*HEADER DNA 09-JAN-02 1KR8 *TITLE REFINEMENT OF D(GCGAAGC) HAIRPIN STRUCTURE USING ONE-AND *TITLE 2 TWO-BONDS RESIDUAL DIPOLAR COUPLINGS *COMPND MOL_ID: 1; *COMPND 2 MOLECULE: 5'-D(*GP*CP*GP*AP*AP*GP*C)-3'; *COMPND 3 CHAIN: A; *COMPND 4 ENGINEERED: YES *SOURCE MOL_ID: 1; *SOURCE 2 SYNTHETIC: YES; *SOURCE 3 OTHER_DETAILS: THIS SEQUENCE OCCURS NATURALLY IN *SOURCE 4 REPLICATION ORIGINS OF PHAGE PHIX174, IN HERPES SIMPLEX *SOURCE 5 VIRUS, IN E. COLI HEAT-SHOCK GENE AND RRNA GENES. *KEYWDS HAIRPIN, DNA, GA MISMATCH *EXPDTA NMR, 14 STRUCTURES *AUTHOR P.PADRTA, R.STEFL, L.ZIDEK, V.SKLENAR *REVDAT 1 11-DEC-02 1KR8 0 # The atomnumbering does not correspond to the one in 1KR8.pdb. Instead the # atom numbers, as well as atom/residue names, correspond to default # naming/numbering convention in AMBER 6.0, the exception being the NOE # restraints converted by program mardi2amber (search for string "mardi" and # see the note). Nevertheless, all restraints are in SANDER6 readable format. #################################################################### # WC retraints, WC by Saenger # GA sheared mismatch is switched off ################################################################### # # 1 GUA H1 7 CYT N3 1.84 2.04 &rst ixpk= 0, nxpk= 0, iat= 19, 213, r1= 1.34, r2= 1.84, r3= 2.04, r4= 2.54, rk2=32.0, rk3=32.0, ir6=1, ialtd=0, &end # # 1 GUA H21 7 CYT O2 1.75 1.95 &rst ixpk= 0, nxpk= 0, iat= 22, 215, r1= 1.25, r2= 1.75, r3= 1.95, r4= 2.45, &end # # 1 GUA N1 7 CYT N3 2.85 3.05 &rst ixpk= 0, nxpk= 0, iat= 18, 213, r1= 2.35, r2= 2.85, r3= 3.05, r4= 3.55, &end # # 1 GUA O6 7 CYT H42 1.80 2.00 &rst ixpk= 0, nxpk= 0, iat= 17, 212, r1= 1.30, r2= 1.80, r3= 2.00, r4= 2.50, &end # # 1 GUA O6 7 CYT N4 2.81 3.01 &rst ixpk= 0, nxpk= 0, iat= 17, 210, r1= 2.31, r2= 2.81, r3= 3.01, r4= 3.51, &end # # 2 CYT H41 6 GUA O6 1.80 2.00 &rst ixpk= 0, nxpk= 0, iat= 51, 177, r1= 1.30, r2= 1.80, r3= 2.00, r4= 2.50, &end # # 2 CYT N3 6 GUA H1 1.84 2.04 &rst ixpk= 0, nxpk= 0, iat= 53, 179, r1= 1.34, r2= 1.84, r3= 2.04, r4= 2.54, &end # # 2 CYT N3 6 GUA N1 2.85 3.05 &rst ixpk= 0, nxpk= 0, iat= 53, 178, r1= 2.35, r2= 2.85, r3= 3.05, r4= 3.55, &end # # 2 CYT N4 6 GUA O6 2.81 3.01 &rst ixpk= 0, nxpk= 0, iat= 50, 177, r1= 2.31, r2= 2.81, r3= 3.01, r4= 3.51, &end # # 2 CYT O2 6 GUA H21 1.75 1.95 &rst ixpk= 0, nxpk= 0, iat= 55, 182, r1= 1.25, r2= 1.75, r3= 1.95, r4= 2.45, &end # # 3 GUA H22 5 ADE N7 1.80 2.10 # &rst # ixpk= 0, nxpk= 0, iat= 86, 142, r1= 1.30, r2= 1.80, r3= 2.10, r4= 2.60, &end # # 3 GUA N2 5 ADE N7 2.80 3.10 # &rst # ixpk= 0, nxpk= 0, iat= 84, 142, r1= 2.30, r2= 2.80, r3= 3.10, r4= 3.60, &end # # 3 GUA N3 5 ADE H62 1.80 2.10 # &rst # ixpk= 0, nxpk= 0, iat= 87, 147, r1= 1.30, r2= 1.80, r3= 2.10, r4= 2.60, &end # # 3 GUA N3 5 ADE N6 2.80 3.10 # &rst # ixpk= 0, nxpk= 0, iat= 87, 145, r1= 2.30, r2= 2.80, r3= 3.10, r4= 3.60, &end ################################################################################ # # NOE distances # converted by mardi2amber (atomnumbers (iat=...) are in fact residue numbers # but SANDER 6.0 seems to be happy with the atomnames) # # distance constraint number 1 &rst iat = 1, 1, iresid = 1, atnam(1)='H1''',atnam(2)='H2''1', r1 = 1.306, r2 = 1.806, r3 = 3.161, r4 = 3.661, rk2 =32.000, rk3 =32.000, &end # distance constraint number 2 &rst iat = 1, 1, iresid = 1, atnam(1)='H1''',atnam(2)='H2''2', r1 = 1.082, r2 = 1.582, r3 = 2.769, r4 = 3.269, rk2 =32.000, rk3 =32.000, &end # distance constraint number 3 &rst iat = 1, 1, iresid = 1, atnam(1)='H1''',atnam(2)='H3''', r1 = 2.127, r2 = 2.627, r3 = 4.598, r4 = 5.098, rk2 =32.000, rk3 =32.000, &end # distance constraint number 4 &rst iat = 1, 1, iresid = 1, atnam(1)='H1''',atnam(2)='H4''', r1 = 2.243, r2 = 2.743, r3 = 4.800, r4 = 5.300, rk2 =32.000, rk3 =32.000, &end # distance constraint number 5 &rst iat = 1, 2, iresid = 1, atnam(1)='H1''',atnam(2)='H5', r1 = 3.213, r2 = 3.713, r3 = 6.499, r4 = 6.999, rk2 =32.000, rk3 =32.000, &end # distance constraint number 6 &rst iat = 1, 1, iresid = 1, atnam(1)='H3''',atnam(2)='H2''1', r1 = 1.240, r2 = 1.740, r3 = 3.045, r4 = 3.545, rk2 =32.000, rk3 =32.000, &end # distance constraint number 7 &rst iat = 1, 1, iresid = 1, atnam(1)='H3''',atnam(2)='H2''2', r1 = 1.473, r2 = 1.973, r3 = 3.454, r4 = 3.954, rk2 =32.000, rk3 =32.000, &end # distance constraint number 8 &rst iat = 1, 1, iresid = 1, atnam(1)='H8',atnam(2)='H1''', r1 = 2.190, r2 = 2.690, r3 = 4.708, r4 = 5.208, rk2 =32.000, rk3 =32.000, &end # distance constraint number 9 &rst iat = 1, 1, iresid = 1, atnam(1)='H8',atnam(2)='H2''1', r1 = 1.271, r2 = 1.771, r3 = 3.100, r4 = 3.600, rk2 =32.000, rk3 =32.000, &end # distance constraint number 10 &rst iat = 1, 1, iresid = 1, atnam(1)='H8',atnam(2)='H2''2', r1 = 1.962, r2 = 2.462, r3 = 4.309, r4 = 4.809, rk2 =32.000, rk3 =32.000, &end # distance constraint number 11 &rst iat = 1, 1, iresid = 1, atnam(1)='H8',atnam(2)='H3''', r1 = 2.757, r2 = 3.257, r3 = 5.700, r4 = 6.200, rk2 =32.000, rk3 =32.000, &end # distance constraint number 12 &rst iat = 1, 1, iresid = 1, atnam(1)='H8',atnam(2)='H4''', r1 = 4.617, r2 = 5.117, r3 = 8.954, r4 = 9.454, rk2 =32.000, rk3 =32.000, &end # distance constraint number 13 &rst iat = 1, 2, iresid = 1, atnam(1)='H8',atnam(2)='H5', r1 = 2.490, r2 = 2.990, r3 = 5.233, r4 = 5.733, rk2 =32.000, rk3 =32.000, &end # distance constraint number 14 &rst iat = 1, 2, iresid = 1, atnam(1)='H8',atnam(2)='H6', r1 = 2.973, r2 = 3.473, r3 = 6.078, r4 = 6.578, rk2 =32.000, rk3 =32.000, &end # distance constraint number 15 &rst iat = 2, 2, iresid = 1, atnam(1)='H1''',atnam(2)='H2''1', r1 = 1.402, r2 = 1.902, r3 = 3.328, r4 = 3.828, rk2 =32.000, rk3 =32.000, &end # distance constraint number 16 &rst iat = 2, 2, iresid = 1, atnam(1)='H1''',atnam(2)='H3''', r1 = 2.491, r2 = 2.991, r3 = 5.234, r4 = 5.734, rk2 =32.000, rk3 =32.000, &end # distance constraint number 17 &rst iat = 2, 2, iresid = 1, atnam(1)='H1''',atnam(2)='H4''', r1 = 1.889, r2 = 2.389, r3 = 4.180, r4 = 4.680, rk2 =32.000, rk3 =32.000, &end # distance constraint number 18 &rst iat = 2, 3, iresid = 1, atnam(1)='H1''',atnam(2)='H4''', r1 = 2.492, r2 = 2.992, r3 = 5.236, r4 = 5.736, rk2 =32.000, rk3 =32.000, &end # distance constraint number 19 &rst iat = 2, 2, iresid = 1, atnam(1)='H2''2',atnam(2)='H2''1', r1 = 0.900, r2 = 1.400, r3 = 2.450, r4 = 2.950, rk2 =32.000, rk3 =32.000, &end # distance constraint number 20 &rst iat = 2, 2, iresid = 1, atnam(1)='H3''',atnam(2)='H2''1', r1 = 1.582, r2 = 2.082, r3 = 3.644, r4 = 4.144, rk2 =32.000, rk3 =32.000, &end # distance constraint number 21 &rst iat = 2, 2, iresid = 1, atnam(1)='H3''',atnam(2)='H2''2', r1 = 1.502, r2 = 2.002, r3 = 3.504, r4 = 4.004, rk2 =32.000, rk3 =32.000, &end # distance constraint number 22 &rst iat = 2, 1, iresid = 1, atnam(1)='H5',atnam(2)='H2''1', r1 = 1.952, r2 = 2.452, r3 = 4.290, r4 = 4.790, rk2 =32.000, rk3 =32.000, &end # distance constraint number 23 &rst iat = 2, 1, iresid = 1, atnam(1)='H5',atnam(2)='H2''2', r1 = 2.181, r2 = 2.681, r3 = 4.692, r4 = 5.192, rk2 =32.000, rk3 =32.000, &end # distance constraint number 24 &rst iat = 2, 1, iresid = 1, atnam(1)='H6',atnam(2)='H1''', r1 = 2.079, r2 = 2.579, r3 = 4.513, r4 = 5.013, rk2 =32.000, rk3 =32.000, &end # distance constraint number 25 &rst iat = 2, 1, iresid = 1, atnam(1)='H6',atnam(2)='H2''1', r1 = 1.675, r2 = 2.175, r3 = 3.805, r4 = 4.305, rk2 =32.000, rk3 =32.000, &end # distance constraint number 26 &rst iat = 2, 1, iresid = 1, atnam(1)='H6',atnam(2)='H2''2', r1 = 1.270, r2 = 1.770, r3 = 3.097, r4 = 3.597, rk2 =32.000, rk3 =32.000, &end # distance constraint number 27 &rst iat = 2, 2, iresid = 1, atnam(1)='H6',atnam(2)='H1''', r1 = 2.115, r2 = 2.615, r3 = 4.576, r4 = 5.076, rk2 =32.000, rk3 =32.000, &end # distance constraint number 28 &rst iat = 2, 2, iresid = 1, atnam(1)='H6',atnam(2)='H2''1', r1 = 1.314, r2 = 1.814, r3 = 3.175, r4 = 3.675, rk2 =32.000, rk3 =32.000, &end # distance constraint number 29 &rst iat = 2, 2, iresid = 1, atnam(1)='H6',atnam(2)='H2''2', r1 = 1.594, r2 = 2.094, r3 = 3.664, r4 = 4.164, rk2 =32.000, rk3 =32.000, &end # distance constraint number 30 &rst iat = 2, 2, iresid = 1, atnam(1)='H6',atnam(2)='H3''', r1 = 2.317, r2 = 2.817, r3 = 4.930, r4 = 5.430, rk2 =32.000, rk3 =32.000, &end # distance constraint number 31 &rst iat = 2, 2, iresid = 1, atnam(1)='H6',atnam(2)='H4''', r1 = 3.045, r2 = 3.545, r3 = 6.204, r4 = 6.704, rk2 =32.000, rk3 =32.000, &end # distance constraint number 32 &rst iat = 2, 2, iresid = 1, atnam(1)='H6',atnam(2)='H5', r1 = 0.892, r2 = 1.392, r3 = 2.436, r4 = 2.936, rk2 =32.000, rk3 =32.000, &end # distance constraint number 33 &rst iat = 3, 3, iresid = 1, atnam(1)='H1''',atnam(2)='H2''1', r1 = 1.560, r2 = 2.060, r3 = 3.605, r4 = 4.105, rk2 =32.000, rk3 =32.000, &end # distance constraint number 34 &rst iat = 3, 3, iresid = 1, atnam(1)='H1''',atnam(2)='H2''2', r1 = 1.276, r2 = 1.776, r3 = 3.107, r4 = 3.607, rk2 =32.000, rk3 =32.000, &end # distance constraint number 35 &rst iat = 3, 3, iresid = 1, atnam(1)='H1''',atnam(2)='H4''', r1 = 2.304, r2 = 2.804, r3 = 4.907, r4 = 5.407, rk2 =32.000, rk3 =32.000, &end # distance constraint number 36 &rst iat = 3, 3, iresid = 1, atnam(1)='H3''',atnam(2)='H4''', r1 = 1.734, r2 = 2.234, r3 = 3.909, r4 = 4.409, rk2 =32.000, rk3 =32.000, &end # distance constraint number 37 &rst iat = 3, 3, iresid = 1, atnam(1)='H4''',atnam(2)='H2''1', r1 = 2.138, r2 = 2.638, r3 = 4.617, r4 = 5.117, rk2 =32.000, rk3 =32.000, &end # distance constraint number 38 &rst iat = 3, 3, iresid = 1, atnam(1)='H4''',atnam(2)='H2''2', r1 = 2.475, r2 = 2.975, r3 = 5.206, r4 = 5.706, rk2 =32.000, rk3 =32.000, &end # distance constraint number 39 &rst iat = 3, 2, iresid = 1, atnam(1)='H8',atnam(2)='H1''', r1 = 3.343, r2 = 3.843, r3 = 6.725, r4 = 7.225, rk2 =32.000, rk3 =32.000, &end # distance constraint number 40 &rst iat = 3, 2, iresid = 1, atnam(1)='H8',atnam(2)='H2''1', r1 = 1.982, r2 = 2.482, r3 = 4.344, r4 = 4.844, rk2 =32.000, rk3 =32.000, &end # distance constraint number 41 &rst iat = 3, 2, iresid = 1, atnam(1)='H8',atnam(2)='H2''2', r1 = 1.646, r2 = 2.146, r3 = 3.756, r4 = 4.256, rk2 =32.000, rk3 =32.000, &end # distance constraint number 42 &rst iat = 3, 2, iresid = 1, atnam(1)='H8',atnam(2)='H3''', r1 = 2.892, r2 = 3.392, r3 = 5.936, r4 = 6.436, rk2 =32.000, rk3 =32.000, &end # distance constraint number 43 &rst iat = 3, 2, iresid = 1, atnam(1)='H8',atnam(2)='H6', r1 = 2.784, r2 = 3.284, r3 = 5.746, r4 = 6.246, rk2 =32.000, rk3 =32.000, &end # distance constraint number 44 &rst iat = 3, 3, iresid = 1, atnam(1)='H8',atnam(2)='H1''', r1 = 2.317, r2 = 2.817, r3 = 4.929, r4 = 5.429, rk2 =32.000, rk3 =32.000, &end # distance constraint number 45 &rst iat = 3, 3, iresid = 1, atnam(1)='H8',atnam(2)='H2''1', r1 = 1.390, r2 = 1.890, r3 = 3.308, r4 = 3.808, rk2 =32.000, rk3 =32.000, &end # distance constraint number 46 &rst iat = 3, 3, iresid = 1, atnam(1)='H8',atnam(2)='H2''2', r1 = 1.793, r2 = 2.293, r3 = 4.012, r4 = 4.512, rk2 =32.000, rk3 =32.000, &end # distance constraint number 47 &rst iat = 3, 3, iresid = 1, atnam(1)='H8',atnam(2)='H3''', r1 = 2.510, r2 = 3.010, r3 = 5.268, r4 = 5.768, rk2 =32.000, rk3 =32.000, &end # distance constraint number 48 &rst iat = 3, 3, iresid = 1, atnam(1)='H8',atnam(2)='H4''', r1 = 3.976, r2 = 4.476, r3 = 7.833, r4 = 8.333, rk2 =32.000, rk3 =32.000, &end # distance constraint number 49 &rst iat = 4, 4, iresid = 1, atnam(1)='H1''',atnam(2)='H3''', r1 = 2.994, r2 = 3.494, r3 = 6.114, r4 = 6.614, rk2 =32.000, rk3 =32.000, &end # distance constraint number 50 &rst iat = 4, 4, iresid = 1, atnam(1)='H1''',atnam(2)='H4''', r1 = 1.502, r2 = 2.002, r3 = 3.503, r4 = 4.003, rk2 =32.000, rk3 =32.000, &end # distance constraint number 51 &rst iat = 4, 4, iresid = 1, atnam(1)='H3''',atnam(2)='H4''', r1 = 1.581, r2 = 2.081, r3 = 3.641, r4 = 4.141, rk2 =32.000, rk3 =32.000, &end # distance constraint number 52 &rst iat = 4, 3, iresid = 1, atnam(1)='H8',atnam(2)='H1''', r1 = 1.714, r2 = 2.214, r3 = 3.875, r4 = 4.375, rk2 =32.000, rk3 =32.000, &end # distance constraint number 53 &rst iat = 4, 