#jpi=^TL4U) z(uOjiz5V+H!Plx0j0K%vIy8k@Z&P$djRq*ETfc1S_hXNbJ}&({xZv`Ir^!HVdbTtT z%2bqJ@^nb-aJ(BsTY|Eb#N0qRap98kic4$Uq9fIvbQG05z*|qA7#f4)sNunmzJczp zv5w&r{X>eS1@S?$v>@duy0lo-ON+7qu#{v)my&n2WKN5&8T9KAhkVtbUj>W#J<3@^ zJXeBKEZ9&BbDA&F%JI)Jwh{oaaujz8zZJ_{7V2)z}4Yd-y8;kuAD7KJ_h_OGrlog6oKa^nxbII z>n6teB)@mshfP6dTVb-z$H^A_l0!H}WzCmwp+=V=Hs8Mj@R|k=aZ1bY&4f!DLM07M zV-H)>%a!ypRAEFsjxm-n#_EVr$@LvjwQO-GSKPTcAWW_c;k>F)UKQhLWAoa%ymr>o z!C5-iy3ehRUS?cwcGS&wyIIS`V&|i*yk-5p^svnlvN@RQ1FY>JXFJGdwQ^ale@d}g zM-~r9$|~-cgv;7PW$h13m{TL%sWHYm&bY6zWm8<))M6KBDq+ZPJym0>fs6?gj?}@S zOo-niZuUeE!{vD<9G51#lh@&J*}^oUqDw5`fP@SPPvV`DOQ#$+FpbD|Ux+&@(X=kj zQqsk&3sBAlJ?x$I|3V9#90>Jq>0$RGn;784-SB?0GW0@3k@`f;_0J^@u8p$BU(USG%wWCvx7 zspwmyk?)4DN_$k7MVXfJ3+Trt`HnM?qjZ!W#!keN>jSrjV` zS-fqEkmhFynXl;6SsRCRWnI%_stW~*5SEQYEEFnys?d>zqCmDhY*0oQiIq+fL#}IM zzMG?G2l@2!pR-g`0fz&`+zzE11ple7A{LXH z`UI%4bTGPQuCph4dWO1(ztlF& z8|ug5jAR&(6Y&soOgJMq$9(s693DO~$XjAIy+^wHdXEgtqwE>%J~h%kaQGab7xOpN zak@L^kQH-)_=bQ>X^594(|e|`YxoEpgGjmV?;GeC=sn)8u>lhp(badDH^6DC-${;33DtlgfIme{!I39J`jY0SW@%hc3BE_ag(lpa(|!QF9+;VY z!u~!P4wBrkS?@yotiy9YK;wpi4GP$z1blH39a3DtujF*WED!0C0ej@;n37f{c>ZO|)#S<0Asr!{OW3K@%*$5>+>XRKSbhK#!yC?iJbRV`wfasrr*ld7D6eSwT=3<47udXNF0cB7J#1d{l70i*-2COLVAH)CHg^Y?yJN)? z%B@~Xg5#UzoaLAA*t`z7} zgPeJgF%N>_Q>#5_ylz8Tw0eVeT_XWgmI0Y7WU$I) zs9o1cpvYh-UDrq;10+tyw9MEPdu|GY?Nx)SRKrz>PzG~r3`Ogjcp#Jj^E?j!(j(H~ zpC;mBk|w0#!R|Qn3ocJjkd}`d*`O4$-0%*3yeC<}A%TM0PY_WM1W0_?767g+zl6jH z6fK~NL8>u1Bsiu{m7n*TD ztN1t4$Ke>;?-seHVkgbek?Iw0{~A*9eFPvX>w_Gu693`j-2AtCUY}kx0?T5UA`FW) zLFWfa-*vBauv9%q)iYE*tUg&*&Qcyc%v!2AOVwgBu6_f^ZPZ4Sx4X zbe_?x=b693x>L;`kI)XmpTmEgs8PCM0LF7-C=6i?su;o|W$DQvxcoK@Ls3p`5e12~ z-=I)d4Md2ZQQ&A%b5lEN0v?YvK3$psIy!s06@o{IhLRcJe+9#Lv`W^Pcfc+-?h})A zqQ{W>fZ-h=FTDrOgqJ=cD}PQtct~4>Khmug z%L+CX=~M;LWo1)ZrJBA8yhgXP5+A|H4{AJlt|VL(f|y#|lW5Z3G$*Ph=XMQ>_CZIM zVoy8_)SOr9gCoebtOE-YI}SJ^F&*#g?HG9RMUeFvtl|xp-ng%m;^p| zp|>VF48e);iFg=tfGNhG{4gYHMY_U#DdFSYZ@kJ?q*>h(^CeGjsZSxa?{@*fq8r;3u9UEOd%3*5i>8P%k1>`< zgw~pdCS!{aaK#6JPk3N);BnSYI1Ldvxt4t2JaOm5;)%y_=A0fjmxat_!3Ngc%$b`R z^ZtlXaR2)Y;fD55L;J&0w&4`la0-gfmJD(wgAgGEUOWN9AeI9V;3+c#VE@l`Vsg7D z%5e$dg=d3tsG3O;PIOy}84Ee3>daEL6c(e9it?&(y zwDyMjColS&S!~Sqfcc`WNp@(f5;aWz*E$2fm=a~y*Y|Ber%S%u? zHs8tRJJ&8>W%I8>KR>z%e~E?;_W$^PFQHej0fO^9Cxys$dmA{yU=2#ZjNpOu!!4Z! zs<{!90!a|79%4;W_x%MuiB%s+a%twY-Xz$-!F$0#5G@H!3mEACU2!J3`3k8z2T;

pdoebF$7m7cDI+f3}0>8|2HdQ)K+EHAo zXn-NVmFsVf1b4rA@!mz@8z3n!or<|I@Mc7a#%IPr{MtVS;^{u#LXXe-l~(#|6XP>* zwBnr}pP@0!3I>{N(v2ie9)Tc&tD$hLLKYaZ)cgTqR0D%}PU*yq+F0+8E>Zh|rH0pg*%Etz1bfE_;tlwk@8B*y~n@8T&q_^xQ)e zGklh5Kg&=>lBBf}$fBlHxAsxCZP|LSIGkS{%CBD8!{+bg@^`Y?EnIdB(0433Yqna} zQv1Q#)tBEr&sz2ZOOG{wc{|G2)r1OaR*tX*ySRc~(W8*=h$Z(e8*3?B?3CxZhPCbH zY`ft|Ak)TVZjX?@_#pp(DgB>HKgnkI^>h3Bp(nCM16doc;x;o;mVVt z%9D(Xj=24iv!ju7=Od%zzy(xw3Qhy`Rc;V+K!|ke?F{*?Td+(*$>JA(6um(N|49TE zGZ1h9@t!R#EGh&RmUrFl9$24PV^Z*ODP#zVl zJW+chR>4L{f(rEjp^eS!O^sNfSi)xMsMwblwt~Q@&=EjjHcv;*s$|?k7&Xh0X$xUg zj6J~6w0YjtY)Bb_>&`!s0yWO z<+xDBfC)mGRQXo5^A_`M3Zz3^>8c#4+CMG_>46Lgm7xly>H%?~GN2bpY%m*~^JoE~ zhCU!M&p`eH8Sg+3dQa*_!iHW#s?7tuEs9j19_kwgCg8!2{_ftv6C)>w=zj?vcEP2=GkpYJFg>Y$O zsI-x3I>weB=So3SVNnF7Uuzc@tVnW{BsofwEDM{fLS|r)C!Kl!iM5kM%F!K8w=$Glxst)=?%{IxES{F3*-Z6*)^>oi9auaY z$;rQaF`Tm_l(Qqaz~=1Ya&|3_$a$BhqYOC1i6i|vgKu*L8^p)POA|{IA9X+2@%{b}`~S3(ZRvwTY_Dauw=7f3)DJ2iQh(g=al=n4 z+5M-W93|z;GfN{&BOm3g&V9e=!=kme;k6N9WEo>e#@Mzow&^7(SCM`B_)^zW*9Y#^ zu6M7!f9(gAY<N#XAT@=`Y%Oxw?4T3@MdH;9B)6|9esV4 zl9X`_b}a}&T1yQpHR%op`@nJd2^;g9Fwzu4+Q^qd_Ao9OCCbxb-~vIH=p)DKpF{W- z6+}w01@&UA@;8XZCMk$yup$QxiG^<=Hi-xa!naB259}mzTJ&4O23%Sqe47lyx1wLA zn+`-EB&JzNR}j8URgE;!YGM)5I;a)5=eWFddLDD9?#yA*#YBbId)lHnrUhw6BO%Z zUPYvUJT8?q)Ph;AeFXX|&W+>=$_Oo@om$RB+4G4s*B>od0_MaD_BPb~Ay3sDODkpy zJXPXLnG5CDl9rxU$=t+B_#A01WGU)MlHZBt6=sDjWgb)`I$;=pWh{o6tdAnC=g4h* zKAu&22y&1s=8Qh$ZxGFZ450?(XROPhEfzjzQZg+j(#)brDMtB@MWIpm5YRm1QRFsH z5yzJ5@`dDfYbh1TiXs^y$H+xb9(7AX`E(#p_Q$HxZBzPN$bONd`{Lig*v?Kow!fO% zRhEYS9;8wz*2o6B&hx*ToNUl5W9#%UbyUm7;TA^+(aiKyRqrU4>K2cM;~wQWRkjTr zXVpOOkmEb0aS?!pzawS~>R;hc$z-pL6%MazA@jIs>9e%DFAo{467ws6D@%n;tMORthA}$iF^T2`G2)S8;yhK0q2%ubF~s4e@)%v&m~X<_ zR6Ow4VoXuPdK<4F>F+qpCy#U6#1k$>2ND~!E-UfPCK{as|>hP-S0_J4l zBBEORTqFE9IqWs|FF}VR@pIfcbJ^u=t`pu(_F8*YmCDZ1&@nxG#p$Sq%Ll5OYCxA| zRUNUZuA1|W*Nt3pI55g+sA{l-uQQO8+QxC<%YTcmt*96lGuScirQNmS7s>8i-N@nj8n_!L12$(p+72tAY5y zT*|&KH6OTz;iV)S6e%8&`Sn3!;o}vQQXs#NzU)QakY}(YOem?924}YDt+~eKlNh1awd^VouT=l}8N3ye=Z=mx( zK|mv@LGVuz{5FC`1m8sPEd;nXqbC3W*O7PjR!p57eH1MXsUW9Ca z9mB@xinSQPDCn5$Kn+5?5zdl8yo@kw@p@3|y_2xI^C$@|+DqbRKEm0{r+SZFQ%3ddDM9kM7NB-7hU1bFZ$ zOLXgn`tbc_GGXD$%v#h(vU1^W2m;L6Yq`~|xq8tMNjI-$SF-7qi@Hb_VVugU1z*;@ z#Z-``1GR9&(xJ?CHm9D;sb@1AxXgyN<{mZ^WPO0!>TYq^vMprU7TgO=SDd95WbTX> z#z;<@cB7>68pv1Y>|5+v?0KAHTPti}a~c+V9zonL>1-&4&28jz8wJ+tMFYrmXXhdp z7s-rFzWowwtmTZgjB)Ry+`{Fqd;Q^}x=>Nwiia&~<%(L_+(TUMp|y??Hg{yP7h>7g zqXqr3>pD&OsE(mZ*LC`mLvWYD&(bvcWlY%~X8$R+>=ZLR!In+1wn@%536$G(lmG;6 z(N!U;Y9)WQm!%GJ)Io+ixE1@n)rz(K{cLkTOAT<;07DJPLs?howdQWNp_`?8II4%C zdX%m=*7h7_8;-KnF^+T*sK}&=$l`h#%Irux&4Ezb%?VLG1eiXzVWkCsIhgsCa09N&Q^3w8d5>GBmk*(mi_m>7B1ZxD&4u- z!ItjkN_U4#4~0q(v8C-?X*-+Q!DV)UB)g>arlZB<}A)!&6ukNjg_g8m7ke3 zS$Uv66SP@0hVmLgDFT<*%vyGGmYpc^3)1ocpoAv#oqj>^_ifio^9sG%%>4Ef<~R)PUu#)ENyQn-eYsbN+7QOg7U$7v6nK2Cq=|Is`g$^U49IX%jqeu;5j z=1z~ZJ6+sP*P7eI?)0#xS|busPj2eT-+QgZf1*HxMGmq#9NMpxv)G$l?S`H?YkvCnm8e(<26HZ>hs~Ir21x@ z=IXj(HZ=(=NM$IelFe~&Ie3>+q+u6MWet5XcSi_Za%#Ao8kVY!)bEVBRE2V?*qmxE zry3OWN47cEKo|SAR^omRE^mTa9e(kAv$(0kgRdvQ2OHk4YbDs|@J6|Hf(;zTO&-|t zB|K?XZbXQzzqHX4!{R%EKUlNlp9KC=;(aBIkJ_R?i6k%guTB>Z;$&M~ay*CH86=Wy z^vF&J^^%ZWkEh-VbT>#uG*Eyp9iOOAw}CrZa}^nR$OFWPa^NCP3MM9K%6ta&F_Os! zx*K9-5j@|Hd*E;j(5aXzcG8}SH{8gdEuHd%S*k51u|_zlr~fZV%8?_eAi;JLFmq(O zqTzyI4UKnA(3J@K5WI~JucGPSq3JIXOd;q(@K*?SBlr}-1cJK=q~rQ`1+|{!W!bEL2Pz}s2wa-#ZgrZRYh!2Ap}bma#SHG z1%=5euRzci0miKC@9ca%XOV)rOi~94H`}OTi2x;;0B=t zAUD-81WSYr<|d^hT?x^E zu{jhNj<9Is@Gm{$V16s zI>1a9Tw*y1{;1yG1L4OXPJSwedk}0rg7R-XY z?ib)g#xRsvF$LD3q?qCpoN{o!gAV*+6;miLmwcLH3S9Z|{|T}>Kc_hE=8_01T|vkS z1j;N>1}9F07qAhr!)rj9g&tSQ#KipstC;R~Hc?KYQ_Ji?ta>OVc?h3+^0UNC2&$k% zC90*NNe~njKbwD{a-%U-6{IgAjRbn-Q&m-jp=oI|0$jc4?FwZS(Za~3(qA~o`kRn! zJjeQTl;q#wh{3Zn&_E8f5Au_XkVdT%l{4B(@^UH^RQxv9&oD$yqt5)OJ}5ptHsVo3 z1%5^cJ$wpc`Pi?Jq9v?OxXj69@e{Vu|AwW&We-q|go1?$EjN%hB#I^;XSKv>t`Nl& zu})S%Jn;})a)>KABxbVjf4zUf>%r0+v8gZr4q4%P)D~AN+n_ip_;Z3N~QN3LfKsAZ)`=Y zlB#Skrr#-A!m_1&sA}tludk{4Tp!^AAmVs<=f8j;Q zc~M39DMl1UI*Lv+Nve`F5F+l7K zdCcJs9c%Os9pO$kJ*jx%L{sN#hFf8pqpCn(i*D_ncS!sv>`xVtCT#m8EOu2J)CHUF z8-kZtEce~tHA)V`xcQghecrZ_8Y$jLTpGtf>b5ER(Io#MF3ob6=ET)j3+X)br9(u8 z%8Q#a{$AEeOD7oeTg`df5Ojanbl)U=1AI#3|0#s>ZHLzyH z>Jx~J659yf3!OHmI8C6^2wV=rr2$B`X^vXp4i9ckM}?z}xN(NzLOz=0AH)TQOU$Ji zG_@gNp56h~#aket5Z@SFO>o0YyU13MUdFn76Mzr#WZV?CM~Rk5_)fGflrNwE76ZNw z#ry&$hQ|r{1fE|>+hbela>{bb+Z1c70yQu((c0A-L4!L;(?&AwOlECFSmX8`4evV{ z+INyUHO%fCK}p@B(`?acuITjInK8C#Y$^3|3Fx7}bK)^sMS@-TkA85I-M$Bw571J> zp`x0I;L`WO6?Xe>xxKh`7bdxnMjkYM|Llinr7h|YZo-9F!anse@Jy&xG6E62$d2cE zwn$-V;y1{GUJR#~gwjiv7ufVVF1?OT-xvA$ZOL5pVEe~);r+)#`;UFn&+Z@P_K$}5 zzZBXJ$EGfJznk0dhRKO7o#09*)+W7dsTZ~56h(gBf`ULd{MIuy8T%QmyL~DcKmFoP zkkARfgg*Q{Gy>fH{*pBNZN8^e@BKk}&uax+*y*Vx;)v3pbh58EsCVxR$wbc}==~#l z22jG{()VT49=swU>4lzQjE}!pbWt_ z1my^}Bd7r2Lz)I4N75sZ&XF%brp<4|n$tlo`6A#Mu%sBJ9B;z0wQ{!B#Z49S0RoX< zEb8-n-f${CfOb%VAu@0>^}TG-5w7USV!ud)N8Of4gjeebd~9!6^)vPZ>rf#bx`z$S zxrP#APY^5VTX&MyS-6sA@-rngBQwgLeIS^bRUDAFA~Z%5o@A*JTlr@hG}1Xd_hS zTXk?G4^KkvR#~wX9j3Xe zbhe_yG*1;~D>_Wo0{2^)G4fUEY-PqMP=)!;i~-j?E9)d~4EZRpk-CCG>c(D zL#tquDcGR)Rz*~T3RiWgAyp_)=Bf-uG`bQiLgPq~*=9a2v(0>h%r^7t%r^6?%t}$k zGAj=yWHuHmn%P(=DYMP=KIjV$i$E*EgP>+8WN@9?IU%RP1K6_i)*J;A)AOj#+uU zAn+NzU;BAuD60yVE=?{?e&l}8`+d)cp0(~#cK0Y0q_krBm8H{5r$5^DAou&NAGZE! z9=r1h6s5d|Dc`wtbLr*}avt3LxYWJW{gGkS{e9DirnN&u zYs2T6i~un{^3OQ1uAGQ1E_))AZYAFNNJ!oqnd?()AIkA zT3+4@&S*6z2V<;SAJ%F>_&c*Uo(_skiR6g&zlZr5MS;G#IsHU^dx~}oVG_t|xRS0x zny@M)qr{_NrojXkY3YGMGER=;o3f)ya&4~xSdFDaJWx`jq6Vs|bD$~~nV)rPdx%$J zhbHk-&ls;B$`1>h@FZ3mirSj}l4Pc4E48em3aNHZ$T|{zkY?eR$y&P7MB2?Wrl_I~ zZIa@%l}5GmdwSeZpRohd^ml;umHOhc8e7h6yBoE%fhz{fKG$|~f*8v-)0mK^NV6SOxu)8NJi=%L8jyVjxXtZ7A z$V`PYkjyv5^E9?da;6fRB^8P2l}WUJx(&li1nS&8fr%Er8# z6k~`a$ZzzfRyi}|bCvtIu-wQAhwP9AL&ERjDbR;9u+qeVIuzIY-Um*uzMU;d`-ABLw^mf z!Jz*HdW-xdTjtqKo4PJBXn~0mggi{>ZZSh$|cab9XdHZIw!gZ)s-#MsN7zuEcT2Lb13dhuR zvH9Ixe)nQV1WvA_cg4wU9~<+RheO6P##k1-wCWF49AGLAL`+$rq=?KT4{-iq^ZU4b z)KZZV5r-L!r=L_XCr|x()sL&d%oYrB1w)t!&Ogr>2u_Sahen2=YUqI{vak11{m%IN zWZC-DTs`m*USsR8txfxx>o?fx8*KfJM|I7sEg!aqcXow#c0C+pcaCs7N7%a4TpjUT zckNM4BdEVA4mWj%nmQl0vQ4MBrc-RqAXhWEHZ;lBOh)RO-XC2zYEm7afgYHBpCdqx zFft%a8#kfBe{-b+x&A>q{vg*q{KBquppW6)aU4NE0GZgdFn-kcEJ({}?4E_+!6|3} zV~7(1z(Nr$`Cr4*h}RE*qHee?5LEeUWeZ;%j;nH4og*(Ksod2U0q9lkaSVg5WW3UM zNk?ab+Iz*BH&B%&HnO0E-9jm(=N&M;7yE)@$Fz44wc!5_Zqm~QCA?Ph3I;{&5@x3G zp}Ng2D8tiZ{+^Zx-w!}@$uBSUR|5K9V(M)H!!Iv&`Y$&>lW^h17O@`o!ur4lN}HwK zK;m0o{4tDEb5%Oge)b$HcO}X%*mvM)(_BT)A@b08qh+iPB&|H6JHFwn0L91xCC<%? zP+O}x*uA~sz(EmoQ;2&3otD6sH(r5K%sTy`64b+|`MtDg zPA3~+z%z-eRw9k&!-hdj6CVNFEC*C~%nAB(e11>_;iO$-B$#i^?*%T-8S*jTq(ncr z5adn7NACjwMoY@Ffxbjhfuf|MFOq9tx_tL)utd;;xoC`9FlD==cc!I*)&t{jY^94}>ZYJm_F64{?=;!j(Ot z${x1z2v>Q8&FSNE`qm8)0&w132vZTtsR+96UkmTpAKJ11K@+>9mD|x8-q9V}(arAY z<#zP4IY+phBkL&`1~ez;qf*7~AuG`1J0A}J=zO^QT&VjTGkTuwzQA=~2zR?e-7dC! zg6p1OD<)X$Bxjvutdmjles#!N{Xxt7`&NfPJRjcG7uwbLNg2EAIJfIKThq_g^t09h z&N{$Y2Y_32sUJ@Y0)PkSoQ12QitZW1wuX=m)c>)zX3o~kkRRj;_7&h%8?x1|oMLSa zoUI{jYYo|2AGo+fr&-$>&US{eorzfUm%2YI#A2jqGK)w9u5XVj&$ERn8MTK zp=uvlazT~h*TQ)Xp}Yn*uZhcRVlB;_r5V)`9tGkzLP06vv9PHqWGY%d6MTBr7aw6w zeVnO}A;0ycSUgWb19_O7UK|<-DrxiqxFVVUBbQ-8adop|LVS*icS(2gTOc3u{AipC z<$QKD4sLU)*uwII3+rZ6|8wLe(bTWHLE#xwRW7syA&A8wN%+HjDn07!kcn1$2}#)i zp^>ZmlMs$)uOnq{m0y6+V84^86I3BIiIEOfD{K*=QH9!2C84BTP@Pw;W=ZSW{&Q>z z)H&D!;-JjKmeAr~U_XYI`%N#BMp?`N_41Tn551140j{~sZ;ng+A`vmvVzCTiOp6U{|T z6aZkN*+p-(eY*{Hf`-fYgv$3k(6Z(Gx$^zt^3G6sCtKddm3Oh(-CTC}XPO*>Cq6IE z_o$?5#rl3>*wGqtv_5dMj&{z`&X#m=B^^t>a+TV7thI@=HZj(wp9f7$dK#LD;#ONj z5?}9r7UWw)0kSS=8vn&2#V@F|fD&7v2NW#Ek&hZ`4`C(ELA9-k(E=HVE*e7jZFVn@W)QGImD-HFoN>R$aD#e(+GR2tv zmQz&b2kP;y=cpM8Nmk`EX0Oa=%zn%H45+RsgPi^y(+5xmTqavsb1Vv)^)xzp5>6)Tl>8f;N9bXnb(jHz-+-DhI2A zAxe&u9hvkr+L9yQTC~N39HNw$zJ?~`P@vyNfZG6i27w0wp79Fj-`~T}6#$@rj2!u< zcz{v}dSC>q8tw}vf?5utj^PDA3KCj*JW4`NgXNz70`U+hA)0-fmAgbQH!ss{);2C{ z+hU495ZT~vhbE+lG)Z?fRD?_w!5gfpkux*# zt@}))+1ssqwD;hHVXn3R6DQYtk{LYB4PIu(UEH9XnY_kL-e7Lt;wItexQFa{PE}~+K(@O()Ht`%$c)4?q|-A zap&F4#3XnA3cGiT+dH*()yMAjF>?Xd{0e7&g&{ww0$w2%@XA+K0WEtUSh;;bRpa&@ z|HQ=&Tw=yv;s%_|_#`*(WBha6_;t4B2G?=}%707SiRIq~5Xyg;l>aa(zXYG7{LCIw z1$%@lSm4YH4Ee1a4XI-3pF;7%eUEZ^hY1zBzVIa0O}NS8T}U*f#;7M-pl`uMUgXjO z6W^u`ckx2M%G@jfqv4j~Q60*vnFkk=q>>yR)raJzOGC%Hi85F*rA%+PZ z?