3, iresid = 1, atnam(1)='H8',atnam(2)='H2''1', r1 = 2.232, r2 = 2.732, r3 = 4.781, r4 = 5.281, rk2 =32.000, rk3 =32.000, &end # distance constraint number 54 &rst iat = 4, 3, iresid = 1, atnam(1)='H8',atnam(2)='H2''2', r1 = 1.781, r2 = 2.281, r3 = 3.992, r4 = 4.492, rk2 =32.000, rk3 =32.000, &end # distance constraint number 55 &rst iat = 4, 3, iresid = 1, atnam(1)='H8',atnam(2)='H3''', r1 = 2.951, r2 = 3.451, r3 = 6.039, r4 = 6.539, rk2 =32.000, rk3 =32.000, &end # distance constraint number 56 &rst iat = 4, 3, iresid = 1, atnam(1)='H8',atnam(2)='H4''', r1 = 4.867, r2 = 5.367, r3 = 9.393, r4 = 9.893, rk2 =32.000, rk3 =32.000, &end # distance constraint number 57 &rst iat = 4, 4, iresid = 1, atnam(1)='H8',atnam(2)='H1''', r1 = 2.047, r2 = 2.547, r3 = 4.458, r4 = 4.958, rk2 =32.000, rk3 =32.000, &end # distance constraint number 58 &rst iat = 4, 4, iresid = 1, atnam(1)='H8',atnam(2)='H2''1', r1 = 1.268, r2 = 1.768, r3 = 3.094, r4 = 3.594, rk2 =32.000, rk3 =32.000, &end # distance constraint number 59 &rst iat = 4, 4, iresid = 1, atnam(1)='H8',atnam(2)='H2''2', r1 = 1.662, r2 = 2.162, r3 = 3.784, r4 = 4.284, rk2 =32.000, rk3 =32.000, &end # distance constraint number 60 &rst iat = 4, 4, iresid = 1, atnam(1)='H8',atnam(2)='H3''', r1 = 2.674, r2 = 3.174, r3 = 5.554, r4 = 6.054, rk2 =32.000, rk3 =32.000, &end # distance constraint number 61 &rst iat = 4, 4, iresid = 1, atnam(1)='H8',atnam(2)='H4''', r1 = 3.599, r2 = 4.099, r3 = 7.173, r4 = 7.673, rk2 =32.000, rk3 =32.000, &end # distance constraint number 62 &rst iat = 5, 5, iresid = 1, atnam(1)='H1''',atnam(2)='H3''', r1 = 2.737, r2 = 3.237, r3 = 5.665, r4 = 6.165, rk2 =32.000, rk3 =32.000, &end # distance constraint number 63 &rst iat = 5, 5, iresid = 1, atnam(1)='H1''',atnam(2)='H4''', r1 = 1.580, r2 = 2.080, r3 = 3.640, r4 = 4.140, rk2 =32.000, rk3 =32.000, &end # distance constraint number 64 &rst iat = 5, 6, iresid = 1, atnam(1)='H1''',atnam(2)='H1''', r1 = 2.395, r2 = 2.895, r3 = 5.067, r4 = 5.567, rk2 =32.000, rk3 =32.000, &end # distance constraint number 65 &rst iat = 5, 5, iresid = 1, atnam(1)='H3''',atnam(2)='H4''', r1 = 1.508, r2 = 2.008, r3 = 3.514, r4 = 4.014, rk2 =32.000, rk3 =32.000, &end # distance constraint number 66 &rst iat = 5, 4, iresid = 1, atnam(1)='H8',atnam(2)='H1''', r1 = 2.874, r2 = 3.374, r3 = 5.904, r4 = 6.404, rk2 =32.000, rk3 =32.000, &end # distance constraint number 67 &rst iat = 5, 4, iresid = 1, atnam(1)='H8',atnam(2)='H4''', r1 = 2.981, r2 = 3.481, r3 = 6.092, r4 = 6.592, rk2 =32.000, rk3 =32.000, &end # distance constraint number 68 &rst iat = 6, 6, iresid = 1, atnam(1)='H1''',atnam(2)='H3''', r1 = 2.634, r2 = 3.134, r3 = 5.485, r4 = 5.985, rk2 =32.000, rk3 =32.000, &end # distance constraint number 69 &rst iat = 6, 6, iresid = 1, atnam(1)='H1''',atnam(2)='H4''', r1 = 2.017, r2 = 2.517, r3 = 4.405, r4 = 4.905, rk2 =32.000, rk3 =32.000, &end # distance constraint number 70 &rst iat = 6, 6, iresid = 1, atnam(1)='H3''',atnam(2)='H4''', r1 = 1.831, r2 = 2.331, r3 = 4.080, r4 = 4.580, rk2 =32.000, rk3 =32.000, &end # distance constraint number 71 &rst iat = 6, 6, iresid = 1, atnam(1)='H8',atnam(2)='H1''', r1 = 2.338, r2 = 2.838, r3 = 4.966, r4 = 5.466, rk2 =32.000, rk3 =32.000, &end # distance constraint number 72 &rst iat = 6, 6, iresid = 1, atnam(1)='H8',atnam(2)='H3''', r1 = 2.466, r2 = 2.966, r3 = 5.191, r4 = 5.691, rk2 =32.000, rk3 =32.000, &end # distance constraint number 73 &rst iat = 6, 6, iresid = 1, atnam(1)='H8',atnam(2)='H4''', r1 = 3.755, r2 = 4.255, r3 = 7.447, r4 = 7.947, rk2 =32.000, rk3 =32.000, &end # distance constraint number 74 &rst iat = 6, 7, iresid = 1, atnam(1)='H8',atnam(2)='H5', r1 = 2.654, r2 = 3.154, r3 = 5.519, r4 = 6.019, rk2 =32.000, rk3 =32.000, &end # distance constraint number 75 &rst iat = 6, 7, iresid = 1, atnam(1)='H8',atnam(2)='H6', r1 = 3.058, r2 = 3.558, r3 = 6.227, r4 = 6.727, rk2 =32.000, rk3 =32.000, &end # distance constraint number 76 &rst iat = 7, 6, iresid = 1, atnam(1)='H1''',atnam(2)='H1''', r1 = 2.276, r2 = 2.776, r3 = 