%|Mzvw;Q^Ro>xHM`|%ZA7u0$b-tCQfaUVUf;Lro?7IOPBH}A13hR?X3W^ko#smH3=IOF0;R#8Bu7D&vx>Ut{c=0eId#-`Hps%()3 zYQvUPQ8<+0poi|*QcD^XJ(3EfBy6$D4RfJlF@DZmBr9@}5}*?2f}k%MFPz_$eiKGh zJPTrHJSsBooq?0kvFlD+P~9TON)j=gehx^A$Z%S8jv>Dl?OQ`Z%bTa~fl||`6WTlz!iYmrO7G%%d%w;!i_fFV_YMqR7 zDuV@b0@|x8Tn=)JCVVvuU#_VM;A;Nqe}!lM&}k<V_Mc zCK&DXK?HsT!wAT3rVmVxRDss|I+%$P%BHdCpcj}@Q5+HYRfTzgSP{LHgjuyIHZeq* zSEY%9H)EHENyG0Pze45?VuM&z#h;Xcj(e}d}u{Vjmk zG@p{Q;|;b-4%{j^6k8?MRK=O981j28Ol8CGUkukB3e_EA+M)v=a(&QcGT5~f~+Ee^uPj&)s9 z`bGI=dQ40ALnqgAggJVixp0v?dI_??&_3=ZV5Ysv%)^!`wqN*SU8fa7zmfLsG^X%8 zYreplFEHZoi!Z)NoC9s@JmdhORLyv6Ak*0Ku#9W$VtURnXU}mxqs)aF#^dEK%rZ14 z&zf#=rdtg8JtmXE%J%o`!qo>t)dv{3gtPi2SA7!Z12%t%%O{-1IA=WF&!>eYaFydi zxU?};+Q>BZu%*3RX)jxNgeyG4P_{=;cP7PK1_{Y(F0Y!k)Nqy>ESHy*&Z{ilYQ}?? zxyBCW@DMWsyWJ_~+6-&*a3&8!elIX8n;ytOX`etQLS-zVV^kux zLy07FVr~+b5pMQ?9`~Nq>j=lhW}!?0{d0s$4;cJNx{E&8`=2A0j6kv?7O0o!h$S=5JjaQdU*Cb&e^2ZJK;;;d*o_sv zRo2@j&qx!Id@FmsiqA(PzQ@9n`B3WD@u9bv+t@)u4&+^;>TF@|P^nzHo#M)q$Kb;F zq+YOv_*ANuqVdUNkjym19kj^nLNqH|1Ne)q;8P~vD*8)wm22$sQxd;)&1fu4d?*sX zRqjJHt8)@RvY<}zW=isaS!&Cm?7COcU7a$b*<#^h zrUWs>jU#!CE-R)&C=>Yu^kXm!rz@v$Cp?H?2*EId5d^0ZfFQbtK8pZ_(dbbG=Mh{$ za1p^J1Y-zZLf}Mj89)zB!9p-h8vr`;g=<~k!ekF1XhJ|XH!chS2y*mpS2up%z|Xx1 zzK);NrIDaS&mp*u;0A)52yP*mNANWS0RTQ6B++e=^b%CAyb8|q1xi8< zkqeBnWSaq7@ckPAz_OB?FWm4N$;?{RN3wDkQv_hnUdye9i^3NTk#zG~b|sr$xu}a| z<*eCiSK&n+9l`5tPCb`X&t^7onGI{rJ#1zVL<)y6#bL{~ zkY!sCRP@(!mfFSSh|vN%C{i1d|9bc97w=wNtJufp>|5*s$-x}kT44j5)3Dg{2x51M z3My7o1jcUG+{Bri77f4yot-OXC*idPk8%q^oVPz*R2KqyUJqN;$`!S;xreyiLu(x) zZ0^WnFT}E~N6Szp>pD&Os19zyUf1d2o&c)gXK9-JGNx<~v;P!Zc8VFEV9O?0+azb3 z1X0HH=#}18A*yO6f3=sT4sz5%hB~+v`@GePwf+5Ub3aQBa19=VL-i;S($~GKjsbd^OnU2|8hcqe#MA4?tOsG|&ZRPJh9-Hqw)Oq?#{ zilz2))Lw?#D-Tt;I>l1$9M#TH?Q(l4^&0G~T28RkNscmG2c;n^6C-9h#|Z2bw_dPv)K0u(2p)EMnl2b>mLXxRWuqp@L#i1zZLmfv=xj z(jfQP$QqkCV-sU+jg*#?ixI%1$;=rG@kq1fvB?}ZwS-J9tZ6rA+Rcz3_(->eO-&(F z6KmSZnRYU!ozYNs4CNr96wZPV47DR<+9A;fpkjWNE_446FjM{JGIy9hRgZF&BWFwr zPkPk;5?$sF*hpebFpkX#d`c`Q@(jhLqVpHT+{q3cuZNfLx|kba42iFYFOB($35BWm z(s-9*j5ij}OoZ#<6XI5KpU-qXd_tTn{;ozSUqYMv<`FA^rDW<^09M7SP4Z_C%i z|1GYuZ$n)Pc*I|z3D?wTzbKx*jVm>hHpmh!EYE)fpRz0AiHx!0N_aP}&xqt8ODWv8 zj`A%mRlrdNuq-`NUkMM>XqZx53BQ5OR<49E4N;{mRR$X084Bmp)buc=ye3{m7)Z{x zg{W=811#0RQ4I{$knj%q%`T4r)RN6v%7celOBH9S0@MH)G6#@U)Fi(%z>m+2WvXSnGP}JCtpWSv($Eu+RjkhNnQ#=RN?Zm6)WdB0L&j_EY;6Z{fzh{ zhXcT)jEFFeJ%~p1S-5-~@6)Bz5L6;SEp{~N7qPqJW2hg&`Uw6i`h5 z6Yr4!CuoV_&(L89fG=KyRu=xAa)-PLZ;Y2fQK?}T$cQr7sjW4j7JC`IpzYF<``;C> z3;Q!08A8Ugz}*%;qQXOYfhWar4Q(D|7y-X?g+z^2s#FD0*kW z5|sQnr+EV$wawn*b)H#1b7pSZKQ&8x$K5_3C*QY#v9>05%hJzED#zg~CynNL??x%6Sryn8s_XtSu!TlNOxMVWe-TX)BmN$1 zGF~Hpk2Tqh_={+4jQERatc>`JX!05H7ts_m%3pjrA8VSJM8EZ9owgr(YGTNgwtPmM zK9_r-rgd5vkBQ+@@@K^5bGiE^LxvW$?j?px`#{hX+&`DQ+pi^&ARE7y`aaVT*UyF5 bdh~T6C6G*lZv4Wa#PxIGwVvojdfERE;tA5a diff --git a/__pycache__/ommworker.cpython-310.pyc b/__pycache__/ommworker.cpython-310.pyc deleted file mode 100644 index f563ed73762bb2b7748b770992b278fe750b304a..0000000000000000000000000000000000000000 GIT binary patch literal 0 HcmV?d00001 literal 11285 zcmbVSTaX;rS)RU3PtSE{FIugxUR~|+MY5d`LLwZ=(n?lrtz_-46}KJ6qdC31Gdt5g zI^83!CbMxsCKN@K$_o@BRBE<}AxZ(o#RUWc6veFyiUOXfI=oQDL&{X~f*&Y&z#386I-P0i6X zitC8$j;-soaA-C5G-sVz#-$p2n{&>bmbjDXU16OJYl zjxL@ShA`jJu&PO6y_3MIri6_!DbgZ?&=OgZLzohIQ9x*m2~k9t7L#HMVMa`g8H8E! zjF=UB(Na##iG9e)i~ZsN!h$#`4k4Tnhs9$Ei{g|xDvqJ#q&O~4AZJRP6ptgE7Eg#0 z!Wr?TcnaYjp<#7StMt_?S8n)n!fX#;62 z*}ep0%`TP6bPd34R|m{>lYsfI1z6}NdK23TA{b1|UQ}t%7jD_BG~G`2i8sYlrB5+b zW<^%lRW@k&VcBapZ@Th*4KsXS2T+A@UAh$!#F$c1(kiHYt5FG8ec9ypRHmQ2EI>o< z?ON5Pm={-8x^z{l>Ni`phO4Z=#fqG7nN_s#OU? zS9&Vdtc2BdH+YbcM}hd?8>hY1;B-*w)S9(t#OX`2BHEz+`SUL5T+UyRe(R>cd3woj zG%KC?b5!i~xn=*#Ggn)#cjd~CI7S`~?NsZovdiU~R}0H!>Lxe|U}^n7Tg&iYK`Y{~ zFvz#GoYt8d5aOwR6II%o{*N|@L><#(2beI?(}cFol+#Vr^`5aEQDUNQ_L4*kBe|fF zy7f?Q3c0C=a&6?=59Owjn;yx{aBo@U>b)qQ8;L^z5>+yU5JbGlaFXFvjdG?L&T!5i zhO-R!hI43XUvEEg57Yhuqz}s94-fSYg@@{g@jbS!Z(-(jy*>|k1fPkIW=V6R8PIrX zbTq2`sx6HB#4|?)l{;EK)^Dq;Z9@T2UhjCkW>)V+96P!MOz&ir>OD@ONP@qtMU@O% zl{=m)T)V!wT)udH;nkIe#q+P1bY+27*W8d8Z7o=qIc!zKm0;axJ*vd#*~p z+IHIr%GIX0rA!dxEhPMQcuQr1TC)vKhQucxV}Y*hO4tO;R9%&B`9Y14fy#jPZ@bmd zmw_@`7>d#ILuL2*UZug9tKjZ(3w+xSqo|z4R3lzAXaSO5OL`$QBcwnyGi&McrOS)U zDuu9o`O>0FU6X#*4FZ+-!C1{^%;ZW()0U{XO^h|ktE0?2m0GB#%R35|Z~Ee{+CP@r ztZcaP1WUR+jBzO~V8)NYF&gP1fFH*fyabQ~3uYevbjt6u?`SxM+@k(*%?2A2Q(KyC z*qW(zW`}G%Dz&P_zWpD?NnOc@k0e}C%~wrYccxtrG@2%#f9saUVo61Pt(YF_&gDsgS<-M z#|WGS=uhMfWsFTEL(JrQu3Wpj3iJmg8fhbF8?g;D!`TcAR%!VCAI1CA38;sUG#zN+ z!PLwy!<_YgdWp29-zY4~4$0-yHi#dWTQNlyf zkvZ~?jm&XaaCbs`_J^D!TM{wJoqy@&Ys>NmT6hriQ?k0g(F(_Rg~^LCw^25*0isQL zn83Ky4gw=>H`tL2NPMIn0f9lTlhkKoL!6{PYk^gLNOsZAl+wHJ%z*58U*zX7fCpN% zQIDd%XkWHaDj*pjO_Rh0bot265cNexcg%HE1jtuWpP3u%5v}wRa^#x?#=1^Zd%SdC zChQ8pDCZ8a)g&y&M@RET=Q|d@KlzMP*&Qym)!(rT0lB zl?p$Y;8fCWw!*tC?pSz}^7jK*UP5J+##%IM9;CH0>we8sw!2vitFY|*qVcmRHolbB zDlE`o{g;3W$VfI>Ly=&_--j8!PpX~baBZV1J4lq+k;wEsJ{CRw^;`m9EMfqsflyX0 zC}U&fTS$x#Bm-P*w0w&iq1G}xxMNsg*RExYTD}E_bHdL<}VWhGd5#qXeGKx;j#b@mJwV5Eekz5PBu{_QR+)`9O2lIdI@SSdTT z{3FyN>Lq(-m*qwrH)C$G2D}z?SYOo`*H;!xncX>tlxIYC2GJZ-!!yW>rH`__NbK0& zx(hqkTf?ce>iZ3jt=HDpalCAeQ;h)fFR_zbHK#`Wf1D?;O|9 zqW&*DqJAbGe{L}9JlA516b01!=FVF2+$OlxG^etn$f+Ea6oqKDM$3ilML-VxZ1o9z zyi)hDp5-D^#rh;-`0A6rDZpuJ4Iz9R*pGjq{Q4eBe--q+MwnuG7I3fp4~hdjM=sC% z8Xc8-`*36;PAc~H10E35d;45;uzu)5;`8|}+SAG2Ve$pmk=KQHk-QkU{u}ANU(@6= zLdcW0hWKlU!)?v+&xskN9t-CQe^28O`?qS$Voc>D;nDiB-f`fLY@=rIe0a2XB1*xy zq46KVcVJcL(kH{mkvb`6?~#;y0`X#fwpR+DM2u2TVMg?~_dfiak#R&4uK$(h79ES6 zY3E;Yrlas$>}9;{33t=UUWh!4lu*fLZPOJ_`kHjB?6U40i=4Le?Eu1kK5Br2D_7?G zehSAtzjEPR=g5wtlr>&Z882PF)|uZ?4msn+9OL}86(_YEIZ4OL1NBh(^mTXDg*jYx zJ12KEKFA-h(%HY_VUGTqSL?W9Fq3)mmM%YlR~{Dr0-t(2R{7aeo6Sb2Q1!yiuzVsY zpAh)(q)!B=PXwo+Av${Hsgfao4zfc2EC4yJTvwEycBcDFRE9)@1m)A`1QoISyPzh~ zRX_3K-9-#Q{v?$!f>6pLwK++E#iYr8S5lxVb*Cc9O{FqR19y|WMs(E>C&i8teGcY zpr}=8AuiM;_j92VR<6f~72I>&d_ zIU^plD(Ra3uYkzF2KYDVo=#Rk>ogKu>2A6QtwOwhBjK5m?tUEyvDjqnn~p}DHsdfE zhl!rP&Dx&)*d#9?RdA;Qh)Xy?3oS)QG(8H_iEbS0T0MIk&ZBT(Cqy~HMT9u6ZDmk0 zI{sxu5*h&-sh6W(zNUF*HzO?MeGzvvC`-K#Vx%wgJ(BrmEYb5llKw2wyziqXX~nJ}?nq7TNKJ<`BPAhWd$SlVd9C-d=6H`{y*XZ&EOHX^dtGzT7q5o* zEsVm(DEk6q|=DrccnUX_0H7TpT4$d$iHrO4efG8#IKO1660Tqa9cC08LnL&;Y1 z&l8^I9dg^jx|;0wf>}jgSozCT=3N56PJmpwsz4I>{JLA+Xu*9Es$z7c8Rp2(P}vPC ziyJ~*SkScvoF<2nhf)5uN?~mWEKb5$8X|ES=1E^88Z? zy56%tj7sD<6^ZGnd_gCpzo6MBd0?nihCY-dkxq_l;1E)Z;*l$x@Z_^0NOg2Ahu(4@ z<`B<)sQ;yX7VgFo9~mj8!7WP3SX{>4{zcdTbl{J`UBpVWbWce(MY*gp<#H3J8r6fz8ww7d{Rg z^y$(+RuS+YA}3Y1qlW+yE=(U_6P-nhzR2bnJRR)NIEz-Jb0-@|U#27(NAep4=!P42 zbA3ZaSsQNScFlX_G5kqPpnQ4P~mh8-r^I?WAOYWoR}G}SB$Yq!ba3OQg<@OT93p|#aKL685_-Xgu#drdt}|2K?%ejSz^zi z1Y$dT5Omq2i}bJ_b66(gFkCxSnm0w|xqjq%m8>*c>lLN9*Oh+fS(U@}H_Un*FZfn` zXm-?Q3Tze+^qU|RFgbMLErVy-5jO97#yP*5qg(MnPeUbfO+VT z{rEe~fBUtg_@nrUSOD#QRI!jjs{^v8Hz-(qhy|IaO{g1nT>O%N*wQ?*DPbqe10wQz zl1PM5TsO9K&x-R>>pJ^6;+kDun6OgG0|NUG;V*c&6uHal^_5X97p&$_0Kk!u>h<{v#4j%Asf{ z8g=%N9Xv9C_;k+ZabK;;f26_wJ%N8B@XrK34dA5FcDYUO5MdActKoUD0JXLdy%Qk4 z0YysoBHM9JYBgE|u=sP1-hS4Zs5J2Mt68hUFYqF!>{#t4@ex91D<@f@r2JcIVvL_i zXMBbDiOmu4ldaEaIUNUReUABR7I}1-J_>tm4z^nXxDf?4%3DJPCI4(^S3~~&b0EGz z{SlY3Dk@6KD;**;ZM98~?s8e`RNo-*s|2P2;Fh@?$Zu233f5`8U`zXWkY-63yM9x? zNT>-s019h#%)px)IB8^wa_Mq*ja)WXWIp1xQd4E3_$l}|R5p&c@v=>lH3V$4313VD zs~Qo_1aHx)!J|=0GfG}x@^985Y}sOCCCk$rS@ywNDEmxgmcD@Xh&CVx hk)~^BVF1Gv#)8uy3~e%n;rA%&iMJDP7vGr4{6FQ>shkRZ??L5igK04a(TNRhJMwq6uPQV(0AWQmk4+A<8WK@k)IPz_KI zn(||6YQuH3V_M5ZwxfwLF2$C|%37(o5+~(Uyt}SiWolB}jcpZBol?T=#@WpNgpQ{w zQXvvvY&}2E*T=M}4eW z$2YY`gW-mOGjPT!L&P|0G@{!CZqumAXmFsSZRBkqwUak9 z%8<8X)Ir{5qh;h>KI$aziqQ)4c8$8>ZJA<+F@MXHEBp44w{@yAQaM^lD6vdcW#hc$ zZJVl&)Qr}UIQ!J9NbM+8z+^aJ;Fup9I7g`N1GB;KG5lAa(RvbB265$~`n!dk8$nP7)GKgc9LM2;7do zL@Y9r2v5bq;~I-a6QRqANH7{a7vjgVw2_x7>-pvnz;VM6GK?BI!>Ea?~AfHuw!(2li*wsrt?a8NsF=W>AMTs>C->71Mkd=;DPAPgRhdS0a(SY0_f#x0akNHsC9$vIC|vBsThAg#19RR*){ayu))Ut#s`Gsu$eOi zXf*M`a8e%PQ>&+7(rzJf78P^O^7_A+vv9^bH9(hZqMQaBCT*&lGkpLheN0QcYKI)m zx*TZSoIRGeLyjkcdI zHw$N9sTPnX*UCol5r%;D&zZqTTXxO_KBro*IV<=osLuvI7xfvEZq==Qe*m73X#h@7 z7)Z>J?1;v=P#_wNgl5avy})((cMvFBg8bNoTppi_B?8fz$k`D8E9|ddVS~x8!~`D- za`9}8pXHG@xng=Mm>7@o5t5%=rg{%?FdIV`!($ zV>ET6?#EUdT?wFW)cqYwqr6z99^d+&hEbB^(b_&QEp3jYKYCiq|H)cS`9JZ|6@d6y zm44!*t0wVPs&Qdl)2nnouj(V1)jD5|&bLbSB{r%qSiuaFblFSR=fZQYd>Nr&_9E*h z59Ec+n>_sABzCH9gJBXmJ9!d2R2PIIYbTE`6nQ;)J^)_uG35tWVdd4#S6>!M_X3O- zH2~a{AApN0KfN7>B z#k7db8i`pWFl#amzMBW%8+vz0Y*;TftVhH;f>@Vkno~@($h1gIi@>xzh8$O|Uc7wc zmFusFt2(4r9YhjhoYz1Is!uWXBGVu-4Fc1!R9(0D+>IBnzbIC(m8#bQT3N@i|D0n4jW7^r8a<+=jHp$s0INLH+ zs}{G<4=vja6`r)SE#+(zo$ZpdU2wJoe%jfUa(0Q%Zpqm#IJ+}d-i3`ka;Y&K%Ibq+ zCJ|bb;JAScq8ejJQlXUwfg_)#K?<5*aiKL|6YM0P}~^b6fN5X3#VwGbaXz zPYm}B5BjbAW}t^Zir`5Az-ML>{8Qk{PFsF2xU~~kcEo{+!fZ{1W~(&QR}Bmz{vZI@ z%;2|)SuGW z+D4>}EkGIHyRo%7Lw?Frq5uF@%2`V9kbc50;ztmm5X56MtNqjmZe2f>;bIqxhWK+=X1%$N%7u<&ijx4c zJp~NZmtuU{UU^vey`1B;uF7kZZ${sUimoQf)iiI;xGU$&l&+%<2j$SNvq7`}j&xno z?k=2JFoSd5T|7;mqAWKX9WWb@9X)Y!@bE{rl{=iwNi$hW`908>a@obuRBR071z5bX zWkHESR#uQQpyNT5fOu`k=R%`^9Y^rJJD$$lux@@Ub9s`ku&~I&?;(sc1;qS*4G5xl z%d*=3gU=ir=FdPKKg!BN*0G86(+S;lC2W-h=d)E3coF+-^gH)iFX{q^Dp8sF_L*6$JI%l z)X29BCv`6LDh`mD?>s;>+`O*wX8n6j?>32beyPq6lAsIJkT*Nu>v^|FtnZZSJ0ZxO zVZDp4q~(@da6ch1PdsGo{JyT!46M`2%svgR&Y#8hM=4Ha!w&45f(cCn{{Zp7`|7Ki z(9jcQH(b|UBI}b_-@G;B_Rc$%4xvLE3j6!L`kGggg`Kea9v?h*^!V`L@e_negHYT8 z?Il-?&G0;E2SC^jO~++>cAqWVvwLsZemOCQJMTC)Gc3Pq&sX45%ZH|8JRBOtXIJHf zFI~h>a0Gn!W%w15X_uIGfoac)&k>PnlbAMvY0HJ36PYH7X%f^Q85#SFZ(!h*7S~}T zzv+8!VvutcJRd-a_G}8upyJ`~#HQ^I1gL41kCzM6X$km-{ z4Yf^HBn8zrC#i0+BB}{xM?yEdY>c%iYTclVdH}?Kc;0>5HfU=#KPqPKvFpS?o+#wx%ju#mY9R zvTfO5bTpzu;psPr-WU>{4U)4#a5gNP4WK|M#9ShhvHK0T$kf3mN+7DIYh`JsHpSG^ zJuXgCd)~|{yRpcH-a-QKkN~>DT_w3&({6vt?HAo$lDkV_x*h}BJjy*l z_%?X)uOP^$+79$_pqQQYug#_1ttoe_=x&qT$U`3^xny5ol-x3) zEvt;qYvgR`9jxSQ2s!}hPEY9|n1Gl^9|TUrbS-c)%!NF~)k=E4bi$zYfJK?q3{W4O z3SSKITOo_$9a26Kj0eW}V0}3dl1?898{V1eE&S+0Iz9716zZ82y88VJu!w zfz(t&8cV*U1!?FaTJi$?h|8(E-8LT|8SMPYJg3n(53`}vhA~%r1`zhoZ|Mvi30A~*;9!0k{BQlK= z(D&0L5D72Xxy4SC=&n-ja!332Pj}rHx4R=yV;3h5$p)y zJTMUoWDS#S**BAjO~+tUa78WytESL7J_zS_%5J_FDw4k<@y8%=wlOze^3KliKJN>wHv@)fgAN6seUurp~F7DNvhijZnA+_ z!{^=e?!u)58;-~iw+U}_=uR;><9X7s{EwmGsc4_19R_LX0~oZMif{tjLB$Op4M zQq#^WlG?5k$(ia@r-2v+d|RCgPEvr*Z?6gEVfnP6P3sy1nF>_&PohL!@Nfm(^fWQ) zyKFvfxMcKOhsbg#mm^yW!MK~@L*&4F)^%jS2Mek%yUzN{`9Ffp`F{jJb^+@f)+Bfn zW6;(DEa_mY%j3qB-;3ZH0%AF5C1>4P$y~0P=40FpF~JRJiq;A1m3hM&nPkI?gC1i4 zBNP_@62NPQWmCDM7DUKvSKq#na{C0g5A{v%G~1J6du}K0Tou{f61!VqcW1-fQfymt z_|_Sb-7K-21$Og_;r{MBwRgKE|6YM@*JLVe7!=w461!hu_oJA9H0|`IoW7*@)@uFn z-*1*pCZG*ao=H0!Q_e=AsYi5fkenL?=LQf~7Pc&G`OR;B6UY75kM{NK+hq8&O%44X zvrbUMUMI6{7r1U1h*1s%DUWuJEtp>4q4mQ|B(skHQG$*?gQ2*frcI|Gfm%kXHS2{G zE6g8=QON_V^j+Z2OGoEceo2~iW=u!ST5@?=F${92bEWw9naeZDH5wL-(f_WkA!pCF z%=lw!na5p2M&ELzhBLYvI)2A%SXQKlXyin>FIS$e;q#BF4=In;Qvx*PMx?XE5m}+n z!)S>9Q(awL*}C-pP<4UazipPd3uqeFr7Eg6;@E;zPklShoJ*fd%Tsh^(iM(2F*vva zN)x#y8TkQKJ%QV$rUW-ybCCz!lmmiW4K{oL0^Y|OAuqtHQGi9=lb&2?K;zDZC#lJ# ziivN?gBnlj>rYm5uZsJ+*Mzt<=gDd{20|&;Pe2AZhj^5(0BR%11EJL1lHa1m$>o}? zRk5{i&U2?yPa7H+BsJ}u!~OuAIhE{HxPFkMrMNLCU{G^Su4)$2>&qhT(4dx(Gus?6 zoaw#_mmM_JH>p_KH(rRy8G+`~&uK1|wz@6*7~2|qwCn~e+NFwyI=o`^Maom zh$i}SWouLE>y(E@bJJsun`fa^m;srIoLi-DX-Kn9gGWd0BptO$zZ$Q7 zCq{BU$X}aBmm0%)@ZX(U{ruIpgrbJVZJGMtUk55_ynNArSgumu$Fi4G4n?`pWx0Gn zxsXCU)=2nrh?5=1_|O=+Gd8>C6uCs=n~B2?-=}0iUPq4jsIjG`e`KIpae+1X!;23gHF%7Z>p6Iz8nVNNtMH813fwl3#S`L1{HEx)-^uVTe))egW zoB4O3pZFU9(C#)A;{5C7Dz$+Eup5Bg2U?==$Tej~?E~2Z1*x8WSB9W?ejj3(;|ZQe zPRb)QRJIrva#;r%rEI?xTiy<2p9@lEP4+Mp%rn9+yw_J_k zAwC@A!ejelmrrKxX&v-vPBD#TfW{MO&n8zQwXp=8`Gtd1O8cOtZIC0;xf@1cybCtD z!AM*w8l53H%^RVFM+WvF)kP+CJ|Vw;hzW9aNg94)(FS=E-FX zIcKwdIpx_Tcs8v>x-R`8k$qZXpBBh(Non{sDRzy}wpV2PB(_f=zponF(hb{E4cqR% zEH?B@4gKVTm$KJwNWqC$l(O zsatUFgw>7!r|p7w4@dAEGw6}($S?|#Xz1m-2n{uvAPTp<%v`5->@Ls*NX;^fQNX`*~{FW38X}e?4^!C8bqe8>>&jvm}BJ3Jj zs$F+`;Lgy$+x%JL^H;^4N2Q%d?;krM3_m9g2gPG&rDJD>t}(H84C;I6K~?qQ_8Yse z?*?5%omkZ+RdoRo6>SgL%0&hYv|%i)k)Ws8HJQ$yJO117@9yxYXYRs3VKsKp;RlV_ zpzH5i#Kx^s<5mb7A}S2Yxi;-wpK`9h-@OM2dF5W>m$Sl4oWNgPHW*$t_M??`&w%M` z0)MT#D+bZ*8X&~xLpN4+*?arx0b7n6czqqNQ%@PLI_4Zn zh$?&vPokrCRFR!FM9qq_3q)9BVY(v5)TR>g%q8MkO2o64h-WCSIQ;-BmlMTNge$Jr z$;TtNwy?d)Lwt1mLwq(h4qA|ku4)**^K+atm4*jO;u10EY)QIxUAbg_U4m||K+vU| z^+F|RY5Cn<2Y4|43Lkxqua-eQN*h~coHe_xuYvwS9bdtt&l}V@mT2u<8E4C;FJ$Xd(+ziCYFbu)>IHK&3H8mY;}(p(Z_ZrW zc$zD51|{g$2DV!zwT+%eXj{55{{ix%ih>^?FFO7cnvK+VtfNNdkfa+lZ7=Fa>eX`S zce;swy-w>Zu4vGw2aZ+#ns?4pa$lFkixy1LD=?ZE&8#a$k>P}NXCR%bGR1?d+>EH# zwu0*B%$)g7nSR52wPLO!NjJ_aCcgD`*Ui?7BvpSrGzFbO@KpSj}^(zRl7^^HdLQl$JphVq@+zQlu#T%S;tj9M1H3tBlx z$;$PoI7P}o0p(X@%l}g--=~&F#yj;TH5^98$fpLzyS-Kxa+wm_#a0?#^e4~*t!n$0RHyEe+wu`}{-hgd$*Jf{Y2WUW+xHQ3{-k@s za_vukXnB{I$hedPQGN}dd-olD{!K4G44uKhfZz=T&mkBG0Jo~0L^q<| zPp$ypNqYZ?4(=*@9nf z0tM4l2u`5~F{D0w9U1KriS{Ef&c`Ab@P;+f{qX-1vC!aJLk%tv%F*>7p$m_*W$QTT zaS}W^>b{AgMDYTlGw})8qm}}-Qf|!g{|a&b0>M25sKAt6s0!+z2#uYe27A?n%qr#} zxe$H;aW5e*eBTBxf8!N!u#!b?0z~3hYv>j8a_!af3ON4O+$=BGUMvS|OuSdlOPKdx zVNMpjOwRuYbmDh);B!`-Z014v)`uv64j_&)pHKHFx2~UoaIHZ)>Y(VI?^Q-f`Cnnl z!2@`U!;^6~3+gZ9tj+F*BcgMQ_N}Gh zxX=Rj4_((>^DeM|DZH4NW;#+#hsgLP#xF4bCH>v!>N-#wl;O_5rl9nyH?>x|%ceb! z=8SXIn@8U`Dmoj%I9PBtW-4oLbYAa#YyIMS+==@hfWD;c?agnw7u^ePV)3hsUaG0T zF>!t3t;xkn`1X!-m0}hkI-4cZco}!i+np&eD0R1iN+!*2NUeDsrQ#I?wnjWd9XTkiISsM#> zQOFIY1z?dg`ysg})R%T}pnD-a4z-H~qHnrhuDwr-bN zw?hy%_YLMcYG9f~b{%Rq*>$@PrY;c=4r^J zEZa9-DYgp~LQjJVRARRa>~_?JY7@2Gd?DSqBh|P=Y}_R^?#d?3mR~QjZ4%oiux;SL zWCv58Ho-&guCLUTnfk`}{O|hT>AH#9Bu`VuyXwY)>j&OCw0LOY5RBo~O}gl%`lk0f z-|c*7{Y@P5o@VHs8wal+eCz4Orx%_^^k!W&Xb^LKf{j8uD8p7ODz$aF`(nijXug?` z0z};OzqjGt4Pt$lR8QzGLP!D1*Do7k5-;yHk?H;|>__?bR2Y@lG+Xtu6iHc(JzwN@<~C}6GDR`g~8Yq2&i8z^wutQ(gN z6jWL)@vi{2~%Z(i&GYGbVwG7cn14}5m(7SKnk zpwelrT{ckAu)~V#N)5bhe9nliR2(V>B?5J~VYP94#=f{UzYdc4&K|N0sl2NRcS>popv7GCHRMkXmWvdL^c4?If) z%S_f5II=1LN{*P>82qOX-|uRaOZp9$PzkwN$F^mD>rZEg{8YqqbV5Q2Tx;wI!s;QTu)7 zA;-Wtp)wrj$mRNNbBu@!WkZSunSCl4Im-n%!j}|?W0PzRPEAh)Wz)=rY`XM>?1WDu zf}IrDYmqM{jvO5y2gyyg&%}tsUsI~M$p1HJME)xTyAkXJAlnbC#VZadzK;}Nbv`^5 zn~cF8FCGAUHrVgM2dhmZK+~xwWXAv{$TAWMUY2bmXUAgjX=`gAzOpxCNHN-LFhr8j zNTaY?KSUaxL!sgYXyL~#jpD7^JyKQYydvbn9l|uTKEVI=HM5@pAX$X91wQ}MCK)lc}ZYi`kv_N?%q^)uh`uub@zR-<;y4U z4N3jai_95`IU_J<3Nk?gYTFZQ_f|e{uECuKww(U%o2sId%W^l(=U~WFit1 z5tv9py1>r^V)q`Yd(Rh^FPVF_f7$$tX7SLd1i!t{-#;@g?wuBy3leidU@jD-)wdY) zm#$y9#DmXC@asJ-GS5rQ^8)jHUaHfdSw3gJsFR+2=KhhF#3x@8nX?jeR#1P1dk`B; z3nDVU01LHVWXxU8;9InlKewAmS|D}7Q@BgHYK)FR4iqyda`E*X8hz(tkRI~rLg_|y z!hF>fb>*eW#hQp2J7rVfPU)QKjz!NFiNQSThzgzpMog`qIQ1$MO_Q@=DQ@vmygl_h ztrwtQu9~k}uEO5}$gy5cor>C^=-Q2nyvY&-Nqy;w23i>d3UOEAZxDQMDvDZ^=-c&M zsIdP4RFoi4>Z!P@Tl~JQ2l6kh6||%S>Oe(F?O%@I%-PGf8+E-%g}vgU6kMCI%sFPE zyJn%k=WKKKIpzbHnIF^H3AyFQDuZg3=o61rLN@<7bLl1M@`v%GJp3UDf0X%Ils8Nm ze~?-0AT3eJmF4%4uDu8rgiygSSybrKrqPd{tir22t1%%;W{?>^f)CEttA>Q&_OvtjspM)r_WQBo_4G5f_QH%-H7X3j32oMFm#E_Ni8 z2oA_@uu%^VkS|Rue|Don{qQvL@;NOHib`@dp7&}9$eP2GV_;PU$NwKB_J1SzzX<*x zg1rD_2jm@?!N0o$=bo|gL_df~nA@Q8;nESn0i|CH;{Q3~+sBnQ01pV2HmDsw~@PB1GJ>&1A){AbR<4Aaxu$T<)+_QPiOFMx#*D%3V~UbPdI=vx>L{ zro4Nka!}UT9izsF7#PnFF2TLzS0p#6t<4pCG7XJyCvLtXHKR!Liq!kOP=98@zF=Qc z!*>exyBF*Q86G=DjFwMJ-qVm{$NF?fZ>pnL?C6s^`ZTJmwsp6Lq_&;uwr5jq&k_^s zpmaPewoOWH_<7Cw%K769&0r6{*erS0r9E3yo~?JePovVdBk66&Q`?S<+lHlW!=h(I z@{HU+85TX^dD{x;!zn=Ac2e4QQuLgXJg4qIcV6_I2Xr`IbW3bUn%$COw}9#Ki_+G^ z>8;08TaSxdho!B7L@Do!XGf%G1JbiG;n+0k znG2Hl0+^Gxcct6+q}un0?R%y6y-3Ew8PT~$aIRTu_upUNE4KI2Kor9su4v@{2aHO7 z2|-S!_;=_<@G=g^t>DnA6kXOaP$_DluMV||g+R#>^YJ(0Y1Q})ehnZH;8C*UaT(x0 zM^FO*?%!OA^S?lsEk1$s6l@h@@ONr#JQx$iBK!f2a>K{!6Ja#tfKSZAZ5+NEL-F%> z=kRWhO)(yTFY8C-GR55k7g^-;ta}Fj;0=$W9K=QMvuc71UqG;1$$g#!x4y zzl@<#(EpayB#<^^SS6^xC4IG_6$(R^EvKwTI1MWf7i?dXm|tt-`7*``!>mpI4SN}hZ;uVJg diff --git a/__pycache__/openmm_async_re.cpython-310.pyc b/__pycache__/openmm_async_re.cpython-310.pyc deleted file mode 100644 index 6d8439220d2f5c18b446578b8fc97d2e2b240034..0000000000000000000000000000000000000000 GIT binary patch literal 0 HcmV?d00001 literal 12720 zcmb_iS(6*rb?yy7W1WS=;UZavMbj2!X++YNoX9k#5jmvkXomF6FtlMQ2nO9V#1I>A zH@F~xm6&quEZ*YmQ7SX3vSMc6DsTA#dCW^H>DN3Yen=`+N*=;gtbE_;MgtfQDcKdE z`t-fG@7DL8d(L;x>2^M!(eRso`MX>HxTIFA!5d!mtV=F55M z+iDb|XH(IAI=auSYZo*p>7?G&oRpitYnEq`x1BWdX?GU+1ITBbEb>{&&mo_4^2q1i zIXpjze8HJQeoFH5j=83lroWH3)k=C$=%{+juWWW(HNW0&p~QCTH|rkKE6C_iv!v?X zY1Jyqt+CPg&p_s7T%H5sYGvKg%7&vm#+w=z%XBQ~~x}TWS{N!WIr5pnk8;3E>m8~eJZdMz0r<7J4BCso!daLeND#27V8|8Ky^;*>nvYub{-A+|in_f_e zp5AJ!>#p*GgV*bgcCFfItGeq|I#e}Jz7gcT>ZU7$Zq^%a$qX#d zZEOa)TD#e-wwww}gH*f2-SX~fY8Lak|N3*SP479c+N(F~&pOXtP*takSrpH@E#Fne zbE@6hXy1Nrt=(u=d&Naodv0;Pz5MJYtmX3ZL^_)CaL*SycT@^v%;WNMAO$@s|AL;; zdk3Q0*o=kYn$&dE8vdB(&d9DzBf(v9^j+)>cLS?!tn?1YgY6j{ub*nPx3=o7tsuSS z`mZAGsvyZSSKZUq6nc~;2+09tgG|L6)_ekak4!qP_YRIvHLfu+S;_(%mrV9sNMN$K zwsl;_t})Piwr}oOeQi6j3kh*mYgxL+{};eQJIP(7@GNysdp$WY`o@mUk{gc?d+F=D zkR^Va?H&ED@y)`(?3+6o#|V3KGz1?h*V1u0E(Qz$+9CR#vxy_FawF_N{DKxq=} zkm{$fCH6{r`ts_fb63u;U%a$ZSzBMayjCt;UR_zQoL^n~+?A!3vtKCZ*H=F~$||0U z-b<5pip{R)7dPBuwN=E%x?pe=HT-&~;TGGQ#l2%J^v+Cl`a`!bCDbv@BS_Tl)F^~n z9^{r6Bw8KS@&l{otL;)UFfo_FzV69C758@CFQSLT)`mXkxF)#;Ua7P1sALv8L;aLK;@K#5FXpkcloBbqGDaa_R zpX{f0A(x^y%gCE(yWCGnTiZ|UB>Q$h@tC%&57K_hF@3vlY^U!+f?>^agG@iod_QwU zo72M7Y3;_#Sjh}jFIG|{m$edPeYXjnhdozrFeNKjcPh26QczQJCQ4ZmJ|gQwX`~kL zk}3@nq#?A!!oX@){cF&SHi*Km1{gMf1l zTetOsK_0eEN$Yd^JY-<+$p;x>FLO<>0@;FcgpB+Sd4kKVP9Pz3xEC^_yx87JeHxYO zxI{JL=sY_%^n0({gf!;Bu{3@LncfsO9xMrFfpT;7uBP%=!FX#>mxP`}g~pPS)w`N0 zM!!`Te9`iXzUsQg`X0BM~%5k$A{awW3{va#%pq=m)tLiq2MXr#w zu&1-*d&*U)s)^}w7H2Qtew|4Ur5*uU)+I#ro@C+j0HB8tj&X43!{`s1tVW#rkS!bss5aQMj{YVf!iev_ZQP*bG9GA8eicbi znIY{hwvX!T|AJEa$r&jbfw6ER(6{%Tm>_eSlc!)i^G#F_jTfzVdi*r=DOhXmR<*M% z+_i98tV-_;62sPGNk|qdNp%VY>CZB~NOFiojx1kXy$T|OQlKX_LqGg(@8l0Xa49t! zO?`^}QVOUGAVIR)fk=0PDZnMCTXUVEG%1L@D<`;xURi)4l(>E+&|9I@qjU-M>w$hV z&>J%QGEA9Hqf%Etfk)+p2PhG(ro5I2$JxpQYxQN+_C5@f$wR2WYnzs7LA=utq2#23 zhHBQIFpU4TtlkG6`T8rR0$l;EYSV=)AX9-g?{phX=PH#O-D)FzBKEVQ>7$O5JV!z- zs6I|YZLH3daE-#%T4!n`OhnJtF-QP;63G(5CLOj!5H`HMJq6rssExk8Gc7Hl zNGR@Q)|s7|NO8O_Fu} zS>>Y~R1tCo)TYvz+V^ewma{uEgW3fhi}O@57n42_&T?8-&*K68~5#scgI_} z-E5q{X9TH;{}na-{X3D0r^AS+BX3&`B18pjcj&^XOzXv;^79v+PB{5M6v~nS>7Bz<^C5Z%hAJ zK6>p+tL;FJBt4gtS5LEIVoSBVozirOu*j@xhUFP7p5N|>e=UP0#Iz+H&kqhb6bH%h z9!k(-Y?J9az)IeQZizXF)Ip=hRsGB>WeB?ijT8EsT+KI?x1{I|eZ_(gAzj>#lQOe`e@b z&W8TBi!G@4@VwBX5}wDYgOAQv9t*evqRq!N_((M)O72KDSHXY8c=SbE4~ zV<$sB;bg&Px%+<`L%pl?Ps$>{vbeUivbek?7X5;M8<4Q*ySTyqNfr{pB&>}<|N0|wEMi-eS z-~ukOIqfkrGgx^J;J##q@+_E!_W(YtdbJS&*a+SK$4ez$5&J;mi2*MbyI96_6REF) z1lES@SI58|-%_oB{2MNhK7i0KWb3^r_8!?iusN-+u<=ilTqU8N2*m@Xfckk7b`9S~ zs8woiqcPMhvd}kJMW*n1q`r$wpG9{a=U zPEWwf#r5S0u|(HrES7!>5l$(-I#C^`3)>=ttHW~prtbqnti*e!bK6Yc?hrZhmb@zc4#M!FN4W}C9s(#a{ zBmT>vV=#pr0~D(1I&}a&gy^K&$zkGDkf=5~*Q$Zhy%rd^PKfj=TUVABKM&fh-YzGv zymI!^>Jsi7wYGvFSd?sHQF1xx&-JCsrSs?4me$LuZhLbRu3vQ#3{W}{A_=os?+l0Y zf=oO)2(|I4d4V0xEl!;Rf|J=HmeIY2;#((bZ5Jbis@2CJimVpm5&^AL!ol2F=r)er zj^UQjnH(f!ydWLVD9DXZNYTDl-y-=o$*+)nhonogkAqK6^MB!?$7v)X?kM?&9M5QaOF@;_8xw5QqJp941cTe7t)3GmC+7=@C2~Gy)6hQZag1Lh@koAyE&A3=?A%qcAR2+T=^DGK>Nk$4}N^V0jloY=t-e};H7OapJm5E=>>zKR4s5u)eH%+m319Y%a}m!2!cP5b1T z1k!fjq!;VDr9O-(DGcMofQ^q)f=Uo#j#iD`r`OC}QC~x!p&ql;k0TwJ?(I&H>^zmKDxkVp%r*od;>?JIL3ol6*-Z^ z$`jEc&Vfi&R)VquygLzR4ugAy%COJ~nG>+c42eGjTp@OBqRhsf)?gZU*nsekrDzAj zJC+hJSq^uc#R23jRtpj2ezu>3hbyt0gm2917r2%V021ndi0-* zpa6Dve#~Hy-3{ZP6UGn0e!RDTgUrzQ;U{p|<=*Xaa2QOR!W}YmFb!X3_PXI+=;xdQPS4f;bady5 z!#4>yP2`9Icwq*-knhhN!ueancZ`GC{w&Rf&=?C3)g$*g+{Zt_tE#t2WFK~z!otFi z(6rzG)uYW<5F4TG7H;i_p=fM!18QZFb)ID39`ru^*wY~o{8MB zV@>9UMdOXsJ=V@Os%py}viBZYNK~|8&gSy13bJXGkRVkdR0! z4vC}?5@AdEbZ9Ij0(cJFF$#&``2pC}PYm$c5YilFJb=RyMNS?ngOuh}m1*&RY%oP#F0fW22w@n4 z`!b3{1dLCFaR~6ea@atGeC*u{#)1#5@+_^@B;Jj+cym`}Y!iPmiq7FLLbBAsP9A{s<4g z#0gkP*xH<~Sn|+=q5cq0_b~tJqnKa)F&jL%xxL53(A2GKZtKDL)Vlf;HhW)t%;86S zto{@Y_uE?aXMFI;4OM^6D*Nov?_z<}U*O@yx^v)o-PK>R?S3o#*Ld(2JNPTsV6JqC zq2tXiKZ}EFj-pagP^b@(xFGmy7oS?Rn}QkD9E*=iaj5MBquCsO7QcW9dyoyw7rOXH zU980NynG-~iO|95yUh%OS&^h;s!h^YT@(xDv#b7Q|KiO=r1I_phn?PJ>)B z$p^zx@7Pp$G#ZSA5n}fT-wXJpJVk#v+aQIit3JWF+}dUawr5=_wzW39)j;UYU|2R@9g$svZ!Ewn9Sep6ohI2V1VUr7b2KtB;S2k{ z6e`;ylQiRkKttg1c%EL`5*`z_2)^myL~yfzOF!@PPoWu}-at4S;5~==$mB@m#+I{@ z(1dT=(?iL&^bAD?HlM^q4GieqnKow^PS@m39%IH$S7ahEsa@IrS0h3=32>WRvb!aF z-CS$ZIX^DiyCr*f%HEw`yDnjt><#HPYw2B^Zfc?Tnsj;7r)zhL9pvAm9AtZkvl z_;@fpE*Fglq9@=E@UoS{0{jC5UxAthD%-Q-w z)cQkWb+1(2i!M77_~UC3tLrE&FxJsuqN==(B1(CpSqI*^oudm?_sWNGeWd#0h9WMi zu72cJ_f3qul10ayei#j0*tU){a2L6->4xbdcij-)2^s>9p)}o z$Bi*#Qr&H8LOAks&eZ6pSWT+yV{W1i`d%8iD9u*p(e?~WL^mG0xVR~1N@_4hHWvp1 zls^uBA|;%@1j0>cxpmw&PB33LD&s?AWxyZB0H4T)>(lkUmuX)|fU-Tbi3N|34|o)` z;*hOEa6Ie_$=0*S`i~6`$u_*b$NC3lV?>axd|)E-W`Hk8)8wkDNk6tWP&&gnUWRW3 zo=}`zD)`ar^MgyH@wt{7YAlovTWy6?2^A8k~S<|ju=Hro(=~~UQ z*2Od!XvwUXY2krMZ|G4@`O`>y;+<+7D4axL0h7VIsey;ZWertGchnl)0*#%0b>)XqSnKkcko zbgo-)t`nVYlCv$vet(0kr8BPYjoqC{o)+yLlD#8k??7lt`E09H-kKa0T^l6V1}bCw zyf5u^eYgKR{i({WqH~+%+?H}~TQ(tvMKkajCH#UwF6@~uYWr6v6&f){AJz3(xSv^! zJw>LUZ?EpHGX0{;+*@b+MS}rQM;q0B|0f0e9_v?K=}C1bqjdGjM|}Eq8#ih9(ke>J zTlaaTnZIUfCVhUrFK&sMW2R~J-fzB2c#q?&fL)kN?Ow*=x9IZ%zgSkC*IJMlTt>`< z+AV(DJxkn*aZzz$QpJSYHh?d&>i2%!7PDc8+XrR$sWT@JpX(huc5={rcBt>vS-IrY znZY6Nku!a#&-D%VUX)!!XO8E*Jk8_uOZqgPi76rK83}lNVGr;`0CWdIp=fY26!1jG zJo$BWO&`z|`nB_STKElUhinRVACAiAaFoB&X_ZZAi)_CdxCuVS zFUTekN7>>H+z3YHqA2eR3zHEZ&X5nB=w+adPCLUitZ054%ICKe*g;??Rc8ke0S;;` z0=x%yX-W`?CJ+{)N1?7IUZuP<3Z9#;)1V@K)L!HjWB^dvvdY<^yO$QL+83(YQynje zRePnXy<*vmQrU|M>yo=-_VC?-#mcsY%C=N{w^+Gbs@yHQ_ekzN3CmJx`RvZS`xh%( z7b;qlUa?