4.858, r4 = 5.358, rk2 =32.000, rk3 =32.000, &end # distance constraint number 77 &rst iat = 7, 7, iresid = 1, atnam(1)='H1''',atnam(2)='H2''1', r1 = 1.300, r2 = 1.800, r3 = 3.150, r4 = 3.650, rk2 =32.000, rk3 =32.000, &end # distance constraint number 78 &rst iat = 7, 7, iresid = 1, atnam(1)='H1''',atnam(2)='H2''2', r1 = 1.104, r2 = 1.604, r3 = 2.807, r4 = 3.307, rk2 =32.000, rk3 =32.000, &end # distance constraint number 79 &rst iat = 7, 7, iresid = 1, atnam(1)='H1''',atnam(2)='H3''', r1 = 1.716, r2 = 2.216, r3 = 3.878, r4 = 4.378, rk2 =32.000, rk3 =32.000, &end # distance constraint number 80 &rst iat = 7, 7, iresid = 1, atnam(1)='H1''',atnam(2)='H4''', r1 = 2.101, r2 = 2.601, r3 = 4.552, r4 = 5.052, rk2 =32.000, rk3 =32.000, &end # distance constraint number 81 &rst iat = 7, 7, iresid = 1, atnam(1)='H3''',atnam(2)='H2''1', r1 = 1.023, r2 = 1.523, r3 = 2.666, r4 = 3.166, rk2 =32.000, rk3 =32.000, &end # distance constraint number 82 &rst iat = 7, 7, iresid = 1, atnam(1)='H3''',atnam(2)='H2''2', r1 = 1.133, r2 = 1.633, r3 = 2.858, r4 = 3.358, rk2 =32.000, rk3 =32.000, &end # distance constraint number 83 &rst iat = 7, 6, iresid = 1, atnam(1)='H6',atnam(2)='H1''', r1 = 1.756, r2 = 2.256, r3 = 3.948, r4 = 4.448, rk2 =32.000, rk3 =32.000, &end # distance constraint number 84 &rst iat = 7, 7, iresid = 1, atnam(1)='H6',atnam(2)='H1''', r1 = 2.039, r2 = 2.539, r3 = 4.443, r4 = 4.943, rk2 =32.000, rk3 =32.000, &end # distance constraint number 85 &rst iat = 7, 7, iresid = 1, atnam(1)='H6',atnam(2)='H2''1', r1 = 1.620, r2 = 2.120, r3 = 3.711, r4 = 4.211, rk2 =32.000, rk3 =32.000, &end # distance constraint number 86 &rst iat = 7, 7, iresid = 1, atnam(1)='H6',atnam(2)='H2''2', r1 = 2.263, r2 = 2.763, r3 = 4.836, r4 = 5.336, rk2 =32.000, rk3 =32.000, &end # distance constraint number 87 &rst iat = 7, 7, iresid = 1, atnam(1)='H6',atnam(2)='H3''', r1 = 2.079, r2 = 2.579, r3 = 4.514, r4 = 5.014, rk2 =32.000, rk3 =32.000, &end # distance constraint number 88 &rst iat = 7, 7, iresid = 1, atnam(1)='H6',atnam(2)='H4''', r1 = 3.329, r2 = 3.829, r3 = 6.700, r4 = 7.200, rk2 =32.000, rk3 =32.000, &end # distance constraint number 89 &rst iat = 7, 7, iresid = 1, atnam(1)='H6',atnam(2)='H5', r1 = 0.903, r2 = 1.403, r3 = 2.455, r4 = 2.955, rk2 =32.000, rk3 =32.000, &end # end of mardi2amber output ######################################################################### # torsions # 1 GUA EPSLN: (1 DG5 C4')-(1 DG5 C3')-(1 DG5 O3')-(2 DC P) 150.0 210.0 &rst iat = 6, 26, 31, 32, r1 = 149.0, r2 = 150.0, r3 = 210.0, r4 = 211.0, rk2 = 500.0, rk3 = 500.0, &end # 2 CYT EPSLN: (2 DC C4')-(2 DC C3')-(2 DC O3')-(3 DG P) 150.0 210.0 &rst iat = 39, 56, 61, 62, r1 = 149.0, r2 = 150.0, r3 = 210.0, r4 = 211.0, &end # 4 ADE EPSLN: (4 DA C4')-(4 DA C3')-(4 DA O3')-(5 DA P) 150.0 210.0 &rst iat = 102, 121, 126, 127, r1 = 149.0, r2 = 150.0, r3 = 210.0, r4 = 211.0, &end # 5 ADE EPSLN: (5 DA C4')-(5 DA C3')-(5 DA O3')-(6 DG P) 150.0 210.0 &rst iat = 134, 153, 158, 159, r1 = 149.0, r2 = 150.0, r3 = 210.0, r4 = 211.0, &end # 6 GUA EPSLN: (6 DG C4')-(6 DG C3')-(6 DG O3')-(7 DC3 P) 150.0 210.0 &rst iat = 166, 186, 191, 192, r1 = 149.0, r2 = 150.0, r3 = 210.0, r4 = 211.0, &end # 2 CYT BETA: (2 DC P)-(2 DC O5')-(2 DC C5')-(2 DC C4') 150.0 210.0 &rst iat = 32, 35, 36, 39, r1 = 149.0, r2 = 150.0, r3 = 210.0, r4 = 211.0, &end # 3 GUA BETA: (3 DG P)-(3 DG O5')-(3 DG C5')-(3 DG C4') 150.0 210.0 &rst iat = 62, 65, 66, 69, r1 = 149.0, r2 = 150.0, r3 = 210.0, r4 = 211.0, &end # 4 ADE BETA: (4 DA P)-(4 DA O5')-(4 DA C5')-(4 DA C4') 150.0 210.0 &rst iat = 95, 98, 99, 102, r1 = 149.0, r2 = 150.0, r3 = 210.0, r4 = 211.0, &end # 5 ADE BETA: (5 DA P)-(5 DA O5')-(5 DA C5')-(5 DA C4') 150.0 210.0 &rst iat = 127, 130, 131, 134, r1 = 149.0, r2 = 150.0, r3 = 210.0, r4 = 211.0, &end # 6 GUA BETA: (6 DG P)-(6 DG O5')-(6 DG C5')-(6 DG C4') 150.0 210.0 &rst iat = 159, 162, 163, 166, r1 = 149.0, r2 = 150.0, r3 = 210.0, r4 = 211.0, &end # 7 CYT BETA: (7 DC3 P)-(7 DC3 O5')-(7 DC3 C5')-(7 DC3 C4') 150.0 210.0 &rst iat = 192, 