}ARIy7e?UqWr6XvwTJ=^`xfw|KQj;55O3E1nq$G>wtRdYdfUX+{{Q_hQN zN9k<)JNxH)795Q!N28kJyy(0jIWMG~7l7(&*QTrL)71?GD{Ge>*2>~#4j^G)c5~&` zcbgW=Iv2`1=Q|$m5zF>TW&0A=bZJ$>RmdjLQe|wy>u~7V1nmabFM5#Rnm7^f6_H3R zk9#t3Gqps(9vB9}8(A>X;{mxStg^Z_8A`+`kT)`xB}tt|h0vHOr9f3>=9F)Pd)lL! z$Q5ZB@sq+n0L*74ILdonVr8dP*-7Yj3j>M67~Vza`UU6u`AX5*B{{oN>_-S)NurFH zwx243O)&(EQ9>2U6EhH#raX*AQPFKSl-_z4McP+Op_ z!*A5oM~Fv7cQLCb#s+3dMM>J0#H=x!9uWZ*=GrlWcvGfLuf=S-Hrb=Z%x9h}G$!nc z*<%(u8tK^mca5Tj1IV zLkOI1Dco22JM%2k31$r6Z7yA2EtR(?qf+^%gzZU7=VHr_g_a#+%Py&9muPQFteG88 zJF4eeGx)BlEjb}I?M$3}0xY$0&M%d(OSSHj%DWS`bV<2X(lmEnD(Og=()Q9td))#K zf*r{nDo+N?=d4l7Dy^Q|xKP@bDs4+QH77SqOF)9gH;ggTC=_qsC=r^9_ z!gl4rMsDRu!emG0>GQ?erE?~LjS?0-QGP1m362rZags>`JQ)n{x$F}>!qn(!KoG{J zLZO=;2qD0UL<4@0&%-!|F1575BSR23*}T|Ury|kJSwmU-!~tL}N22*>4KFI_%@(OU zYv^J^$e*DH%XUjq9hUBUo8H|t7ZuBi%}?~EOUo1AO4l^ZPA!`__nI%4%?6~ZsGZ$4 zy9;c3y0jt@WgN!0YZ|zF#%9x~ij`3`x!GtB!tov*S@BjLEzbVhbitfiJs^j4IOF>P zz;Ees0)LvK&HxC&gB+V1h5u28(#KDiYgZQyuaCb$={o`P_Hnw-vskxbp>Bg%w@Iqo z^iD~lW_BHoPI2L4SG#=_<^0{dO-oPTVY!&FY#5Sf7#7o}Y5&ymmZdW_>*RauQ_Rpe5aL$8&P*iaT+}a^{GA+=V`>Ooz6k zILT?!fq~Jm2zrJBXEs-^#F&Gz3*9rPX#I5>eGf3GDpn%wG6gv(=s6#}K}RTma3T;U z5&33_U<40ao*?LZJpte7WgxiF)CA665YA+=pjsBBuSz05a$QNm$g4+)c+R~Vy!7go zOB5Qt98e0qNwsA$=@lI3JS@3dT(GNHbq_|+#^_~Vlx5E}7KI7HY2eyu1i42;Q+}Ka zLm?`bD#^0pz}tSMXhAJ+WJ)P1+dEBD1Wz~;rPf^cfs+Z3D_J*rB0Nfs2<(`diBgMG zs~STp)(fSS5%5D{l9y5wv*oFYLqVKnA>&eunF{*@W5IC1pQ9QDl25{ppA*^pp5Z-i z9LV^RCl1}j+d6^oJI0(mB!89ane;oxnP#jCgRUOJ1*{&Dr)6p}Q!Pksq11nkaQ5)8 z;MHlAja^%1!xb&ze_Fhc`bPxu!1O*XhNd7axwF@OlLKtkb?sv^f8hWe*(@68cTt5< z3vioDxwa|4Szm%zJq&e&h#W*3z6YSw#QVuTM1VSyQ3Kpo(C8RKrni0VCb4!<@n7EN zz+1UC=Rmrw9E7!GJDT)^UCGM(P2!rZ(weRCimq*vYg;ZQb14nBVtOf4n!&R+tM zt-eVx8h*JHCr1C&XuzMP5+%yP(L!qoVoznM$%b>XAE>*9YJA7|Y ztllV9Z^Y@-wHZQ0*JcP2U7HgI$Rb_tS<5@eXO2T8YUN7HK%`3C0AUDm7uM~5WO~%|Q|lw)@wT77 zDXu#rtvfPnm~FdjpQ{$#o|N0OY-9QDoVzSxXR|!mSwhONux}y&WmvHn`Yiuch}=%E z_u7;%q{J`<5>N6_eiMQH1c;)ulM7EwH2*3AS{}+m;mJkYkJY2BY!VXj1gh{)_$k0` z^>5i|wP4Arz-_P`rZYkgT5Bwj>#AUTxdn5ef(=Fs1P3axS6Xn+P{AgH#YKf>fVJ3C zxy-4c)?}%`sAfU2>SAHV&6cudt`I04qwb92pZa83)6csRMBGYNJDcTNo~@xxa5oIY zc3?28s(Be)bH$XJUcpl+HP`6z>{nC)55!ok6?}8do^%%!g8YT%oW-Mrf4Hi?Ry&&);VwN<^7G(T=POTFT0-+n*=Lj~8KN2p_NqT3)zYk6K7u2q$h$EW9&QGy<5_}_Tx zH?aO`m8)aB@|>)0hr~)_u2_lRpC6ql~ljE+44ylGCgy4lC z%o+HqCA;e#+l+0|Ub|qgooh&57wual`<9e_%af|QyO)x$h*cXC#cAdq7OS=-ik~=2 zCC8eSV;xfiG%h$BMdw<{xi;lo3zn^n}RoXl7N%U9WO1<`m^jc7?zarINnYGQ@NYm}=Cg!gA z-Qv`mouYe}q2RJs~vi1Jvhm{{UKCb`d zN^1CZX*eKOjY(Bwi6gA(YZsmE3(oc*#vUI2c;IpOCp&+&KQ(+cHF0B^YqMuTI)fd8ps zQ`W-Kp;!?e3qzKnP{rM-i%~YvR#+ZI`Fj*VYlhK4z5yUx9Et0(@Wp4p~pV`0YXjpJG%)Kr;Hc5_6DaTH%A4Tc@qUhWwIrpWU z`_c`bdjpFNn->~3&xgf^{ZhmJ#fIL6hTg}$V#86X;V3QAx^!KmRxA$NyOIR{3Kto1 z-fWT0vqk2Isyw%e$wnn^h-wy5%z!0<1&})j#f^Sbo_tuN+|_SlpqEQfA8V{mV&)u2 z?bo|@Id6FMPkP1dM>0V~@x#7vd~YuQb>gl(qmb+tv`208Q%9Siwvu0q zVVT~P;U+yE#-;*A59M^*EDTNd^peqzriWA^lg)R-skUyZdN)}gmZmDUKJ0mT{jpg(cq(=Jf^_g=YIs~ac=^*{L_8Qt zU7M1w#ZvKG(zUn1l=K)+6NkbZ&Jc?-WV}GWA)}XkZy0@wZ-jiKMqcp=P0#RT7D&Q|8YPu<(n&`#H{{v|R zIzE9tsjiy?Q@cLlNUv#1t=%TA*-pb!S_TWR-E%LB742ea2duhED^iuM;5xD_2gsj* z0{AF_DFSqgQK;M>k?UU&pvK6q%pqtr5DIy{Fb{tpp^N|?RM@HOl$5{^DT1V5U*1O3 zl)q(TvxOMgXTT!{tEG*knHk_#<(f>w=~l&-On|xGOzFM~D6&Rs%qae;5B3UsKBp6F zPSW^w?tx(1i*(Y)o}mF9<5rBK*+Pq&3)yWQHPtXvSZtJsJ#ZtZ>dw(WjYJG-R7wQ5 zN_*f|DUM!3ahRJmT>8t`kTPzF8_AF>4ja(8EpA61YBPISsy~Yt;Sf-)lknx4%0XVk zn0{TFJVPa;33VG}WdGh38(fZ5;;KdGAxNB69hr6Q6JCmvuGnWqrYsGqwOYe(% za%nSlFkP~4ex6^4Q(vmyw?ZARzePVv^rh;3n1fO(6YKVQq}dq zuVvJ(u*+ZmtT?n;orINTlCiuwG+^J({5k$TiMFX(b%$+ztAL*>262hUH!Q5bkEYmyp|s3bK>|l)aN~UD4PtViyOy^p>HQn5VZ4Cy03(P?)X( zTo{G#Rd8E~d(}8bzH#GK@{JoKy@t7~UXOP;o5-~;D<=d5Y==pENm`^NcWVtcpL z-i?4k(YLtlnv*T>AG>$#)Akp|h8Gcd_)gKvfo&V+cYW~M{nvidF1GDK!U56UvedLL zdHDXoV(YGj)?E+B#Mb>%>wdB6fYfy0)1Gr;(>bI&a>qfPf#`IxefL89?nid9y+>;A z5j}?_&!JEIE{dLuNJgDR3y1DsT5RiHXzPA>U2JkT#wW+Xkezflp8Q#Ww$J?_ANH!P&tlZRe$=rl@sSZ!>;EtD(Q`#q zdHls!2*C2Vj8%!(@=9N|08HiQ*zH~|NB2CDTOOaY>KfHLSdA**2paXg8uPfMRoAH2 z!D>{wPUfS72YZ-L)h9C_Y4CG#D%D>_OY?ZMRku`a+bZhF%s5sS z3iE%6jC_*72LQ4Y*Hin>4D=m7)-%*67acx!rjOlv%a#Y`NhuG^Q_qQ0M|))BxvjG8 z{MO!+eMgQ!rAY!FCLPX`EA#g$;@=avM<7MuKM)WJED-pQ1SA5V5+Gh;mC|R%W#pvK z`0xWPt{Ic@mD1;nqN77{bfg?xROxfK=-e$icc+}YaZmMbe6eQzLe2X5IYYs>?2Ow#7e#5eCDEpK<^!4e+=6jbG8@m=7yXJ3+jR&O01B;D^7a9*g zJ}WjJlNyha?7M!sn4`P*Go|VJrhA(g>o+dcZ=8QwtluNm?^&!ruuy;Cks#LhO7(Ol zy>!{m)j_c{<4V^yuvc|GUJlT6yzJRP+|_U`)^;w`cFuQ-wL7KSor|@57i#xD+9B4y zB-Or@DPR?eAZeRetnOH-CY5IOR;haHVs-aIb@xL-tbS3drY{3fA{U1kH)2$3uZekvo?}Igh)N%`ZKt;$&qE_p2JBwW zQ!xL>1eiYIY`#9>1Uu+@l-IV*d%LHHPP?9Smp$i|v*h#D4hOVqhwiQ&W2AW~gwRDO z8i@?t1@#3~6~+9YQX3x=_!)tp6Udz<`^Y;_-~oYuLf|8S!A|FM^bxs}?~f?cj|r?N z@FxWRDL{dYnPj^KCsVD0VLK5Gy7&291%rPD1;aHPDHyKVo~2+IN?o{^dUYh_zbyHq zsi~OcR}Q)TbUY0hj?&TfxN(qt$Fqmr5ydx3aem{3;tT5zxd%;%>oFZQA>X9&82OHy z&MLkk^1Xr&DX9wy5hTG!m<3OY0!)l^DB5E?v#1RjC`leZ;;Pt zzO49yzWP4rldCB*NEu#1)$#=nU&4wB(8FXPzziCyCdiued zB!-F6BH9QWSth~x5rGmvyI<)m0?BR zgUi6in1RZHq6b(W1+YN)MHJj!GV*QSvL_faq*!a(4AIHQx*t7J)AgYwqZ;G}JctU-M zD6lCULo2?S%XT__9o<6L>gy~}plj<_8=@x{><&AW9=IcJ%8@mwKx{hmgCh7f>;nvJ zZGMfx0Ss(yI)hs${2KNl?t%@Ax@^>@z=2!g#W6?B34>D0hgjwx(NbqmyaeVBCCU<1 zME@vL(?&8fU_x)3U&924 zZCnyhwd|nF=cdG5DDe%#~K zEq)vP+Qn~&U&Bws9^If@{J1lzE8hXXhHs`Dk~&*&7yOzfjg4URYk1jsDf}8fHSUHz zwnMSp7o0Jtza)dj*T>wdy9FB%qf+>QUf6)`X&aX0ZNM^YKv%4c=mcT*v-lukygXKp zjpbI<{0e&i%8jIK6w=G{|D6EaJhX4v*BHj(_`|#P6NhlQt&9TM-lZZPEdo-W2TQ*0v-MNNZs#0ZP}HT)UuH7*=^%`Y-y3{)Fu8la|KU08X5-_2vGRmec>*S&6*Y5J$*T7o#flDWX&k#7 zniD6|6=a`XNE>NkGTKPUU-Q)k<@VQk1Zpo{vdd!H>x~MPf9}^fZqj%Y>j2)JJ_?cf z?!sVaalXaJ+eoCyr|3Yy7Nv3}jiyz(tM&@HY6w&l_%~Sq=8+R_0o+#qmW|b9oS}lP z>*$)A3XU7}rW_kAmO5PE%Yt$@T`E&SYn8>b%&DNuL>JNufzmW;)hPa{PnIG0ya_=o z-z-be4KjSV0C!%qU$&$hWIczD=&z8`QIySD7?7^&YFR`*kMRt|L!bCWgL0;mdS$|I z*%dM}%v5=o{|i^hta(?+=yFeXdP$5z3!Oc1t49fK8}qJ^+5Qe!$ZRWKA+sgj**0k3 z?6MuL9QJ6xcC^B3D9)yPhG{^a+6C8)@~)7f$AqZa19RIq;<~RNAyzwP>ij+DA|aW* zmS;;{xnZ zg}XiM!)knt!s$X)XC?n_a?_SoWG1AaV4`z&Z%MiQL_2)N+fN`}{O?f)#^)X+R}X;p z$`d6a1G1H_Jn{bk5f3t7LaL-hRRn&Yz;_AE5*Q-D80CLNt~&(Y2gtJ^xUHaD>WTiG zhsLWni{2tc{{-O6-@whHj%4(H{GtEjiO0jwyjj%sN$amRr$#TQgzJ)UE7kOt*z}gv z^cG3u*ZkJrEXrObG8UbMbctZ%@KRMva_9a14_iOpj5|NWsf(ASi+-^xAXNpv;?B?5 zmDHQl;HZumkCV9S2+TI%TYrY#@;O66iraOT+<=J9K})Uy{P(dA9$50pH(TeAXa)Ui zT0vL{T*e^tDFqU^g}~2y;J^~e{w*8VSg5YA2Ng<7Wqw1H_RQ}nEe7)|E^Gge(qeod z?9E-){vD-dBf`{2IePw^p|sNt%I)OqmjmI#E6PLs|3Xt%M{sGQ=LjzUzmahzI?Hpw zRbNeAc>|KHl2THwDy94Z<@>FslrOIG4(^NU9o!d0_g=}pHIpKBRiDvt||QI3CjPZP|d!LDsyJ8 z;FG+MU9V7%-;B7k-slhKPwo4ZZ_*s#>1q&u_*O6=zSUzeq`9_~{+H&~ru4rwS9F{G zX&kQG>@UqZZnM8MS8|*ErMXPh6Rska{iV6uRQ8wVDpT2CnyX7?e^0o^l>V3IT2tAd zzJ!_-m-(f$4umY52aN`NXl7+NTl*P{`9d52hWUiS0O7>SaCZ1J7W0KR{&nL~+-YCt pR)&;?V!qJE51AVb#96HjXTzVdm@l;P`&Le?l(AwCO>VY;{|}+`rRo3x diff --git a/__pycache__/transport.cpython-310.pyc b/__pycache__/transport.cpython-310.pyc deleted file mode 100644 index 5be8b4ea09b5c8c1893b2646da7fdb06ec778a46..0000000000000000000000000000000000000000 GIT binary patch literal 0 HcmV?d00001 literal 743 zcmZ`$v2NQi5G5tqk{vq@jLwBu1C6y8Md82>9v*pnw)aF=>?sEvlppG+LVviH8pP zC9au*j@df(PO@DWXb-r@JM#GW?x_3yE&;ok{K$U7`h>};1&~a@?OOm&I8`KRR+`W{ z_Y!(dxX1l_!hPX?_mhCr1sMg;aD&X3h^H1pG6A>m00cpn#1sBHcxZ|CI(&#~?1=7; za=P<&l zhF4e?U)|{0<)=dAv)Ny9d5}0R?p(x}%w@?K&fvuZ2xv7pb}>F2|5v*4Q6%bbq=YQz&U_R=jj6B^4#$1=Njpkd0agVXD+f?mO!u=>+8)qpq*Ih{^ zrcLZ=3(utG7Zz>% diff --git a/__pycache__/transport.cpython-311.pyc b/__pycache__/transport.cpython-311.pyc deleted file mode 100644 index 9f1b07e08f44b49f09005b252c69b318b4e90990..0000000000000000000000000000000000000000 GIT binary patch literal 0 HcmV?d00001 literal 1070 zcmah{y^9k;6ragXHs4VKc3wyuj?03La){?~!K)IB90+@XWs}{k8z#GPb_1F!MT#r! zPDJn;qo;zF{uzk`4BJ|XO(a%VId4Cr(F5ORe)GO&-tWE4>s&64xLm#a%J|OruV6$H z50%v}S5A?JG)$2k>{!OW9g}ek9U?6@Mw*}t69J)jd<7yC4L4Akd;_!I4!!=C2#wW8 zuACwr!F_T}7rG=$JB#W^4u99hZgdu%B{xE$v5}FwG$TF1oF`v_Xm}FiHeZ2kMzPpT7`P^NBx)OmX&IHaZFSn~tNDeX!$?*l2N+`mo#XmB z2ah;9?KqH7x_BU29Y=E1q1iKcH0hA3+CX*n(t&QdIxAI~-EY~CrG`y=>aesAY100Y zUE8_e*R5J@Lw6%`mHrbisVJspx{5L^tVvfQAI#DL7@Xg+}A7#v3H zZ$UES`WLeGnQT34y)a(V=k(2u_cuT6z1{nCYqnjTZ&#=H+PbvunVjz`@J^`GR<#qTTB1Z8zY#$^9aEJDAoTcAX!E2js{c imIB6jfl?#?TcG0fvfq*\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n\n", - "smiles": "[H][c]1[n][c]([N]([H])[C](=[O])[C]2([H])[C]([H])([H])[C]2([H])[H])[c]([H])[c]([N]([H])[C](=[O])[c]2[c]([Cl])[c]([H])[c]([H])[c]([H])[c]2[Cl])[c]1[H]" - }, - "2": { - "ffxml": "\n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n \n\n", - "smiles": "[H][c]1[n][c]([N]([H])[C](=[O])[C@@]2([H])[C]([H])([H])[C@@]2([H])[F])[c]([H])[c]([N]([H])[C](=[O])[c]2[c]([Cl])[c]([H])[c]([H])[c]([H])[c]2[Cl])[c]1[H]" - } - } -} \ No newline at end of file diff --git a/utils/__pycache__/AtomUtils.cpython-310.pyc b/utils/__pycache__/AtomUtils.cpython-310.pyc deleted file mode 100644 index c12d82393e18dde30a6becc7fc0f60b7bffb8587..0000000000000000000000000000000000000000 GIT binary patch literal 0 HcmV?d00001 literal 29383 zcmchAd2k%rdEa!;fx%z^3=RSyxy$Y4E_X2?Zg6)caxW~o+`}YyEmA9M{vMpRIE5sB^8$wA99?;_8)N$C$7Z*btR6g$BMh2sebSEyT9)p-+SNpz1Q{r{!9$N-1Fa9|Jk39#r_LlqQ3-Q zp2uTXVVE&ftHuh-)(V=u>xDRMy_(oc7E&6+;?|l-}eqmj9toWUeC3%WmoDoI8*gTxwf?h zmo`;mc=XqUm*?@==d@U?9Ao_ox~ZXlb7tI3d_gNDP%cU?Cr4xDl-V;9JIXqwMq}$S zGyQdquC=7pLM!y#Q`|l?i+s~&zd3-K_nL!d4tB;IGKXRJnIq;X?5ugn9E06&j++y( z2h79f5!i#~QS$-VIrBmD80;bQA=7|8+_h}fTGc&L+m!jRc^owu=}oG?Id48Ef6&P}L(Sw(?WT51vtDk-_J^B@sm0#<2)mqgyHxR2 z^d13%;GVV0MF+4IYlQq_*(nO}f)S&>x>+tcvzajV>qV=$Rd&!_L$8_e7kb&dwo~3R zP8*lS5&E;dD;s6wHT3a|7yVGfsT=6@7HVN^H|n)8_F83U#VuR)l?$&nSgd{8SgqHq zVK{U9#75cKC|k?}(TyV7(l)MFoDG91jSH_DlC-_XVGbWFJKI+604QPj^6hcbLdhjh zo3((^*gG`b{@JNZ_1bE^W|qy_sr-nSQrPhN&t5!x@m$4r1i#+U*^A4y^=cXT@KNp! z`d+VZR8*YM!}dMKuheCtC{{mKwjHZjsrk9Z;qo%|tu22hv2@hMOWFYVAI{RrY#H^{qywTK0O^%PL>nOKugN(uNmDX|AOhZfbFQ{#&)G${vQ?Qe=U%dk z<~F;+*>VlBjdNDLv0C4myIiks65BB}h|A!_q+%YfA~ zN*w;dkMlGinGTM@;b7?9)U+4|q=u7gW7#y@qfX|Hifx!-3A4t> z?eZP7&FfyWVX<=^xqa#R9_t8z^m5h8`bueQ1w+oMl&WRh8?s6br`;=Yb*;4JC7pT| zR;s?XW|ti=Zk2864$2_Pydf0WUj0RQ+oa~{bQ%qqcrT&5M_WyGAbwk$3?W_ECXZpL zI+&zyVsgHku+y)`KCj_j_uq4TH+8m-8GkCamogK3J(z4YGqD}BUUBsOxS4FGZt0xf z>5tH!{e+p~R4cBY(3K8dy`d{Zm#OWgkv6%XYD(;ylps0v+=?NrXFuJx-Pi0hwZpN!EbKnm{jig;2byV98;`;48;`B)dxOp1 zW~P~K_BRLClY2Ro)YlwzvYY+Q9LxbT`?h{dXSwK`{l&+zL<+kX`V=~%u~scQGplt6 z^R4mLcG1M_T`3ujx`R<$DOL@%r<$HPGhZ#28wRFndCp!m>TBXcZz!+6#C=aMKrpz3&4zWt!%CD&Y1wWSSyu3 zy=ZJ>_HD<7&^Dt~uQ86Gi&*K>i$X-pWYJMlP(+skt^idQiw{s7?X6+Y40Bg=5V8*% zX(lepMT-s4V%19t?%9hoXyP#E;u?vay}gQ2gE=2P zQ`M@~H`(N`IGn$O&K?e{j=W?91<6Aw@3z)qg;ho&6#g<;EdogV15elYbm8fWXC8T7vL41PZ#_oiaTs2LnTfe8rfZP|d{gt1Cf73gK`&k{ z*Q{Q~)wj01@w3}DrZl#yRj-&YU=^oUVk3b5^|D2eaBh$VkC#S>ij&2v>C*PrOICfm zVT->wz2U2sYJIbgvAcq0?h1zymP5r_T^7<_4>DlBo?dHs$)aTycfFKZ-(Ibj^Fu;d ztw#ya2^t}2)+FnkDDN~Z>j5|my|wMFbt$?K2l@*MqFjK!W}RfxX&N(3l~VD%6bLnz z)g6S_dIWJ^z+<0=k$W&FE2M<1ky0>&e*$Z!l&qaHT24!c{~Y`$w1nn9+D4jhvvO(M zM#WJe_v5l|8i2#pHo2A3P5o^hv?zYbec?uJkNu^L+0dDk{&iz#54~WmTCZD^aOVxY z&CfoOpEgS6N>#k3Bf)vBX|$TB?VuZ^uoT4t7pplgV60^t1ib?#UTy`Lt(h+Z+hvtBqmVH1cweA>a<;-+>E z+re9)*?U-3Y$k#=quKLz!c4qD!iGjwS71bO5+|_6sb4CF!4=h`G}dL|wOvjTSm*pRU$R z#j5@6Y?$;NCUeJbTxWBuCca_qO|kjU82N;!U6+>fG)o|SHx6$%j^Ml|9&RsNehz8S z;HputAV=(0QdpW`hV=%EcBxWXsn)NTty0l0dx_0@1=|zAx?Z-k9CaSyZSja|BTmD{D;UEIs}cyYw_^qmDy-^JtN*;#}e zkGp8GxO`ec{VBMupQQ07jZf29q460SMH&LX7y|#m3i56>?UxZnM#_ZdPDH?Ni&WyY z9Q*>PWt=<<-+LM-Ju*&uf{}vp0sfcZCXF4sX`M$#w;cr5O9-`Irtu1m3pAujL%6Kh z;rCVg|2PbHCISkVIM-Sbcj?U5$C&1g8#~*6Z=SnhvLD~rRUW(OsLI1t9&YFXZ=XD( zJEK|mPTtsMlfrh{oao*?Rtedo3AfRNc-(D&XzY5Ln@?JAu-2cT@e?#YNrT-xXk(Ke zWg2TVq>r!DwLybn%UJ{-x((p%jA0BqQ?~#@r?B&gL z6Kt}#dsR<==7xzWpR)q`^$e^9!KJw?p6u-KM8_wBO;*8Yag14O#dKezJ zbeB0Hinltk)u8bfjSfV0pz#3SN><&rTZ8MbBMY09RM$rJ)DPQm))BSDP8IxeaAfhs z@z~!1F(mI4oByP>C>wiSTp+>NChOy1=fj3uY`Dcv`gY2DLxM7~1d)C`ZwT`3P-5sZw662j7l7c=2ls+xJbOz7f;{fGys4 zZhtq-Eq-nB{ww#3L3W)q=Hm#+_gdu9S;I8Ck*rk)RA|&-kB#Gb`a|DYx@PJ$eov^jau z=HR>c$!*{+liT23Cb!&OCbuETA%n?pxXa`>4EbabKH4RG1aiwDe5_0ODCC(z_(YfR zLy&U@;YYfJk3s$!gg?+Fd>nGoApBUD@CnFEgK(ou_+j(mO-%01iRNMR_}lTlBh4e6 zx|W*nhQ%l2;;EiLi0ouW=F|P(}4x}fP?{4G*8g%lICFD z1|<#66HS;MX$WCQuJGwd1D_$uh2{ymJ0N5(9q_=11olxePl$OS-;P`|2h%8GsmN@X z*d6t3C$Md8z`Q$PX!eO@L5Q-DWArYNr}THEk` zSIeu}`8;0kn|A#gOOw4?lpY5q-klx`dARRd{CZFeAvE`$-M546K;D<`JGb9x09@Yxqlw!7T@{+F!x(wc6w>& zzMJ*8Bf0I~cW%EEQ2UiuA47+Pm}*T5p()P1`qeRa$^&^ zpT+uHKMbjbIV$Fen1>F>oc>M7;ki{^kHbA^jzP+vgp{3p`tjm_*JH6|6XI~lv3(t% zb}2fghDzQR(Z{0Ht|hOdnDMTnc_kw^jn&;yHdutDgxWR`lZfJ5Ae)_rRv6{#zBsj0 zs<~0Ljm1XAfK;neH!CH`fFo54G!9T-XHdc9F`$KZ=s zkQ7wQDT3jP7l~M8#Nxb)QH;jGi^SMsjIDWhhIwp7V{BDS#u4ioV-g8YBH#SnB0S$6 zkdjg2;uHqLnRk0&K4Y9%^Yp8DP^`W>uY}UVi;819v}R#|dr^SpB_Ms=@bpH-;=bNm zpx^L8gnDDZDCEyRlEa}TB53OrQw=ETvme8@o}yvkyFEVB=C|Dnm2T^g%FS=80 z@edH)COQ&h2}qg8ARZfo9C<*?=vlDEm86+2%9(TU%YrOH>8o9`e4ETmhmdjbI}Qh1 zKfGX z522JHLfL#sU?ZFlHjj0{Dezc7Xl6Ugf`(dH7Tl4t+A$6GHp;%YvJ_5_`ZzTpSrS~@ zqs_t4HSFW}`#ye$eLRl%_UIk)J1qD$n#TT!k6*eJe(6&9^~<&Pn!O!RXPSK>)Nn_j z?(s29Xvh8j_K=V1hf&_B!gTZD^@QK24&vH}()u=Z{@PnM*BlDVg*#Gi_m)*yzt?gD zoc_P&a7Vc#&C#%2xFh9uZ)MFS9`3bV)!v30tIeZLV=XS?0qbj+5ZqTf$WTaxsI$~Y zhJuh8GYBFXGBMvQ-mcdnS9%( z9%fOIMkucJ5xPD~qn*sQD7E!B82UG1csZ5NG6hnyaPmeKofn@LmEUJ%Dw>JEMJa^! zw`tshkw2~kAwyJ0#p0}`eq9(A9np3_=wDmQg}AjmUr1UIJyZ+Ht8322G8D!(;Fp5w zdp76^1D-I$m@hEq3lj5%FeW@3;t4bKJWJ2BlKd<^dsm_6CW{EHc(62TEXa_t{vJX3 zCX7NxR>=}YEiJ2l$GWDZdR!}JT6+vR-rXmQMUXog zkqzAuxHbivK>(S?qZT_@b2c?=6eoyATZrD+R@3J{J6CiHbj+;r} zPSF;nclh4YMQxoMY^B?a-p#Bzpq5DHpwud(5}TeS5;U5Bv5J+5+=Yfw>=S1j5`eu=E2eETOP@?+3H78k%xS;VuH7p}_W zDm+%|8IGRq@B&<3=%Z zK7#o58)iC0XB7Xe^5RT!LE&vNT6r4<2JOpe-LnnaJHotLjwtW@%Kd1g4yYP-MPPyr z2m*+}8Kp=IwdsVcQ7zVZ(sBuvompL!`ig62bt!}_THoVVy;?mUpf!RBo=T8Tx&^*n zw*xWu?iRGmt%{32D#s!H&gAoK!qUn+r43Y6PD&^w8`a`!nTO33IwLp<*CVZ7-G!mY zT-ui*;8g|ZQkGEhj?*B)p$m3~4klk~)X7+q{<2oFaKuJcHG~4Ms~=LCe&gF^@I=kd za<8u807s*f8Ta9wfw?MUsDtmPit55ue7Rg%-w4mvEX+g(VT)bd8n~Q)TB9+H5hD01 zyLh*gKKEF(jFd3j$k+-B4#Wxms0pKnHBjeSP=}zu{8=2*X`cy=`#Pl4k=KuQNN3q_ zwi}o)(JTEEIOoZ*_m4cY1*Jn4OJzZAH^M zMxi@y;CPP|!xKI{!DPS1O{@Em&3sb3qO=A-dRz1)J5#A&40-f=U8mU?&eE z5_6^x&OM!ZcM!3eGd+NjGw-rCJTSFmE}}N9pwyYQ2|T3Ytc~x%+JtAUkj}4-vJtCQ z8_D<-YqP}K&0C%cA0Wv^GlIwHV39`KG;sqd!+m!(Kq3ejGK)$X(R+dXk zfy@{?CNoBrmm(lDU^fyFg3JIn5)c7-iM@{5ML=GPfV>m|d5Hx-L6A=oLKcMr>4Bbe z#?7$^6hsen8~`@Z-l^ZA;Fv-OyYgMQ@cYhl`F>%yc$qhf)$Q_&mQ}YD>m@j$hnos` zBCExM;f7ZvA&ME(jSoYSh?02>Dw)Ud!NrP4zmCO(^^cfPlr(;uu1Ojc;Nuz;(ti-K zQrY53m5wRN%Lvhya7a*WB|+)rTkxR!GD@v+&X)Ono2-hjBfs>?2{0OXLjnI;NI+Wb z2<117dka!fM1}n1J^T}CKduT5OqKGOHp*D>?s0;+2W^#l3``9Dy$L<>!?Aea%EUVk z;J3q3qQ-sj8-s&d_~1tXIJ9|-8*v*EjJ}rzN20&kFB}QlN2m+TZl2 zID|IEA+#wDp-piJZ7L7+L%gFyyz?KF>MRcSUzI)WAolorc(6Zf=Dw^qvpC$ZR0il$ zDg$(l$Uavc;?L6UAL7p<1rG5`O74MkhjFM5+=8rd3!oSfzG-b?qBJ03IOq><$$&%g zPr}I_MT)&ar{B!+;s`Ly;d4{p%Q=X#IY>V+&6VE}?toz`2pPmiy(eNfwY}jl>NsM^ zYkJbokU6MMAnf5J0PctxaYi;rn*-4MABJFNWb=?Y?sHf4y-{<5ID^W@7%%lPk3wbR z0a3#Ud~vmp_&(I;YvAG@#yuYK9p}|O<_YsLUeROb%_;fgVjgqmR=+tLi8&%U_+mP zVD0zOD-OdQgZsMli|74*ahM^%O76?C=4jY2=vtPRqw586seUm^xAY67LJIZ^ri}Ir z^%nFC^>)_pC46i367?3uOyN3+ta;W~OBtXzPW265>L8*y^ohM8IeT)>Z~5oLmLH9@ zJj6W*TK>=n+VU?RY;*Ix`I7naftJ75c9j;z)mP{t(RM{oolrUZEq@?J*OtctGqk*J z{T|x)h_t+JIc+Tu)#}Y7dxy~S8br6jj6j!adAg!4FJfD1d89%LwmeftTVA~d?a8-R zTdTMBu%K7;cC@?_8M3u=OD>wzb@J0h~ph}>ZSCI)uZoBk~~icis<%dPIX0rMi< z4=M(bY+8exK2)LW+f`g365jeDF@kCY*M5Y#sOvw%*DKgSMFI6U|2{xn_$VQOxR)W! zCE!hU#xLR;9}8D)K_Mf;CKQGuFRv0#W0(o|a$&WD9Kmf|nl@@^f>M2^3I=2mDqF4n znW$8^>M?17!)SrSXo16M@-`E2@_e2pa;MS}FFEiTm+Rm&)(mws0QQ$*MHK7B$3#%0 zS*-lQA`~VlSf~nZ>u66uo&eS2)-eJ%igG81wK&s})}1NtKy|Gxt#lux3+rJm&8U>Z zMQba2$2F8^GzV1iGVY2(XQ=MB*F<65kL$NBijN}s08)*~>Ow1*Dv(;eC#1@S41_E| zV+ap%;ujuVtP&X|R}@OaAt%hlNFB>KwQdwGUUgH)6;2WUX;=VmNZ^999j^hB@6e?M zJz*|Bnu3Nmu5b8kT5=;LDp-Z6hYj^0-dP3qCA0}~)mY>rHw-EE4STz^f%-yI5ADyv zT7`wAxJGCL_%WdQg@3*S3&4{@UL={R?X5%%9%QnzGs)#TAqb4usx6r!C=6L0Os_ha zRBdslx)A1IRscVzKD(oGP>O0*jroNfmPm_W{IzvmX!VK!<=1e1`I z6|{IK#9#!5jd6R3ImSbfkf0r60e7albO2&z=dcdlcqfeb;e>=3WE2_^(uje!pMLe5x=viUdPU>9eUi|E1%{Nif;TG>#NjaJRj zA*K!CcA|s*S?c1Vb|GNEB8ChqfI-JuU#5T-2e?Cx*B0p$Djufi000ceMiCGeqw2k! zKA`a%!Pz|v1$YabqAo3QKp+-S?I-gCREj@kd}@Ar0kWb`Ez($e(|9wi8dy%oi);jc zc2n~iK$WcgK@DkKFy(fN6oPqAX3Z7_Y|CE}0)G$$x~{5|Vaih7PUZ;EVsw{?jE=SA zFSwe^r>6G+@Tuu12H~V73;dqo8e?K;m{1|31^&pP`|!oJ)qmtAskWJAH4ePTx7+BRJXsSEL>K1 z6dVre5EJZgfGWh%{K*+X4zh1u3i%=Hy-OvD$&em~)q~IbY9`sc37^6zb?7!9qOPMS5Bb#Y4T;J#E~UDc>j1pG|EhS9B}3h@c{#z z(ZB+SMWsyZAA=2Q{R)j=rSWStew~IK@%#35>k?`pM%RwFguv2 zlU!}r^?cq4Vt#KF#yYS0O6}o_uckI0`x*T$T&fn~MqfY_Ts%HN1%Dz@kuMeD7)#4M zO)|?{f}h>Qai#C!iH*kGrGX!vcIMH^xSbhe=N?-22;Xg2Hj;lK$?yF!=}(8zT^6;$ebAy1t1dgD8Z4D3aV}N~YTo*Y+$7##)D9}lMlr8KZO9_^9l1t}vL01VQ3lDqZ4Dd2AHX-4sj8vU0f`SQ zjmkCZHWuc=F7u6YX(`WVzq5IQd;m+r=Izu29XTcHX0L00i>D_5}dS`xmcYfNP&;Q67 z`xhI}?C{*`$;sWBUFC3RkSm%E7Yg7c#4a8e&ss^&LC8|Bb#^G9Rpe97o{Xq7BQN4w zbE{UY3TnJ@;0DJ-G2-MvbU5-N)KwHBNLal-M)qTNoKk_>#SuiYz7C_1QX|Ov4t;n$ z11b#uN$)}yeV!u@i|$g{(;C))Vx&K$@t+wpzE)b0D~J~&YZD=8IhJ0xKNegNZ~rPL zEc-De%1uCt0c0klopSTsHg!IjmxHLe6#y^OFdXIU{xLRp6$}Pq;aEo>9R`K2^y^GP-2zVAMj|-6x z&j?Ayt2}#)51p~X>WmoT9+83haZhW*1UI`ov+X%*uC&-q1T7}!mAzgi**gP>FJbQZq)ppZCcVrDkIWjMfuo75OmO8|{A$9Qr9BaY z{td3)p1@uhi?tLl^lsu)RG1^M%N~u5^Rx^<{L<4*$muDG%TIDJh59tdQMql@zqC7k z$zRw0@8^6+?0MW_eHvxsYb?C38h0gfp7yluLSma6BYk_-(~5=owp}Xd>+p54cPS)k zHaalm_1pC|=PVAzfnqo>rsBZW05ap=VHE$Y_5i2Z@z$okEq-3RlJC3J`sEMv8#^_$ z|H_J&S;6)8{6-es*_9P60;+yU&kC-EF0HIs53$~(yb>Q$D+=3Nm*S_vHpS|vzGY1z zlH5ZtH*m{U36X1jWKSn|`Rp;C?DKw+u3x6{uW0;78sCNC9f}lXhh<4OvHmY(aq|^1 zNTe)kB$8U#7ht4;noJ_`D7QbLOMjXe3S8-D((!Z;o)rGc^l$lAPN%^DKs4OuE9 z+Mm!RyAB5*1lv#g1G5;!6lCAaltvJ-yVpKwt8?|{mPx=O-{-{owM?v#^)VojMnRudFao+cIm~HQ?I|W^5W~4=cm-rZdi45&N}0cM#Hc$ zyK#DL?~IpeMZ!m|I7@pyep&0MzcT+vU)_E2S<3+Otp5Q6>!ovabG>AJi-vF-J_(nX zQ}fu1JN%>!CA!`ie8Sh(Os4n`i8b;W{+M}?&)|(=TI&)ypW$33WT}viLLkfluSY@_ zPRXoh@k%G_muUPcjUUkXA&pi~l$BD(E_3#C$_u9kIY{Z5KyQLV=zGBmDTe`T$gstv zrde2Jv|pTubfR!6y^Es?U)IyUjvfYEhYdwXd_qpUg}%mXkFUin+*p7`N&;=0yp-=R z#9x2yN+EvvwR45|*$c~V{L=DCSO2k-F5YHb{rrrlpI!F!i!Z^x;OUo^J?+Ol?L2PT zkH7rd%UWfdP_71q)fU3J&ww z46+N^>qRGg>%`D7qE*c8@=C>CvFlYRusFwvDUK;JKzNcDSQ!RZaN)`u@U>or;U&o( z+f{2{Vo1K0X7Si8$WLXgP1bVO-ez)QhhEz|OmEyx_oQc->7-ZLO?IoeENw{`bH4{`bG%FD%U0;jtciYy3ZXU8nn>=_CGR z#|)p`gyA(Er{nZq-4*$*zoKW~hAT$A4c@HD>?=8Xax;2!C$p}Ym^sUvH$-+>-u&3R zU`S`s9n*2yU)6CrZu8qlo$g)y%g>cUF88atD@B|M(8B32=p1>!CZ|D%KAL;e%?CVw zAB;KvDYtKO5+;4iXe=yy<;Fff8Prpb-8#zU6$7V7E;n(;uj;R4arBq%&JLk;?i?;B zWYXzE1v=!&okMoxIxhFSdf7adjhyJO?^oh4%jFC+_cxtd<~5%4UFbNb?fN+lP&`_QCJ_=4aZsyjX+;$I{9H= z@TK}vVq$Jt8n-yQ>Vk!Fdz~&=lrUeXwAr(e7dNTjoZ)Sx{ca+CW0m5pbwMs!w;|`x zEw!w5QUij@PuRfEaz=DS^PDkkTu_xX?t@TSo7=gpulguY2Vfkpe~za$G0TJPfS} z0sDEkD+p|J`3M)!xPvZ+jtocb{*mkM(O^fu;`^+NcTKv3AR~%ZyYeVjf!RRNJ!#)# zzrYNNJ*77^;kG{m+H>Yi%+((B+d+(YE`Avf> zUH9|D30K&7d|Dd=?~dk<`X{G6UUxKa+%3l&h-Oc^f};~rBT|cI1!t$+Q41>i3M%*X zNrnsoM@}>=;P#I3)WM>~DXqqrlYO3VWXcr;;`pN3V?^%)Ik2WCwA(+s*6AAybOu}@ z&!nfF>paH0xM@O%ezy-H>;t@iYQ#U&dBN|UbcO7FYjl-G~FHD!+KrCrunQ_3Lb2#o6nL=)sebJdT)+w*-GzP z<=xau-wnUCZ++{e)Uac%Vc%-QzU2#IL!Z>pw^AoH42bq4lKlwz+Vt^;d_5?reW=UM z>x!7m=15ID}w#qeI^Qx_Ru}rjeO14hH*7@nf z0wl@OeV7xE>=V?8ZtzzG>G?I`w!_Fb;FSQQ)O_)Wcm_5gU4r2?U649L?BVoUqNUe? zXsO)e{&X~q8N$YJ7Kj&yp?8&`Xf7w5gR#>PI-&H-0rwQ|9tDPQ_OWT-Xb>z-hrQqB z^@5CX+@*jg=+^cR>Uzx%C4A`gEf??e_{R6x`#4VPwb^0!1niuWLWligz`bs?4ns71 zil+`(ojG+!F24z7jat2)@!`?QVUVSuXVmKsM2q>+si4*>>&DpVWHdYI_u`e~9~%p} zgHa>z4g{#CS)Z}n`8tZP7)fdi5UNQad5U8>@9ik=ru*Cf+5!E`NB zRI*mozFO2SbQ};4or`pIFCAIl@f)Mw(y#xmj^MoUfu&?VpQiyUJp#M{G|(bII0*qb z{SC%*1Pmv2f2>!dN;sK!(D>vGgb185gzts4#Fx9kauyF8e{(r0D4fY>?uLDuHtaKR!#?wqeRBFa6UwO6%!0bp z#*3#5r{vmKlTtJBX@L@o3|fu{Y2_{`{Gr-oG7f+UWb&DW1Mq1Ks(75BEfFu59iMp6 ziTojiC76gvcU|E$!`5JB!ryg;n|#l##Z~PW)fxz4p{ogKs?ahJ zFi<`FnAa6-AMppl0NG!fc5z^*Jfrq0e-J~c$K|zyc*y($u}U}G?kPL?CidTd#_k_u zCXgnVkBc!;N&-H&3;Y#4Cp?1qx~GDEUiR7no(?24krqCt1E9@FiF1#6d~!MgjQ^Aq z_YCC;X(}mD~5c%AD`{yP+XU9)cr!YeHyHgwk{a6X&?3b$PcS7s+BZYq*OE;nUYe9Cy^$B zAygGl$;Yc$jjal1DzVE09-@yoQjb!krT`UcoupzcW2`BaxCuuw#a6llP}DUA=2*s3 zDsKOob~LdPvulhv&%pEudJPy1V5Xd_1a4B3p9m7O5Jz^UTP4NCdQd#LQp!h7J}AR- zL`o@QD+ThbjChhn_G42jd9IO|oUn;WsHvGSqqE!5f_d3gGw1AXXD#SxQJH}np=a!S z?Qpg4w+CM0gU!t|PJ25QdwfgzVaz*+sT*N_;_~^~ z%r=?}j}&jz;G2qOyLjF;8_nVT(<5HDqnL4Vyn_nVLO>}R-%feXa?echyq%1BzUj$v zIcX!RAG0U0bF9!ec_#%WUX1S{uQ@S)Ip7L0&kYpAlF&=@Fn*73hEu3P!{KG%cMrp7 z;P1d8fz{iivz7{_TSZHQWNBD!G%^!(WZd$8sS*>glE8C>XHq4?-g@0c3a*oKoX?4rl-&*98(QdHv_(oO=UoN~m_U6bN6AL##IRC@vgv|%V z%?Bkw(;>-pNH85js`F-<<5sv@v@CI|^!-T}02Y?@3wWnKG^u*epyeaLLl_4`hj07l zsGqwriUpe)UAR3nhu%Bp_51l|m>qU}b#-iawAn}99xt z<%%%;qA)ftSgwec3CS`cm?q?!q1uQ)%IfF=;QrTgFdK=x;GLK;yqv@7Im3c7FHm{X z&F75iIpbGNK^51_WofzVfh6u%>q>m$92UtJ)Hzdkj{e$lqqB&p>I6o%4qZ5A5sQVpb z)X>ot)qA43UN@~81!9PFhau8udHcq}*Z_?VgxXXXbc=UQC6KFQpVvR?@&*ocD89c+ zxh6vW>A%+fYuz24P}Ps$(z!Rcz0tmyD^_<&)m^fk8ZsRFHI+J4e)|^n8o8(3=I2_d z7wxq>vZDH14B?}Co>kdrMp%c8aCYdKMJSItP$$Bm-!QK{E!t!CEC-x97>uaJ6&Uq+ zhQ0n-)N&^1^Sx_Hi@yK1SpFXbus1^zi$$if< ztgW3;RmO_@V~XG}06x8=`?#c1Druh2jhHQW>tAd7Mw7Z?{ zSI;kL&DW-0yif3ri5Fw4|Tde zL%%_=^!)~#mIH?0G6>te0fStlN=+aprAGe>A73+Nq^6i7XQZa4&xM-ia+#=UZk(Qi zZsvfdCbwqpU{ufX=TLwzj*Rga5IsLc;4*-QT=7?76KYqr8qL9OCR#KNrTR09>3ITM z30$KXF5RA)j!~b^+Z@rI+q1I8EC`Ei5t1!JiUq7=+&st+@OZBE_AKEr-XX$YkfU6F z3ef{+r-8Hh4^78N*=$rFa)AC&4n_!!65t3BIdbI5NX?T)fB+4(GEJH$6K#64xMi9| zxD-QddyFbshm)#8!x1F8y@K!o>L^b~m&VsDzEz7aVlBRBSSVSnU#eR!UeP}^>a2eK zZ*+PqTkQnIs(D_&UhWb!ONl=PFfbx>0EUecnXoCG2SS4?c$cbyJu;!$f13l}MPmxc zN;_Uo*0S6zvm{yrOVAx^ZZ5>Am`eZtd$~ zuFiT1&0w@P{g%K(oiVTJ3vYuLZ_kWU&Bh3PtbS4V=pb^<&ocLRY8^)OX)r*8Dej?I zc;+5!H0Dk%XJ^ecGm7qo|Ilbs^(I%ox|#ln8i!b6{tkilhmQ2kG|Kw}fdsM9G*gn> zJ){xn1HfjO!BEoss~!9Pa%`pkez!1mNw_vFj7h_%Pd$Hy9g9sH?;uGYqWT)MjBMu@c8f!=L%xq$2W)m}KtNi4s%#6E^`7x>N^Hk=1W@a&5&;^mx_>*vwk8 zIQA}yy{+M*n7#Zik-xP(16N9Zu*z>i3TkdBjtshW;%9pVTya=_m&ot8kMZ6Bsq#bWZ;v+1SS}@mnY{KTm)- zS+rXBmn!>jYqM{>+5P3J{_kt@pUj-U2v@N2Hu6+PARVvoBZpfA!T_-~@Mt#hJvgyG zM}j#;511bOhkE#bLNR=uz<)&GPYLuBxB`%N%{w+pC>>7iTA@wr_PjSK%D=_p9;OOx z$=bfqw_4DMb?e0jspa5`bG2naXc>r1W7rR{sD&vJJN0 z2MB`qo(Bkm_rV7Ug7*>q0|bHLr2fI_vt&4j`G%qJoc?zv2q8)3ZS%(>CFS?(|Dx&J zO=@EB)5iPyA2J_XEO(OFz3MT)rY)eL=kZf@m9-Y{SCHxM&-nABdQ( zcL&yNj#ZmuaqHsfJ55Vlmqvfkw7hkB^uwl=o)!MbJMM42Kk~C}!nq;g;$`vNWzqJm zWP4V)`l4uiQ8d5!1w=9O&Nk#?9cfjj^ttJB#{cKt$`poZ{iI$mknZ1zB zGD{|#W%giwM!RMmM!V*7VYG|ZVYDfQr)RV+>oD4s!qYR_)^!+dO5y1l?PAWFk(H+u zil3U5FX2koO`-IuQz+$Z>!wil)G6Scz`7|^Jar0XT;;kcR6TVH8I)zG{+sHIMCv4sF)G1VP_DmDcaAmmay*llgoVn_7b*71AxRR?6v*{+cHTG_Z zz3aneY?`+<_HK~hNmJEE^1~)i>!nhKR4QVz$?t~P_micPe$tmYjq+I9^1C6--boYI zN5Crl$#U0Gsj$nSr%Y+5Z4aa& zFQ{ydy&Gch40(D)+O*o5@?=UwUh@HYqa@| z(;6()Y#ZeN1U0~a6(D5Y5BWMQ(r}&$H^fi9&HO)x^=EpAJn{QOZ@;P6E#g^Rcctd9 zk$cTb&DJx*)-%g5y>;|^XO^18hCNcl9#|y(5-T-qmirH7sbfPWUZ%EujR39GunGE? zD*qp9@{g6Ko-bAQ|0XH>KIfMz`~OUveWULm&N}6Wu>VKe{2P4TU#jZ=TW$7@zJECD zlpCu4f3D5HVe-p`{r^InedFYp4EtBK`8SNte5tVi$I02B{ZeKBUuv=++H`wr!b9>1 zE^K*qH{TwGEJ&OE_9)5ZLfFt4HNu@=q(J{Ufzt#M5;rg6(^2q@Wi;6EdD=HVRHhI=X1l-x=wl(~`EGk==Xgy)Sa0kKTv%k%6OR zIHr%BI8BB#`UePtMStf51i^df0|dc)-vb1}`>_52g1~T0{{TT?IHP}?;C%7 z?0&y+_QKDO2}75KXRnGwS4G?NlI?k6m=kTBXy!iWSk~Q8LQc;A?5J?@S>d^>;>C