195, 196, 199, r1 = 149.0, r2 = 150.0, r3 = 210.0, r4 = 211.0, &end # 2 CYT GAMMA: (2 DC O5')-(2 DC C5')-(2 DC C4')-(2 DC C3') 25.0 85.0 &rst iat = 35, 36, 39, 56, r1 = 24.0, r2 = 25.0, r3 = 85.0, r4 = 86.0, &end # 3 GUA GAMMA: (3 DG O5')-(3 DG C5')-(3 DG C4')-(3 DG C3') 25.0 85.0 &rst iat = 65, 66, 69, 89, r1 = 24.0, r2 = 25.0, r3 = 85.0, r4 = 86.0, &end # 4 ADE GAMMA: (4 DA O5')-(4 DA C5')-(4 DA C4')-(4 DA C3') 25.0 85.0 &rst iat = 98, 99, 102, 121, r1 = 24.0, r2 = 25.0, r3 = 85.0, r4 = 86.0, &end # 5 ADE GAMMA: (5 DA O5')-(5 DA C5')-(5 DA C4')-(5 DA C3') 130.0 230.0 &rst iat = 130, 131, 134, 153, r1 = 129.0, r2 = 130.0, r3 = 230.0, r4 = 231.0, &end # 6 GUA GAMMA: (6 DG O5')-(6 DG C5')-(6 DG C4')-(6 DG C3') 25.0 85.0 &rst iat = 162, 163, 166, 186, r1 = 24.0, r2 = 25.0, r3 = 85.0, r4 = 86.0, &end # 7 CYT GAMMA: (7 DC3 O5')-(7 DC3 C5')-(7 DC3 C4')-(7 DC3 C3') 25.0 85.0 &rst iat = 195, 196, 199, 216, r1 = 24.0, r2 = 25.0, r3 = 85.0, r4 = 86.0, &end # 1 GUA NU0: (1 DG5 C4')-(1 DG5 O4')-(1 DG5 C1')-(1 DG5 C2') 342.0 359.1 &rst iat = 6, 8, 9, 28, r1 = 341.0, r2 = 342.0, r3 = 359.1, r4 = 360.1, &end # 1 GUA NU1: (1 DG5 O4')-(1 DG5 C1')-(1 DG5 C2')-(1 DG5 C3') 25.4 30.8 &rst iat = 8, 9, 28, 26, r1 = 24.4, r2 = 25.4, r3 = 30.8, r4 = 31.8, &end # 1 GUA NU2: (1 DG5 C1')-(1 DG5 C2')-(1 DG5 C3')-(1 DG5 C4') 318.8 331.3 &rst iat = 9, 28, 26, 6, r1 = 317.8, r2 = 318.8, r3 = 331.3, r4 = 332.3, &end # 1 GUA NU3: (1 DG5 C2')-(1 DG5 C3')-(1 DG5 C4')-(1 DG5 O4') 18.1 39.7 &rst iat = 28, 26, 6, 8, r1 = 17.1, r2 = 18.1, r3 = 39.7, r4 = 40.7, &end # 1 GUA NU4: (1 DG5 C3')-(1 DG5 C4')-(1 DG5 O4')-(1 DG5 C1') 336.0 359.4 &rst iat = 26, 6, 8, 9, r1 = 335.0, r2 = 336.0, r3 = 359.4, r4 = 360.4, &end # 2 CYT NU0: (2 DC C4')-(2 DC O4')-(2 DC C1')-(2 DC C2') 316.8 328.9 &rst iat = 39, 41, 42, 58, r1 = 315.8, r2 = 316.8, r3 = 328.9, r4 = 329.9, &end # 2 CYT NU1: (2 DC O4')-(2 DC C1')-(2 DC C2')-(2 DC C3') 38.3 42.2 &rst iat = 41, 42, 58, 56, r1 = 37.3, r2 = 38.3, r3 = 42.2, r4 = 43.2, &end # 2 CYT NU2: (2 DC C1')-(2 DC C2')-(2 DC C3')-(2 DC C4') 328.0 335.0 &rst iat = 42, 58, 56, 39, r1 = 327.0, r2 = 328.0, r3 = 335.0, r4 = 336.0, &end # 2 CYT NU3: (2 DC C2')-(2 DC C3')-(2 DC C4')-(2 DC O4') -1.6 12.7 &rst iat = 58, 56, 39, 41, r1 = -2.6, r2 = -1.6, r3 = 12.7, r4 = 13.7, &end # 2 CYT NU4: (2 DC C3')-(2 DC C4')-(2 DC O4')-(2 DC C1') 11.4 27.7 &rst iat = 56, 39, 41, 42, r1 = 10.4, r2 = 11.4, r3 = 27.7, r4 = 28.7, &end # 3 GUA NU0: (3 DG C4')-(3 DG O4')-(3 DG C1')-(3 DG C2') 332.2 350.1 &rst iat = 69, 71, 72, 91, r1 = 331.2, r2 = 332.2, r3 = 350.1, r4 = 351.1, &end # 3 GUA NU1: (3 DG O4')-(3 DG C1')-(3 DG C2')-(3 DG C3') 31.6 41.0 &rst iat = 71, 72, 91, 89, r1 = 30.6, r2 = 31.6, r3 = 41.0, r4 = 42.0, &end # 3 GUA NU2: (3 DG C1')-(3 DG C2')-(3 DG C3')-(3 DG C4') 318.0 325.6 &rst iat = 72, 91, 89, 69, r1 = 317.0, r2 = 318.0, r3 = 325.6, r4 = 326.6, &end # 3 GUA NU3: (3 DG C2')-(3 DG C3')-(3 DG C4')-(3 DG O4') 21.3 35.8 &rst iat = 91, 89, 69, 71, r1 = 20.3, r2 = 21.3, r3 = 35.8, r4 = 36.8, &end # 3 GUA NU4: (3 DG C3')-(3 DG C4')-(3 DG O4')-(3 DG C1') -16.0 4.0 &rst iat = 89, 69, 71, 72, r1 = -17.0, r2 = -16.0, r3 = 4.0, r4 = 5.0, &end # 4 ADE NU0: (4 DA C4')-(4 DA O4')-(4 DA C1')-(4 DA C2') 320.4 335.0 &rst iat = 102, 104, 105, 123, r1 = 319.4, r2 = 320.4, r3 = 335.0, r4 = 336.0, &end # 4 ADE NU1: (4 DA O4')-(4 DA C1')-(4 DA C2')-(4 DA C3') 36.1 42.0 &rst iat = 104, 105, 123, 121, r1 = 35.1, r2 = 36.1, r3 = 42.0, r4 = 43.0, &end # 4 ADE NU2: (4 DA C1')-(4 DA C2')-(4 DA C3')-(4 DA C4') 323.3 334.5 &rst iat = 105, 123, 121, 102, r1 = 322.3, r2 = 323.3, r3 = 334.5, r4 = 335.5, &end # 4 ADE NU3: (4 DA C2')-(4 DA C3')-(4 DA C4')-(4 DA O4') 1.0 18.0 &rst iat = 123, 121, 102, 104, r1 = 0.0, r2 = 1.0, r3 = 18.0, r4 = 19.0, &end # 4 ADE NU4: (4 DA C3')-(4 DA C4')-(4 DA O4')-(4 DA C1') 4.3 23.9 &rst iat = 121, 102, 104, 105, r1 = 3.3, r2 = 4.3, r3 = 23.9, r4 = 24.9, &end #additional NOE distances # 6 DG H1' 5 DA H2 4.224 7.391 &rst ixpk= 0, nxpk= 0, iat= 170, 150, r1= 3.72, r2= 4.22, r3= 7.39, r4= 