toX(*28#f#4iFSvvexA=lv7{4yu@QLF-VJaX5Z;4a4MB9vHn}IA< zSl?%WBvl!Mg?$F4$e&|o)9;`?UV%T4I8rN(cJh+)AzXV=aE*%BMg{kT;JG2XZwQl9 z!b<^hG9cQ5k}W9Q3X8U|XbvY=)$cj_&v^&%^V~gDA0r{5G`4%#3rLcybJ=vPo-@+n zcdSsuIrSl3PdEaP5D6_)@e3d1>f;EY#636T1 zwbF58uv+D+sAqbwTzd@aZS6rSd2Jx->|`byS0(@uphI>(M=x{}gi@u!KL3Mbcoxm;?Oej8opUiKny%t-)JRv8Sue8y2zueOZMSX`@jeDF-blqyF%?0$E4cFq=zFv?6u$Ci~y~O z*U{Mx%g>5f%1E)h1s!4UXSsm;?Tuqm!wvi+S;I(|d{&)yNq$WPlJ5m@Sa~;I(JUNp zoroHyJiL{hc9LC5YK2D2QKLAP9;;-fYq68*{2mHbBp*tT`3Ug)$ubujuRJbaAexWx zF(>{ITzC@3=MMv5Lca;GXr9uWqFK~UqFIE*(Ht4yq9(il zRWw0~*8@7f-n7`eTF@yJbbj30F0~$7v5BomrPibK1CqHpQc)vS^voZRm~Ct3)>U)s z;(%y&N@k~Ec5d9x`pT&_vwhWUU#Jw#Et0uKFtK-^07JpRQ_}2L1OW(PU)dsQ9Id8x*^t(I0e&fxZVqtyCm&v+js#!JF+&i)0dgJt> zW2x`Gw&lE)x*wTWJi^&?Kk*m-)s26+FTt)jBc0YC~$BR6aS~Tv^!omH#QI@FX~-&D<#y z$?7EGw`@V>GoDfSG^TJ!nS3T46k#ke7;a4)DeC1sL930H&9QArM7SGc_Q zOi6qWYCEAG3$>xUuH+(vTBEY$x<)J3gmdl~!{)pCul%Q6-dt_Cmdj_{H<=0)lUXqp zDyAZhG9;34WRJqX*J^M>DO0#sn+xQiCcU!FG`Nw;r$rklY9o`+R4zZ~D_;rcXxiT% zD+*pI?VlSqF)mrOPm+2O*EBs--_nEj+pp)g)sY`j9=GcPBe+ zK|d_ON}SH14W?r|CzTe5UrJOg>ZlQQlWx z4(DwcgYt2}3iK)kPd4G05tBVmaiM;ctHO}-q<&SAMCG?6^{YD64;`3DdE|Z-t{cz# zLVA`3^Js-LT)a7y^u?$ zdQsQIqbZJFgI|BBdU-SrvM1A^a9Ow}Y#%dXrK4<+r#@5BeRw4BAvl~M&%r#hJ&bi>n4{%@#6Odv*? zZZSn?p@ZrIvN@@$jPe|H{bC+e7gG}fN}3Wun!;XE7giGi%9|3whKuYd<9AS@+057? z&x{pqZTxO>qM0s#fWSclhX^Rs+r$i+Um=Gd14ONIJbiTRlPy?8ZSwq@*(7GyKPAtk z-;LSx|B@p3I|6?X;HZ};&c&o15{n`#)w?B3Wuw+E>&6)02W7i`Sgzo4#>^YdzA+Y@ z=!5>Y3E1TT#w@4E5`ay<kv zSdy4>vM$5_cT^Ms0LueZ70in~rB~1kzPqD&G~bU$&=aUf5Y+@fgHfLMZyrYVrO_mJ z*pFq)(TPyA>bTvyK1(t651hx^Dbp|vwR5&c(XvglY+I~bwX_QHA5%M*)&-i|=JRl7 zPbjGQxUyQRY!O;-ij}vd%3Dz0W-ePZJ66q(#Rk#bDVaM3bLaYYjiR|rGIt5)u1N9L zg+8fx8=aFQQwf=h%RZ`byzf{#_fDHwu|q80Np`kxJ@@J+@>cO?-m9JS{Vat|tL9Dj z_=Wm=<8Sfbn^`JZI=@`HRP@u4pLm3(vtrX(3DA5_GM^L7=Wu9ESpcXK&8?ETRWP?c zD65*!hsHahpccC7?9PboBHOkSY|n`1XHt!0qIoQ4i_$j8TU;mJ%KBceXloM9P4fdE zSJg;WZHq%E*)u|YeFO|aM_Wz`?mcD#RUS^rK*tlce^?YV1+lvm%o z^y=hWm&LNSl&`X;MZHwk0{euiob1ZU&RV@@-MVVsx^RBcu-LtD@&m&UP0RJm=T{8N z)xYTe`EH@>qS$p&0<>P1td|ArWvIJ*x@;s8Pnez{8>$wp7R_yvxlJ&)#ZXgjLBZ}^ zx+rcxnrOz0qB-88Dx+64dmqt^gy!vwoTBKRu)J;6Of75fmdxFPxtrnOM(m!p{u0fY zFsW*?YR$@)??x6&77s7-3)en4{KMnRBP%5liv!ux!Ij*@`JgHf7Muj!@cVD5j}A3uR$XdhLhdRITZz^vh%1#(gGfXTg$BrZ`jd zt7r6CkiuB!s2Ag6+o5@!Sv3vK59e`(s_z1PtEZ`Eq^2zK#p{XQn5L=X!DLnSg(X7O zR6en=hlNVj7OpyP+J!2bM2F3o&??IXSZGwXYTql;wxRY58_pJn6IKN$iWQT*s6n_R zFKUoUUeq8{nc}ZpF;yt0O2t&An5tz{25hTI!L~vyb3O{&3R7CKFax$FEky!{3OCeN z26c;TTMl0;Y(NX7Z^tZkI}%=v>z}Z#HnFzatkmch#bj4Zb&9E8F>O^$4T`BzF>O;! zO^T^mF*y`di(+b3Ol^v(T`_eircTAwrI`@25jj` z<8vcDTZ=84MXVIuQBjWZ?DV+9^@iD1XrC7bg^M!ayoMra@fu&MoF-8+O$mQ*r7+R0 z4r~czyK6IsRb|t?k8WCE)6f8Ismt2lZ~39)pRP@SNCyl)Y^RSvcPnSdRc?tL_%XUQ zi*A*n+Ym^k!;YCYbT0?lr2{=GpDwz=N=dTW<%DcUH~xDZOva;m1QsK(7=Z<5dWpoD z^GF*>nM^^Wv*)JUtCsS(;C9<5g2Ac4p3csx>5)K(Yc$Z|=f^uazo*mL)#2>wc6O58 z^-<4chjX;c>FnN}&?C>v?n-wj02P#^3tZ0j5vQU*zYY8FzG>8nkJQJbpea!)5)+EZ z12jn6?KkXK?W9VcbUv|F8i)N_TTD)1#7%nmSz^IOmRz25qGwW=zDu1;V`IteMF zbhmZ{W+$NnpZA1-qwEs37&65qNR-svGous8D7(%Vyg5wM54y`jhC5 ziVvlNZxD*7yN+aoNwc1!M62ps@r2_CJ7T>?@v7uNraj0*9AADPH;HH|q5Y|D5=n~d z$!-$qvj?ZAKrexnv1>w(vK#p1K29yj5Yjd3Cc?m|tz4tBT%l6SO8u(3x4cPUKjFIx z%0j3fkjJ#7UKpyd;|>y*3|&J)*Q^9yqNV)M7B*(!12S9bt{Z^|h{i+eH6&11 z+lWb0G&h!f(%l>KHUtSgFnO;~RkPe>kV|`uy*V}%1+kOySt}_#qkRI-=WGF>%TQ*? z3_#`(nE{x-Zd-wO_J%LKDH~Qe zQN-OCB~f7zZnMA>#Y{H1oMrE47Wk%^$pSU9_cO{3-Rd&Kbt5;FL6&FAP27TIoN^Ph zpxh`I!5~~LH}V_461ia!_fl?pC^uHbNx31LS=k2ODLZ5n>OpHVb=J`wxu!!E%|s}) z6+VTMh8j`fQ z8%0OB;zZ^t2Er9)Mj*l!ip4@nBHq9e$y&RbMu z_A!eO6q%Vr%ptVp7CgyCz9kn~eud~I7nyv_a1=4J+@mToIn1gYlp>QuNadg^at~o0 zMW-rqkE+N$sv`GL!rQ6Hy;MR<3JH=0FlTSbN=YCgvH;?sU`1M_{x!B3AeTv~^DCI} zJUHkmWSdaY{7WwHwEGCp`+0doDt?U+?l+|iND>=UBm>FhGUY9*bh}e*+v+gS^S3ve5eIHS8M%k0DfYdrp(+17oVeJDto-gTj=FQMMn0G`k)Z>~^ zGJI^S5O7_NtyQwMF21yC>k@2TA6yW2pAxs9mbRaUWZ~-ebHes>AD7#Ox_+^IKq?;) ztOF0Mj+p4BQ#3g<8Gl(`DV29E6)z2l<-4Ww-PjN@nO`YbGu5t|YVTc9UCC3jX4`o^6fA2{?Q4@|WuNQ*om?#v{! z(U5lvW`b0~fF_+4_s2eXX_r1~J0Lb55E>5tl>f=BP;*YKIVaVe!$H`*A*v)mQne45qa!3@6|++`?Ti&x zWmKV-19vsWJft_Os#aB9>5X4h5~{j?WIL&HCJQhBvb0PpZC`XP*>LVyD%}A|YE@r( zRy1vsOxpz0wg?FVH>{fIvMp1aWNH&kZOpE6)l?}|w=JHNsyl_Q!z)gy>xgg^2NJJH zN3TYb9Dupi$MwHtXntYQ_MK-x>Nq4e9ugY*eo^xCDxv0rSaU(Dxq!3Cd6yVEUt;JC zn4`-pUNb#OVpTP7R4()^1i!P3P-N=?pZ+rCl^hE zrCTs{%R3^bq$yFATC6g>9OD0*kk4*A$x5BUyf`J8CjRX;wpF49IRxvH%LhX8d z#+z@=ob~0(uz5jQ50A%9Z!YzaS|*>Vhtx9pEKOMfee^B0=HxI*x73ce!k+D1$ zUCoQp)#`X^k40CNP@t=dd9Dm}wE_qHHp+Kr@|j9kGx>ZHx|(v>kI_|CDNurq&{ZmF zda7kumlw_)YCXD|Db)HDGIOXWOKUwEp0{DT8b9Ks!uc3ojURDJb}62(09`%)*mSk* z_eocwVAvKeW0DppT))J*P6!#;{k#XOn64l$hgKA3&>p$6>ljeB{b?B%yQ}oiyGPwq z5Pnx}Oq~eYp=M*6L@}`KjeXeb(>{nrAX>JwjWyFW((e6d`p+~wu-&cfAj%>GY@0JM zg>11cdP;PB+Uw%&?wKI68{cb>XTv^%J!#}xi6!6(x>b1_!j_x5pt0@ZSb@^)yekDn znUqN5(hSM|UG{z`>u?94PypfLN+6gBihay8!(>yGNND#@$#y(O$fxwQ*?p+1QGdG^ zA}cPQ1WV#kF*VPLd^GcrN#P-r!b2v7b3;D~WItk3E{L6!X7GLw1Y}Um9{V^XQ+#&$ z!h6^#8Id>ZV>J=aQ3v*lAXLJ{W*~GUSKBz+Gv<#KDk0xN9%yUPMOrWT?)Idxp?22{ za6%K7p%20-`QUrn<&aG7LX-AP$Szx|V?Y)!cqTnS2JfskCvuI){KncA$*U_lrBdz9 zUS}c}FDli$p-RQQ>Qk&_@oH4cLv<2Md=gqlMyI{&VImVhQRUH%+o9y&xO`~i)` zjgkN^kf)6YZN0`Tc^#By)uY4`tEPCv+iy+81baw+g?WW=3GxwudW#^C3j#0DhU1@{ z^!pNV@E*dA!1U+@@(WEfXn&#(Uc3-=#2=i1Mol|3m*CHl)E`k#P(>n(-)LKjYEZUU z3mg$LK`cjw!Q?NITiQlPVu&g=yo_KhYu)W$r&0jUgYpxN3M6F?N<9);qxh6Pd3BbO zP#5tlF;f_%>UFkzyJaLM`5%_QHoH3zKm&rb0fXh-hCGwg$i7zzADEhe@*v!%4nj zS&GESX2+NW%*MW--R%Mj%f)w%_;0%HvMgL8XF!NHJClzAg8e>qNg;Pi!BAv$8Ds#R zj;KB(0STF*BsEk4Rx)H<2~QmWWw1}UP(qhlJr$7;XslAz*@nf)hDRrd<Ahmj{AaC(w?qAXzfnF&crf80eys>Wps#v*U|Oc~uf~84KLoww=nlgTT(u zv%v9g48lzV#S;`c&P7m>`HV$=Jb^a08&1q0@dOH+_R_QqvX)S1rs{jt>k_D|v=c+| z$5IjI4}kem&_zSSHlRL?^^r{Zz!}jbaXLAAx+XorjuCPUs5mBsa`TKMicz>RuPfM& z!I02aVXKo8R=TuO6BI2XQ1aH*+RiEm(K{4RU$EXbmPsPC%6O=x44cPlCJcCPUT!A0 zMirm7MlvS0@wOP+c>SkOEsYrE=cx=YQK|7EH&Lm9FRoJ4CHBQts*;*gwnwSZ%P2HS zl!6)x|3Mc9VH%0!BbhR)gH6zqY$aVLFgX|+Pg1LZeie)>P~hmJeUy3@liG@@*He3G z*ZP4hmz~)_WQx2&XbLY0{~+-12z*N5|0M7kf&YuZ|4rckA#jZV z9RZZJHe^wB(JaanQ)G~$U7t=TeL{;u-_pOP8;269Yq@j!uN%Vp5bRzxykfebdq>9? zVcXha%k&-&9NO{N(7-4C*-(iAHpXKkPaSTlU)Pc~xK9H-6L5~+F7cxxU z`$%*?pt^He2~7&c0-F)_r+0Kh#X${lCt?j0v`Z` zY^Y9I^8_(1F{Oq4Uy=J?EAC9=g6z(eOYqC&{vo-yQh26NL3UqHVIfcI_o3;K?~WR0 z34{pD@J{*!2m$Cx6{44H2!y;&{zXdbE`e7Ge1pIQ0S|%e1a1)U5|{*l&i?Jt*^mFw zcK&^`{VxdoQv!cOfa$RK|H$;W1pYYz5~qEV_Ghi1iUMY!06I|`1mLYem#1s_KSRrZ zqO|;ep@M#ku6wnMda=qOe*&_W$E^wh4^=7EIf0P3`|~bm;0r3}U!t769o5B3;;508 zanKei6M*D*k!d%9gv8@s`rJogKY;5qV_PI-r$ z9F_=#36PF9p7!}2RkFxrA^710V;(KiGOkQWk~C|84s=CL>`jE`K1K600{=AulA?sh z42((8c8L`=_{gOa_mks~2o%s~0#VHrz{C&>%TN4&LtaeeWeb6A1S|l7DmV~(llmMw z6uV<$^ZGGn8MW-5WRM+Q>~vc-%A#bUvxh^17rGzymX zkDFVhW=NQ=aANZ*srl4=5cZK;yHwjfABx!P=Km;SsamtNuUbgYfu%>X^az%ogx#2E z*)CbO3zqHa?Mh#{y=K|EYT3GQQnYkRmQI2F9&D`@?5p6e|u&6$eRkDN49`)x7!M%=;zpRW5Ze1(%0}?!&*R|G7hO42g~*3DA5= zGG7wRmw-%6N9(%kS%*aHkZ2lW=yo?NrU62u!1d8SZivjvX5#hqK!j)^n@QA>T3m)8#Fipz+t#guf?jg1Y3`Y&W(dmjA%sXmOqG?>UHZHgq zFD@Nf?p?911n+ag5F&a(v<^#Fc8j=mTr`dUUi@d&Ity(!VnGe-EL))g=i_b7(zZh@ z#VZ5iwiD8}6VzF@MyfYU)gALQk^{Wn!K93;)eaNW zNK>;<{#)>wOwWu~drT%BGX~CZ0T(CmWoj)lD)r7uN}F*#g)M{6B&E%BIpLfPil9@K zHfQpgqm?s)TvaBYxf}MGs&^(+oT++e9<5^{HOKk^-L*HMxx)}v=~3YH#L~)7P$eDD zqy|h$e)HGyo0sIbU>(2t&?%!RXNDA*DqYC7gX5*tSq=)I{95J8?98Zp_(^@jx#_i6 z#4bK2?KIhHNs8-)tL%Bttd&XDe(80uycy1cqRT?pCqQateWq_}%Im?#o@$k}O{4b! zGY_?J0yaL`UZlJkphP3@!z!vET%_!QmK)W(=yFWzy}pg@a!hUDE{@Y!If*ZCCLNHM zvxZE^SF4mvBXd*!fNCG%l6$mAai!@|KU+6V?DeXalH;)j18n05n*g-wnkcU(9wfu6 zQQj27&Li7JQR0=aqG+>g!ub3_`}JuQOWuoS+pBUCfgtZ9k%JD!|JZ0^rQ9=1tJ(1- z)3|)VlU*UA!ivP&xsocTq={r%s`1p)oOmBfUKdVmOQcUlN#;>YmqS>cly^Sl9Yr)X z=G68Jvsg%+Oeo@D%X@>N%d`?XHrf)vR@Z2-S-#{0*u#{#w%MDh2r-4OZT2n)78(h) zaM^e4Hko)4n`hc)+d^$KU2U^nZJ{p56GzMrtTxZI&(IYjt2_?;L)WsRMtcr``MzQKMe8K89=>TSv+AM~_RF8qP>h=lMx7zkBsRz)>#e+8lzxQ&Q$ z%(F{pt)e4#m2dVhejr*SYWgWCg>ZOzoSY9eigrf$hZ=dvQ7i`_-h)FYXC1XB-=1S*F_pBGIn zlBq>7wLB=UeyGdIdjV&|2+sFKiYxBvzgcz9`OVrlJz{YaDf8TbO^NNJ^5*xemipeQ z70b7aB|D(<6EpGISND_N#>zEw!>YMq;oSR%_e@LmOCwNVIl9s-IFEmH_PliVIidNA z*nC9-G+&d<*97*9SZV}Q4P&c*_3hW``S9R)dw=b}`Byut500t@K1p}wIq*QwlO3TuKjTpt9X8H_@_mY?@V!zZkbAbWDEpiFw z0LuJwxGdFoUf6V9VJO2{H&AHceN#9ujcsk%fbhn-Jmf}IDi(x+a5f2)hx6V>J-(~d zB?j~n4tI3Xzaz&*T&6-XFJSN`5_sC}^SOAg{iL5%>R=p&S|$($HiQTKlWx*l1ksmC zJG5C$y8{VYIW$3H4l#K`+5wvOO-;-Om_!Wg(2%Tidm-b-MkUS<;kh7_Yf!S_Vlr>o z+s0OOkR+)_T@X&BA-dk@y5Z*P?a-;iL#K|sOB{=7)Rho#!iY)AmLSE1oy#Q8Byi)O z4uU9yz&*kBUUC`s#Px%)PbKR_h6epU>>2w=K;--nLxA*7V$5g>puMIPy34Tl7e#`ZZ zOi|R)92uXYxvX|ipN!_kN`Cre07p7>%1C5qLlIvKyHHhP^npm%6*uoceUjxg@GBa8 zXyqP*&o*6g#eDY11!Z^LZ=RPnb%+I>QbFfKU0&WZ`j5-1?`>bJ=~}Jn5^K7pnr^YI zM=I-is52El1FBB&u0B$|WvzPqYW4Odmsq_^s@`=sH&SI^D1M{*Zce1SZlUgt7TDB6 zr}G;p@8(5HtG{_*;mB&KLnw7DdZdm6D`l%4M}>}~kVKSX#K;a-4&=EOuk!^RtoAn`}Y zOeYC(%F!U3LI};~IyoG!H4Nv_H^?O0A!TleXD(Mw{1c~qLGZG)Bp)O)7H`;uIFJ&H zkIaaN(m|>eBQB~0K{O7I;{(sbgE52dki)=unP~Qu|CXC~ydnVH?8!Of;L|RDd+kDo7!-Cxrq3Sg;@Z!ogMrkAx}`*r9RAL8S$F1jp6e zMV5JEq`*ASzr169N2H|m?%`J(?iJq~SSWe@*y}Z7aU(|X(z1Jod)=>RL;3dM*KfUU z5lcz)wXOV{$M10q=b#E(vNg>gp=+ZJukO5eapC;ySHzO$#m1$2EGU+2Up9y(doZ9| zO6K$B%`yFuqhK)cII5zi;b9;8*YI#Oe|UJ(&p}2OX7lhcSaNU7C3kq3^N$V>^YzGj z)OG{31>%q-#XSr%h)`ZPRM7jz!JGLf`A&G^n+ZHaz)iqM;1&V4N%j>o{l^5B2>gNo zcrP8F2S$MJCeQ~EEmI{GP|{*OkiSa4Xj7e)OzxUAWby>4-v*AOC*D#19vTeUCY+=P zFx6#uJ=AFdSdfnHm0+Z`Ktn4PT zhyk-Pdk{fXFyES8`B0~ThC2FGz;V5kz7=rD@S;Au`=L$+j~aDdz4sd;4NXGJ0kPr0 z^346>4{wVNCnH<836A~Z*8NHyYU->Yq|XL*OMxMyZr>q&WPe{|=U)6C=Jgw?byDET z9Nn&c!h!SR&hx^BtHQMx#0xKoJ6{mSJc2hUjs<}~hp|)gP}h-Nn+!(uI%n_F#1D$@ zUlcB07tdUOsN0lHq%H*>$fcG|1u~KmYH7B`i4-tGcpkXMI9QN3&bR>U)F+&@RLDq_ zA^oCXI7un>oH1<7u;`bxJcy;dOg@u1*>!xTEVij{48{>O^IVG$y)fNGlRr3q;Qjw`;D5X3 zIuz>fZHX}^EzQl0SLx&(FE~ljS>kht1KPHp89XxFd-lZek+T=NT4e5KiuZG!{N9jF z?S_?%+k3|5_D1s)p1>m!qZ-YPr8U0im9BsFXR}8R@C_(5e;93q1%^Q~?<61+*iC=~ zh+1VcpW8qbdWDA=_zwt8Szmq1o3 zmCIb5y^OKr{|#m4-?AK0ylw(x0O^>yXnw#=Twu_R&^~yw&HE{GJwrmzP{dsN=g++S%)P@4hJ`CjWy`rj!y(b! zCz<;Ma~~Yn%q^?tmPO~{2&Vp{%RMVb(TsaS2L$uLr;&n^JA*P~h{{qPqJ@keUV?#y z;W+(w^>cc>4R{-H1XS_5pbn?lYH0`y%g^oi_2M`6@>_L-rm@xn6$ zQDgtpNi^_I&z}Mcj?i*sp-l*}Jv$&B4w%dn}Itc5n7e~H={GXt(n+dgOU5!xdS%Lk4V5NHn_Jc7u|En`! z`=dYpBQdu^%B{F}dU2mvyHm*Bg&#K1=YzOFWqv!WbllDBLQMQc%2_r^kfjD25-nyFDo;5VCL$Zoa}H-O-0RW8*~No+d&f5(H#HCb*zXoUW)Y#R)QpU z>oe0nnPEJ@zl`!xdj|d<0P2+V`iQRZ4*OFXN(5c(7tu8f+FwMsS{bXe!g;2oeY<)49tQ5fN`Tqy@;^Dpk diff --git a/utils/__pycache__/__init__.cpython-310.pyc b/utils/__pycache__/__init__.cpython-310.pyc deleted file mode 100644 index 29af542a418ad27eb2a5afb9b30cf627d4e1d660..0000000000000000000000000000000000000000 GIT binary patch literal 0 HcmV?d00001 literal 185 zcmd1j<>g`k0s)7m=^*+sh(HF6K#l_t7qb9~6oz01O-8?!3`HPe1o10IKQFCVzc{ff zGdEK=Mc=(BF{L!IBvrvVHLoPKNWrBjzaS~ULO(b^CpWQ5!4afP-!UZLSJ%HFHP6=< pgbnNzGEAD@|*SrQ+wS5SG2!zMRBr8Fni4rFUF6OdqG004ssEmHsh diff --git a/utils/__pycache__/__init__.cpython-311.pyc b/utils/__pycache__/__init__.cpython-311.pyc deleted file mode 100644 index b94904d547e3cb9f74b9d2e32efe3723f4d81f00..0000000000000000000000000000000000000000 GIT binary patch literal 0 HcmV?d00001 literal 201 zcmZ3^%ge<81Og6A(?RrO5CH>>P{wCAAY(d13PUi1CZpdPO4oIE6_5KbBg(a#0O?ZM#c{eFrtVV GC Date: Mon, 7 Apr 2025 23:53:55 -0600 Subject: [PATCH 5/8] updated .gitignore --- .gitignore | 1 + 1 file changed, 1 insertion(+) diff --git a/.gitignore b/.gitignore index 5509140..04f1898 100644 --- a/.gitignore +++ b/.gitignore @@ -1 +1,2 @@ *.DS_Store +*.pyc From f6ef293789d8e3a9c37c4064b00794b3c8ebff41 Mon Sep 17 00:00:00 2001 From: Solmaz Azimi Date: Wed, 9 Apr 2025 11:22:34 -0600 Subject: [PATCH 6/8] fixed minor changes to swapping example Signed-off-by: Solmaz Azimi --- examples/RSFE/TYK2-JAK2/scripts/asyncre_template.cntl | 4 +--- examples/RSFE/TYK2-JAK2/scripts/nodefile | 1 - examples/RSFE/TYK2-JAK2/scripts/prep_template.sh | 2 +- examples/RSFE/TYK2-JAK2/scripts/run_template.sh | 6 +++--- 4 files changed, 5 insertions(+), 8 deletions(-) delete mode 100644 examples/RSFE/TYK2-JAK2/scripts/nodefile diff --git a/examples/RSFE/TYK2-JAK2/scripts/asyncre_template.cntl b/examples/RSFE/TYK2-JAK2/scripts/asyncre_template.cntl index 68c14bc..defa17b 100644 --- a/examples/RSFE/TYK2-JAK2/scripts/asyncre_template.cntl +++ b/examples/RSFE/TYK2-JAK2/scripts/asyncre_template.cntl @@ -27,9 +27,8 @@ LIGAND1_CM_ATOMS = LIGAND2_CM_ATOMS = DISPL0_LIG1 = ' 0.0, 0.0, 0.0 ' DISPL0_LIG2 = ' 0.0, 0.0, 0.0 ' -DISPL1_LIG1 = ' , , ' -DISPL1_LIG2 = ' , -, ' RCPT_CM_ATOMS = +#No binding site restraints for swapping calculations CM_KF = 0.0 CM_TOL = 10.0 POS_RESTRAINED_ATOMS = @@ -44,7 +43,6 @@ UMAX = 200.00 ACORE = 0.062500 UBCORE = 100.0 FRICTION_COEFF = 0.500000 -HMASS = 1.5 TIME_STEP = 0.004 OPENMM_PLATFORM = CUDA VERBOSE = 'no' diff --git a/examples/RSFE/TYK2-JAK2/scripts/nodefile b/examples/RSFE/TYK2-JAK2/scripts/nodefile deleted file mode 100644 index f1f8b07..0000000 --- a/examples/RSFE/TYK2-JAK2/scripts/nodefile +++ /dev/null @@ -1 +0,0 @@ -localhost,0:0,1,OpenCL,,/tmp diff --git a/examples/RSFE/TYK2-JAK2/scripts/prep_template.sh b/examples/RSFE/TYK2-JAK2/scripts/prep_template.sh index 980cc03..3ba8c5f 100644 --- a/examples/RSFE/TYK2-JAK2/scripts/prep_template.sh +++ b/examples/RSFE/TYK2-JAK2/scripts/prep_template.sh @@ -14,5 +14,5 @@ for pair in ; do jobname=-$pair echo "Prepping $jobname" - ( cd ${jobname} && python /rbfe_structprep.py ${jobname}_asyncre.cntl ) || exit 1 + ( cd ${jobname} && rbfe_structprep.py ${jobname}_asyncre.cntl ) || exit 1 done diff --git a/examples/RSFE/TYK2-JAK2/scripts/run_template.sh b/examples/RSFE/TYK2-JAK2/scripts/run_template.sh index c05c2f0..a24b395 100644 --- a/examples/RSFE/TYK2-JAK2/scripts/run_template.sh +++ b/examples/RSFE/TYK2-JAK2/scripts/run_template.sh @@ -11,13 +11,13 @@ jobname= -. /nfs/sazimi-d/miniforge3/bin/activate atm8.2.0 +. $HOME/miniforge3/bin/activate atm8.2.1 echo "Running on $(hostname)" if [ ! -f ${jobname}_0.xml ]; then - python /rbfe_structprep.py ${jobname}_asyncre.cntl || exit 1 + rbfe_structprep.py ${jobname}_asyncre.cntl || exit 1 fi echo "localhost,0:0,1,CUDA,,/tmp" > nodefile -python /rbfe_explicit.py ${jobname}_asyncre.cntl +rbfe_explicit.py ${jobname}_asyncre.cntl From 7cd2f25ace07a39355cfc8e3fa98674a6a69718f Mon Sep 17 00:00:00 2001 From: Solmaz Azimi Date: Wed, 4 Jun 2025 14:03:07 -0600 Subject: [PATCH 7/8] added README.md --- examples/RBFE/cdk2/README.md | 2 +- examples/RSFE/TYK2-JAK2/README.md | 49 +++++++ examples/RSFE/TYK2-JAK2/ligands/c41.sdf | 74 ++++++++++ .../RSFE/TYK2-JAK2/scripts/run_template.sh | 1 + .../RSFE/TYK2-JAK2/scripts/setup-settings.sh | 2 +- .../RSFE/TYK2-JAK2/scripts/uwham_analysis.R | 129 +++++++++++++++--- 6 files changed, 237 insertions(+), 20 deletions(-) create mode 100644 examples/RSFE/TYK2-JAK2/README.md create mode 100644 examples/RSFE/TYK2-JAK2/ligands/c41.sdf diff --git a/examples/RBFE/cdk2/README.md b/examples/RBFE/cdk2/README.md index 0dfbc0b..18d19c2 100644 --- a/examples/RBFE/cdk2/README.md +++ b/examples/RBFE/cdk2/README.md @@ -29,7 +29,7 @@ After the setup script completes, go to the `complexes` directory to run minimiz For example: ``` -cd $HOME/examples/RBFE/cdk2/complexes +cd $HOME/AToM-OpenMM/examples/RBFE/cdk2/complexes for i in cdk2-* ; do ( cd $i ; bash ./run.sh ) ; done ``` The `run.sh` shell scripts are formatted for optionally running them on a slurm queuing system, such as the one on the Expanse supercomputer. Edit run_template.sh in `$HOME/AToM-OpenMM/examples/RBFE/cdk2/scripts` to adapt them to your cluster. diff --git a/examples/RSFE/TYK2-JAK2/README.md b/examples/RSFE/TYK2-JAK2/README.md new file mode 100644 index 0000000..bd195c8 --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/README.md @@ -0,0 +1,49 @@ +Relative Binding Selectivity Free Energy of a pair of ligands to TYK2 and JAK2 +------------------------------------------------------------------------------ + +In this example, a swapping calculation will be performed to calculate the relative binding selectivity free energy between a pair of ligands to the isoforms TYK2 and JAK2 of the JAK tyrosine kinase family (Liang et al. (2013): Lead identification of novel and selective TYK2 inhibitors, https://pubmed.ncbi.nlm.nih.gov/23867602/). This example uses an automated workflow to prepare and run the calculation. + + +### System preparation + +Assuming AToM-OpenMM is available under `$HOME/AToM-OpenMM`. Input the pathname that goes to the AToM-OpenMM installation folder in `scripts/setup-settings.sh`. The setup script `setup-atm.sh` reads parameters for the system from the `scripts/setup-settings.sh` file. + +``` +cd $HOME/AToM-OpenMM/examples/RSFE/TYK2-JAK2 +bash ./scripts/setup-atm.sh +``` + +The setup scripts uses OpenMM and `openmmforcefields` to prepare the ligands and receptors. For the ligands, the OpenFF-2.0.0 force field is used and for the receptors, the protein Amber14 forcefield. The system is solvated in a box. `setup-settings.sh` includes the ligand pairs and their reference alignment atoms. For swapping, alignment atoms are not required, however they are necessary inputs for the workflow. If RBFE calculations are sought to compliment swapping calculations, the alignment atoms selected in this example are sound. Additional ligands can be included and their details must be inputted in this script to automatically set up additional systems. + +The displacement vector is necessary for swapping. A sufficiently large displacement must be selected to ensure at least three layers of water molecules between the two proteins. The setup script assumes that the `sdf` files of the ligand are stored in the `ligands` subdirectory and the `pdb` file of the receptor is stored in the `receptor` subdirectory. It is assumed that the pdb file of the receptor is fully prepared with hydrogen atoms etc. The ligands are assumed to have been docked into the binding site. + +The setup creates simulation folders in the `complexes` subdirectory for each swapping calculation. For example, `TYK2-JAK2-c41-c46` corresponds to the swapping of c41 from TYK2 to JAK2 and the subsequent swap of c46 from JAK2 to TYK2. + +### Minimization and Alchemical Replica Exchange + +After setting up the simulation folders, enter the `complexes` subdirectory to run minimization and equilibration for each system. These processes prepare the systems at the alchemical intermediate state at λ=1/2 and the resulting configurations are inputs for alchemical replica exchange simulations. Then alchemical replica exchange can be conducted for each system. + +``` +cd $HOME/AToM-OpenMM/examples/RSFE/TYK2-JAK2/complexes +for i in TYK2-JAK2-* ; do ( cd $i ; bash ./run.sh ) ; done +``` + +The `run.sh` shell scripts are formatted for a slurm queuing system. Edit run_template.sh in `$HOME/AToM-OpenMM/examples/RSFE/TYK2-JAK2/scripts` to adapt them to the cluster of choice. + +Each simulation is set to run for 24 hours on 1 GPU. Swapping calculations often require longer run times to reach convergence. More GPUs can be deployed by editing the `run_template.sh` file. + + +### Free Energy Analysis + +The relative binding selectivity free energy between the ligand pair A and B are collected by the `free_energies.sh` script in the complexes directory: +``` +cd $HOME/AToM-OpenMM/examples/RSFE/TYK2-JAK2/complexes +bash ./free_energies.sh +``` + +The `free_energies.sh` script produces the swapping free energy estimate and the statistical uncertainty associated with it. In addition, it will indicate if there are large gaps in the distributions of the binding free energies, which would indicate the calculation has not converged. A plot of the distributions, as well as the free energy profile, are also produced for further analysis. + +Edit the `free_energies.sh` script to change the number of samples discarded. It is customary to discard the first half of total samples. + +If it throws an