7.89, rk2=20.0, rk3=20.0, ir6=1, ialtd=0, &end # # 4 DA H1' 4 DA H2 3.550 6.213 &rst ixpk= 0, nxpk= 0, iat= 106, 118, r1= 3.05, r2= 3.55, r3= 6.21, r4= 6.71, &end # # 5 DA H1' 5 DA H2 4.194 7.340 &rst ixpk= 0, nxpk= 0, iat= 138, 150, r1= 3.69, r2= 4.19, r3= 7.34, r4= 7.84, &end # # 4 DA H4' 5 DA H2 3.793 6.638 &rst ixpk= 0, nxpk= 0, iat= 103, 150, r1= 3.29, r2= 3.79, r3= 6.64, r4= 7.14, &end # # 3 DG H4' 5 DA H2 4.253 7.443 &rst ixpk= 0, nxpk= 0, iat= 70, 150, r1= 3.75, r2= 4.25, r3= 7.44, r4= 7.94, &end # # 4 DA Q5' 5 DA H2 3.470 6.072 &rst ixpk= 0, nxpk= 0, iat= -1, 150, r1= 2.97, r2= 3.47, r3= 6.82, r4= 7.32, igr1= 100, 101, &end # # 4 DA Q5' 5 DA H2 3.956 6.923 &rst ixpk= 0, nxpk= 0, iat= -1, 150, r1= 3.46, r2= 3.96, r3= 7.77, r4= 8.27, igr1= 100, 101, &end # # 5 DA Q5' 5 DA H8 2.695 4.716 &rst ixpk= 0, nxpk= 0, iat= -1, 141, r1= 2.19, r2= 2.69, r3= 5.29, r4= 5.79, igr1= 132, 133, &end # # 5 DA Q5' 5 DA H8 3.308 5.789 &rst ixpk= 0, nxpk= 0, iat= -1, 141, r1= 2.81, r2= 3.31, r3= 6.50, r4= 7.00, igr1= 132, 133, &end # # 4 DA Q5' 3 DG H1' 2.481 4.342 &rst ixpk= 0, nxpk= 0, iat= -1, 73, r1= 1.98, r2= 2.48, r3= 4.87, r4= 5.37, igr1= 100, 101, &end # residual dipolar couplings (RDCs) &align ndip=38, dcut=-1.0, fj=1.0, dfac_al=38*-0.459938, s11=0,s12=0,s13=0,s22=0,s23=0, # 2 C C1' 2 C H1' id(1)=42, jd(1)=43, dobs(1)=0.5, # 3 G C1' 3 G H1' id(2)=72, jd(2)=73, dobs(2)=-16.2866, # 6 G C1' 6 G H1' id(3)=169, jd(3)=170, dobs(3)=-0.802156, # 7 C C1' 7 C H1' id(4)=202, jd(4)=203, dobs(4)=-5.7556, # 7 C C3' 7 C H3' id(5)=216, jd(5)=217, dobs(5)=-2.581, # 1 G C4' 1 G H4' id(6)=6, jd(6)=7, dobs(6)=0.0991629, # 2 C C4' 2 C H4' id(7)=39, jd(7)=40, dobs(7)=8.80368, # 4 A C4' 4 A H4' id(8)=102, jd(8)=103, dobs(8)=-3.24612, # 5 A C4' 5 A H4' id(9)=134, jd(9)=135, dobs(9)=1.38329, # 2 C C2' 2 C H2'1 id(10)=58, jd(10)=59, dobs(10)=2.45757, # 7 C C2' 7 C H2'1 id(11)=218, jd(11)=219, dobs(11)=4.63689, # 2 C C2' 2 C H2'2 id(12)=58, jd(12)=60, dobs(12)=2.24222, # 7 C C2' 7 C H2'2 id(13)=218, jd(13)=220, dobs(13)=-0.890444, # 4 A C2 4 A H2 id(14)=117, jd(14)=118, dobs(14)=3.74526, # 7 C C5 7 C H5 id(15)=207, jd(15)=208, dobs(15)=-3.72513, # 2 C C6 2 C H6 id(16)=45, jd(16)=46, dobs(16)=-12.1783, # 7 C C6 7 C H6 id(17)=205, jd(17)=206, dobs(17)=-8.90366, # 4 A C8 4 A H8 id(18)=108, jd(18)=109, dobs(18)=8.54104, # 1 G C8 1 G H8 id(19)=12, jd(19)=13, dobs(19)=-0.481958, # 3 G C8 3 G H8 id(20)=75, jd(20)=76, dobs(20)=0.192902, # 6 G C8 6 G H8 id(21)=172, jd(21)=173, dobs(21)=-11.0877, # 6 G N1 6 G H1 id(22)=178, jd(22)=179, dobs(22)=-19.2678, # 7 C N1 7 C C1' id(23)=204, jd(23)=202, dobs(23)=12.6151, # 4 A N9 4 A C8 id(24)=107, jd(24)=108, dobs(24)=-8.72773, # 3 G N9 3 G C8 id(25)=74, jd(25)=75, dobs(25)=-11.6963, # 6 G N9 6 G C8 id(26)=171, jd(26)=172, dobs(26)=9.94829, # 2 C N1 2 C C6 id(27)=44, jd(27)=45, dobs(27)=8.99102, # 7 C N1 7 C C6 id(28)=204, jd(28)=205, dobs(28)=-3.13183, # 2 C C5 2 C H6 id(29)=47, jd(29)=46, dobs(29)=-5.13622, # 7 C C5 7 C H6 id(30)=207, jd(30)=206, dobs(30)=5.15679, # 4 A N1 4 A H2 id(31)=116, jd(31)=118, dobs(31)=-14.3695, # 4 A N3 4 A H2 id(32)=119, jd(32)=118, dobs(32)=8.2443, # 3 G N9 3 G H8 id(33)=74, jd(33)=76, dobs(33)=-5.71506, # 6 G N9 6 G H8 id(34)=171, jd(34)=173, dobs(34)=4.77257, # 2 C N1 2 C H6 id(35)=44, jd(35)=46, dobs(35)=-2.00288, # 7 C N1 7 C H6 id(36)=204, jd(36)=206, dobs(36)=-10.9198, # 3 G N7 3 G H8 id(37)=77, jd(37)=76, dobs(37)=-1.3995, # 6 G N7 6 G H8 id(38)=174, jd(38)=173, dobs(38)=-17.9249, &end Entry H atom name Submitted Coord H atom name Start of MODEL 1 1 1H5* G 1 1H5* G 1 4.675 1.857 10.953 2 2H5* G 1 2H5* G 1 3.405 1.183 9.907 3 H4* G 1 H4* G 1 6.397 1.304 9.296 4 H3* G 1 H3* G 1 4.792 3.442 9.059 5 H1* G 1 H1* G 1 4.837 0.986 6.049 6 H8 G 1 H8 G 1 1.558 0.570 8.199 7 H1 G 1 H1 G 1 2.123 -3.327 3.107 8 1H2 G 1 H21 G 1 4.062 -2.931 2.081 9 2H2 G 1 H22 G 1 5.137 -1.654 2.694 10 H5T G 1 H5T G 1 4.749 -0.787 9.956 11 1H2* G 1 1H2* G 1 2.974 2.431 7.927 12 2H2* G 1 2H2* G 1 3.874 3.040 6.517 13 1H5* C 2 1H5* C 2 6.798 