error named `./analyze.sh: line 34: R: command not found`, please install `r-base` and `UWHAM R package` as follow [installation instructions](https://github.com/Gallicchio-Lab/AToM-OpenMM#installation--usage). + diff --git a/examples/RSFE/TYK2-JAK2/ligands/c41.sdf b/examples/RSFE/TYK2-JAK2/ligands/c41.sdf new file mode 100644 index 0000000..b6814fc --- /dev/null +++ b/examples/RSFE/TYK2-JAK2/ligands/c41.sdf @@ -0,0 +1,74 @@ +1_cpd41 + 3D + Schrodinger Suite 2024-2. + 26 27 0 0 1 0 999 V2000 + 13.2760 -13.0620 22.0340 C 0 0 0 0 0 0 + 12.1370 -12.4170 21.5720 C 0 0 0 0 0 0 + 11.7970 -12.4610 20.2180 C 0 0 0 0 0 0 + 14.7060 -12.9920 27.7390 C 0 0 0 0 0 0 + 13.6610 -12.9300 23.4770 C 0 0 0 0 0 0 + 13.9570 -14.0250 25.6640 C 0 0 0 0 0 0 + 14.0870 -15.2770 26.2900 C 0 0 0 0 0 0 + 14.5140 -15.3480 27.6320 C 0 0 0 0 0 0 + 14.2780 -12.8750 26.4110 C 0 0 0 0 0 0 + 13.5840 -13.9900 24.2990 N 0 0 0 0 0 0 + 14.8050 -14.2230 28.3190 N 0 0 0 0 0 0 + 15.1020 -14.2940 29.2817 H 0 0 0 0 0 0 + 14.1190 -13.7040 21.1270 C 0 0 0 0 0 0 + 15.0110 -11.9570 28.3750 O 0 0 0 0 0 0 + 14.0140 -11.8110 23.8220 O 0 0 0 0 0 0 + 15.6080 -14.5220 21.6930 Cl 0 0 0 0 0 0 + 13.7920 -13.7510 19.7690 C 0 0 0 0 0 0 + 11.0950 -11.5550 22.7400 Cl 0 0 0 0 0 0 + 12.6280 -13.1290 19.3160 C 0 0 0 0 0 0 + 10.8943 -11.9795 19.8720 H 0 0 0 0 0 0 + 13.8601 -16.1803 25.7432 H 0 0 0 0 0 0 + 14.6104 -16.3077 28.1180 H 0 0 0 0 0 0 + 14.1928 -11.8997 25.9551 H 0 0 0 0 0 0 + 13.2314 -14.8716 23.9546 H 0 0 0 0 0 0 + 14.4391 -14.2672 19.0753 H 0 0 0 0 0 0 + 12.3697 -13.1641 18.2679 H 0 0 0 0 0 0 + 1 2 2 0 0 0 + 1 5 1 0 0 0 + 1 13 1 0 0 0 + 2 3 1 0 0 0 + 2 18 1 0 0 0 + 3 19 2 0 0 0 + 3 20 1 0 0 0 + 4 9 1 0 0 0 + 4 11 1 0 0 0 + 4 14 2 0 0 0 + 5 10 1 0 0 0 + 5 15 2 0 0 0 + 6 7 1 0 0 0 + 6 9 2 0 0 0 + 6 10 1 0 0 0 + 7 8 2 0 0 0 + 7 21 1 0 0 0 + 8 11 1 0 0 0 + 8 22 1 0 0 0 + 9 23 1 0 0 0 + 10 24 1 0 0 0 + 11 12 1 0 0 0 + 13 16 1 0 0 0 + 13 17 2 0 0 0 + 17 19 1 0 0 0 + 17 25 1 0 0 0 + 19 26 1 0 0 0 +M END +> +1 + +> +1c41.sdf + +> +/Users/azimis/shpc/lsfe/TYK2_inputs + +> +42 + +> +1c41.1 + +$$$$ diff --git a/examples/RSFE/TYK2-JAK2/scripts/run_template.sh b/examples/RSFE/TYK2-JAK2/scripts/run_template.sh index a24b395..35fcfbb 100644 --- a/examples/RSFE/TYK2-JAK2/scripts/run_template.sh +++ b/examples/RSFE/TYK2-JAK2/scripts/run_template.sh @@ -20,4 +20,5 @@ if [ ! -f ${jobname}_0.xml ]; then fi echo "localhost,0:0,1,CUDA,,/tmp" > nodefile + rbfe_explicit.py ${jobname}_asyncre.cntl diff --git a/examples/RSFE/TYK2-JAK2/scripts/setup-settings.sh b/examples/RSFE/TYK2-JAK2/scripts/setup-settings.sh index f229ca7..c6ea88c 100644 --- a/examples/RSFE/TYK2-JAK2/scripts/setup-settings.sh +++ b/examples/RSFE/TYK2-JAK2/scripts/setup-settings.sh @@ -3,7 +3,7 @@ basename=TYK2-JAK2 #path to AToM -AToM_dir=/nfs/sazimi-d/Dropbox/AToM-OpenMM/AToM-OpenMM +AToM_dir=$HOME/AToM-OpenMM/AToM-OpenMM #Maestro-prepared receptor pdb files receptor1=TYK2 diff --git a/examples/RSFE/TYK2-JAK2/scripts/uwham_analysis.R b/examples/RSFE/TYK2-JAK2/scripts/uwham_analysis.R index 11cacd5..3e8cd3e 100644 --- a/examples/RSFE/TYK2-JAK2/scripts/uwham_analysis.R +++ b/examples/RSFE/TYK2-JAK2/scripts/uwham_analysis.R @@ -75,6 +75,56 @@ function (x, w, xaxis, xmin, xmax, ymax, bar = TRUE, add = FALSE, list(y = y, breaks = xaxis) } + +gappenalty <- function ( pertE, threshold) { + #detect gaps in perturbation energy distribution + #and returns an error penalty + badcount = 0 + lowcountfactor = 0.1 #10% of expected value if uniform distribution + + penalty = 0 + badgap = FALSE + lowgap = FALSE + umax <- max(pertE) + umin <- min(pertE) + nbins <- ceiling((umax-umin)/threshold) + br <- umin + threshold*(0:nbins) + lowcount = lowcountfactor*length(pertE)/nbins + hs <- hist(data1$pertE,plot=FALSE,breaks=br); + cc <- hs$counts[2:(nbins-1)] #remove edges + bad <- (cc <= badcount) + #finds two or more consecutive bad occupancy bins + it <- match(TRUE, bad) + if (! is.na(it) && it+1 <= length(cc)){ + if ( bad[it+1] ) { + badgap = TRUE + } + } + #finds two or more consecutive low occupancy bins + low <- (cc <= lowcount) + it <- match(TRUE, low) + if (! is.na(it) && it+1 <= length(cc)){ + if ( low[it+1] ) { + lowgap = TRUE + } + } + + if ( badgap ) { + penalty <- threshold + }else{ + if(lowgap){ + penalty <- 0.05*threshold + } + } + penalty +} + + +intpenalty <- function ( dg1, dg2, threshold, factor) { + max(0, factor*( max(dg1,dg2)-threshold )) +} + + args <- commandArgs(trailingOnly = F) jobname <- sub("-","",args[length(args)-2]) mintimeid <- strtoi(sub("-","",args[length(args)-1])) @@ -149,15 +199,22 @@ statelabels <- data1$stateid + 1 #runs UWHAM out <- uwham.r(label=statelabels, logQ=neg.pot,ufactormax=1,ufactormin=1) ze <- matrix(out$ze, nrow=mtempt, ncol=mlam) --ze/bet +dgprofile1 <- -ze/bet +dgprofile1 ve <- matrix(out$ve, nrow=mtempt, ncol=mlam) -sqrt(ve)/bet +ddgprofile1 <- sqrt(ve)/bet +ddgprofile1 dgbind1 <- (-ze[,mlam]/bet[]) - (-ze[,1]/bet[]) ddgbind1 <- sqrt(ve[,mlam]+ve[,1])/bet +#detect gap in perturbation energy distribution +threshold <- nstates/bet #something like kT/DeltaLambda +pnltygap1 <- gappenalty(data1$pertE, threshold) + dgbind1 ddgbind1 +pnltygap1 #estimate p0(u) lambda0 for leg 1 @@ -178,12 +235,12 @@ p0 <- gm %*% (out$W[,1]/N) ggd <- function(x, y, norm, s2){ ((y-x)/s2)*norm*exp(-(x-y)**2/(2.*s2)) } gm <- outer(ux, data1$pertE, FUN = ggd, norm, sigma2) dp0 <- gm %*% (out$W[,1]/N) -plot(ux, log(p0), type = "l") -plot(ux, (dp0/p0)/bet, type="l") -dbf1 <- dbias.fcn(ux, 0., 0.4, 0.1, 105., 0.) -dbf2 <- dbias.fcn(ux, 0., 0.5, 0.1, 100., 0.) -lines(ux, dbf1) -lines(ux, dbf2) +plot(ux, log(p0), type = "l", xlab = "u [kcal/mol]", ylab="log(p0(u))") +plot(ux, (dp0/p0)/bet, type="l", xlab = "u [kcal/mol]", ylab="lmbf(u) = kT*dlog(p0)/du") +for ( i in leg1stateids ) { + dbf <- dbias.fcn(ux, lambda1[i], lambda2[i], alpha[i], u0[i], w0[i]) + lines(ux, dbf) +} @@ -237,17 +294,24 @@ statelabels <- nstates - data1$stateid #runs UWHAM out <- uwham.r(label=statelabels, logQ=neg.pot,ufactormax=1,ufactormin=1) ze <- matrix(out$ze, nrow=mtempt, ncol=mlam) --ze/bet +dgprofile2 <- -ze/bet +dgprofile2 ve <- matrix(out$ve, nrow=mtempt, ncol=mlam) -sqrt(ve)/bet +ddgprofile2 <- sqrt(ve)/bet +ddgprofile2 dgbind2 <- (-ze[,mlam]/bet[]) - (-ze[,1]/bet[]) ddgbind2 <- sqrt(ve[,mlam]+ve[,1])/bet +#detect gap in perturbation energy distribution +threshold <- nstates/bet #something like kT/DeltaLambda +ddgbind2 <- ddgbind2 +pnltygap2 <- gappenalty(data1$pertE, threshold) + dgbind2 ddgbind2 - +pnltygap2 #estimate p0(u) lambda0 for leg 2 ux <- seq(from = -20, to = 180, by = 5) @@ -260,18 +324,24 @@ p0 <- gm %*% (out$W[,1]/N) ggd <- function(x, y, norm, s2){ ((y-x)/s2)*norm*exp(-(x-y)**2/(2.*s2)) } gm <- outer(ux, data1$pertE, FUN = ggd, norm, sigma2) dp0 <- gm %*% (out$W[,1]/N) -plot(ux, log(p0), type = "l") -plot(ux, (dp0/p0)/bet, type="l") -dbf1 <- dbias.fcn(ux, 0., 0.4, 0.1, 105., 0.) -dbf2 <- dbias.fcn(ux, 0., 0.5, 0.1, 100., 0.) -lines(ux, dbf1) -lines(ux, dbf2) +plot(ux, log(p0), type = "l", xlab = "u [kcal/mol]", ylab="log(p0(u))") +plot(ux, (dp0/p0)/bet, type="l", xlab = "u [kcal/mol]", ylab="lmbf(u) = kT*dlog(p0)/du") +for ( i in leg2stateids ) { + dbf <- dbias.fcn(ux, lambda1[i], lambda2[i], alpha[i], u0[i], w0[i]) + lines(ux, dbf) +} #free energy difference dgb <- dgbind1 - dgbind2 +ddgbind1 <- ddgbind1 + pnltygap1 +ddgbind2 <- ddgbind2 + pnltygap2 ddgb <- sqrt(ddgbind2*ddgbind2 + ddgbind1*ddgbind1) +#apply penalty for large alchemical intermediate free energy. 0.1 kcal/mol +#additional error estimate for each kcal/mol beyond 30 kcal/mol +pnltyint <- intpenalty(dgbind1, dgbind2, 40.0, 0.05) +ddgb <- ddgb + pnltyint maxsamples <- min(maxtimeid, samplesperreplica) -result <- sprintf("DDGb = %f +- %f range %d %d", dgb, ddgb, mintimeid, maxsamples) +result <- sprintf("DDGb = %f +- %f range %d %d maxDGint %f penaltyoverlap %f penaltyintermediate %f", dgb, min(5.0,ddgb), mintimeid, maxsamples, max(dgbind1, dgbind2), max(pnltygap1,pnltygap2), pnltyint) write(result, "") #noquote(result) @@ -287,3 +357,26 @@ for ( i in nstates:leg2istate ){ outp <- cbind(hs$mids,hs$density); write(t(outp),file=sprintf("p-%d.dat",i-1),ncol=2) } + + +#plot free energy profile +ns1 <- length(leg1stateids) +ns2 <- length(leg2stateids) +ns <- ns1 + ns2 +off <- dgb +#wf1 and wf2 are Wlambda(0) values to remove the artificial non-monotonic +#behavior that cancels out when the two legs are subtracted +wf1 <- dgprofile1 +for ( i in leg1stateids ){ + wf1[i] <- bias.fcn(0., lambda1[i], lambda2[i], alpha[i], u0[i], w0[i]) +} +wf2 <- dgprofile2 +for ( i in 1:ns2 ){ + j <- ns1 + i + wf2[i] <- bias.fcn(0., lambda1[j], lambda2[j], alpha[j], u0[j], w0[j]) +} +g <- c( dgprofile1-wf1, dgprofile2[(ns2-1):1]-wf2[(ns2-1):1]+off) +lmbd <- seq(from = 0., to = 1., length.out = ns1 + ns2 - 1) +plot(lmbd, g, type="l", xlab="lambda", ylab="DDGb(lambda) [kcal/mol]") +outp <- cbind(lmbd,g); +write(t(outp),file="dglambda.dat",ncol=2) From 1275fdb4ae13ef9d4a33f156245315a24ccc61ce Mon Sep 17 00:00:00 2001 From: solmazimi Date: Wed, 24 Sep 2025 23:22:51 -0400 Subject: [PATCH 8/8] Addressed a few more MR comments --- examples/RSFE/TYK2-JAK2/scripts/asyncre_template.cntl | 2 -- make_atm_system_from_rcpt_lig.py | 2 +- 2 files changed, 1 insertion(+), 3 deletions(-) diff --git a/examples/RSFE/TYK2-JAK2/scripts/asyncre_template.cntl b/examples/RSFE/TYK2-JAK2/scripts/asyncre_template.cntl index defa17b..2d983b1 100644 --- a/examples/RSFE/TYK2-JAK2/scripts/asyncre_template.cntl +++ b/examples/RSFE/TYK2-JAK2/scripts/asyncre_template.cntl @@ -25,8 +25,6 @@ LIGAND1_ATOMS = LIGAND2_ATOMS = LIGAND1_CM_ATOMS = LIGAND2_CM_ATOMS = -DISPL0_LIG1 = ' 0.0, 0.0, 0.0 ' -DISPL0_LIG2 = ' 0.0, 0.0, 0.0 ' RCPT_CM_ATOMS = #No binding site restraints for swapping calculations CM_KF = 0.0 diff --git a/make_atm_system_from_rcpt_lig.py b/make_atm_system_from_rcpt_lig.py index 447a723..cdf7995 100644 --- a/make_atm_system_from_rcpt_lig.py +++ b/make_atm_system_from_rcpt_lig.py @@ -408,7 +408,7 @@ def boundingBoxSizes(positions): else: bbox = boundingBoxSizes(rcpt_positions + lig1_positions + lig2_positions) bboxsizes = [ bbox[i][1]-bbox[i][0] for i in range(3) ] -padding = 5. * 1.0*nanometer +padding = 2. * 1.0*nanometer xBoxvec = Vec3((bboxsizes[0]+padding)/nanometer, 0., 0.)*nanometer yBoxvec = Vec3(0.0, (bboxsizes[1]+padding)/nanometer, 0.)*nanometer zBoxvec = Vec3(0.0, 0.0, (bboxsizes[2]+padding)/nanometer)*nanometer