2.691 4.969 14 2H5* C 2 2H5* C 2 7.389 4.210 4.266 15 H4* C 2 H4* C 2 6.156 3.006 2.520 16 H3* C 2 H3* C 2 5.169 5.595 3.391 17 H1* C 2 H1* C 2 3.864 2.445 1.794 18 1H4 C 2 H41 C 2 -1.211 -0.852 3.715 19 2H4 C 2 H42 C 2 -1.415 0.121 5.184 20 H5 C 2 H5 C 2 -0.106 2.147 5.585 21 H6 C 2 H6 C 2 1.888 3.345 4.853 22 1H2* C 2 1H2* C 2 3.049 4.655 3.761 23 2H2* C 2 2H2* C 2 2.804 4.959 2.255 24 1H5* G 3 1H5* G 3 4.267 3.352 -0.433 25 2H5* G 3 2H5* G 3 4.497 4.375 -1.860 26 H4* G 3 H4* G 3 2.718 2.720 -2.210 27 H3* G 3 H3* G 3 2.459 5.382 -2.915 28 H1* G 3 H1* G 3 -0.309 3.353 -1.345 29 H8 G 3 H8 G 3 0.594 6.136 1.145 30 H1 G 3 H1 G 3 -3.328 1.631 3.465 31 1H2 G 3 H21 G 3 -3.549 -0.011 1.837 32 2H2 G 3 H22 G 3 -2.949 0.329 0.221 33 1H2* G 3 1H2* G 3 1.223 5.966 -0.966 34 2H2* G 3 2H2* G 3 -0.103 5.632 -2.115 35 1H5* A 4 1H5* A 4 -0.929 2.117 -3.658 36 2H5* A 4 2H5* A 4 -1.418 2.314 -5.347 37 H4* A 4 H4* A 4 -3.355 1.490 -4.170 38 H3* A 4 H3* A 4 -3.489 3.774 -5.684 39 H1* A 4 H1* A 4 -5.235 3.103 -2.421 40 H8 A 4 H8 A 4 -2.300 5.527 -1.623 41 1H6 A 4 H61 A 4 -4.894 5.553 4.045 42 2H6 A 4 H62 A 4 -3.490 6.137 3.141 43 H2 A 4 H2 A 4 -7.547 3.432 1.401 44 1H2* A 4 1H2* A 4 -3.489 5.234 -3.749 45 2H2* A 4 2H2* A 4 -5.251 4.967 -3.966 46 1H5* A 5 1H5* A 5 -6.800 -0.100 -7.102 47 2H5* A 5 2H5* A 5 -6.238 0.268 -5.464 48 H4* A 5 H4* A 5 -4.359 -0.984 -7.567 49 H3* A 5 H3* A 5 -6.491 -2.344 -6.243 50 H1* A 5 H1* A 5 -2.894 -2.381 -5.353 51 H8 A 5 H8 A 5 -4.571 -1.099 -2.150 52 1H6 A 5 H61 A 5 1.072 1.170 -0.770 53 2H6 A 5 H62 A 5 -0.588 1.127 -0.192 54 H2 A 5 H2 A 5 1.363 -0.714 -4.634 55 1H2* A 5 1H2* A 5 -5.608 -1.779 -4.087 56 2H2* A 5 2H2* A 5 -4.870 -3.391 -4.338 57 1H5* G 6 1H5* G 6 -2.384 -4.116 -6.700 58 2H5* G 6 2H5* G 6 -2.264 -5.861 -6.947 59 H4* G 6 H4* G 6 -0.556 -4.895 -5.401 60 H3* G 6 H3* G 6 -2.388 -7.087 -4.491 61 H1* G 6 H1* G 6 -0.189 -4.283 -2.828 62 H8 G 6 H8 G 6 -3.763 -5.015 -1.257 63 H1 G 6 H1 G 6 0.404 -1.314 1.914 64 1H2 G 6 H21 G 6 2.184 -0.915 0.614 65 2H2 G 6 H22 G 6 2.390 -1.854 -0.867 66 1H2* G 6 1H2* G 6 -1.884 -6.710 -2.309 67 2H2* G 6 2H2* G 6 -0.135 -6.576 -2.641 68 1H5* C 7 1H5* C 7 2.090 -6.667 -4.695 69 2H5* C 7 2H5* C 7 2.996 -8.183 -4.854 70 H4* C 7 H4* C 7 4.278 -6.668 -3.459 71 H3* C 7 H3* C 7 2.973 -8.980 -2.023 72 H1* C 7 H1* C 7 4.120 -5.422 -0.843 73 1H4 C 7 H41 C 7 -1.424 -5.478 2.843 74 2H4 C 7 H42 C 7 -0.263 -4.337 3.541 75 H5 C 7 H5 C 7 -0.777 -6.963 0.922 76 H6 C 7 H6 C 7 0.949 -7.403 -0.664 77 H3T C 7 H3T C 7 4.854 -9.408 -3.202 78 1H2* C 7 1H2* C 7 3.126 -8.052 -0.071 79 2H2* C 7 2H2* C 7 4.881 -7.607 -0.359 Start of MODEL 2 1 1H5* G 1 1H5* G 1 4.240 1.405 10.883 2 2H5* G 1 2H5* G 1 3.033 0.795 9.732 3 H4* G 1 H4* G 1 6.044 1.078 9.265 4 H3* G 1 H3* G 1 4.372 3.153 9.105 5 H1* G 1 H1* G 1 4.603 0.920 5.924 6 H8 G 1 H8 G 1 1.261 0.324 7.938 7 H1 G 1 H1 G 1 2.072 -3.380 2.743 8 1H2 G 1 H21 G 1 3.985 -2.872 1.748 9 2H2 G 1 H22 G 1 5.032 -1.605 2.432 10 H5T G 1 H5T G 1 4.442 -1.131 9.652 11 1H2* G 1 1H2* G 1 2.636 2.158 7.855 12 2H2* G 1 2H2* G 1 3.549 2.900 6.518 13 1H5* C 2 1H5* C 2 6.527 2.729 5.090 14 2H5* C 2 2H5* C 2 7.113 4.288 4.477 15 H4* C 2 H4* C 2 5.954 3.095 2.650 16 H3* C 2 H3* C 2 4.959 5.682 3.533 17 H1* C 2 H1* C 2 3.715 2.585 1.820 18 1H4 C 2 H41 C 2 -1.334 -0.849 3.663 19 2H4 C 2 H42 C 2 -1.548 0.080 5.155 20 H5 C 2 H5 C 2 -0.337 2.189 5.537 21 H6 C 2 H6 C 2 1.548 3.508 4.750 22 1H2* C 2 1H2* C 2 2.813 4.762 3.786 23 2H2* C 2 2H2* C 2 2.662 5.083 2.237 24 1H5* G 3 1H5* G 3 4.302 3.571 -0.414 25 2H5* G 3 2H5* G 3 4.593 4.634 -1.798 26 H4* G 3 H4* G 3 2.875 2.936 -2.263 27 H3* G 3 H3* G 3 2.613 5.576 -3.010 28 H1* G 3 H1* G 3 -0.303 3.615 -1.381 29 H8 G 3 H8 G 3 0.587 6.559 0.880 30 H1 G 3 H1 G 3 -3.118 2.084 3.557 31 1H2 G 3 H21 G 3 -3.334 0.335 2.041 32 2H2 G 3 H22 G 3 -2.755 0.568 0.402 33 1H2* G 3 1H2* G 3 1.297 6.210 -1.166 34 2H2* G 3 2H2* G 3 0.006 5.809 -2.324 35 1H5* A 4 1H5* A 4 -0.623 2.282 -3.701 36 2H5* A 4 2H5* A 4 -1.197 2.382 -5.372 37 H4* A 4 H4* A 4 -3.018 1.524 -4.037 38 H3* A 4 H3* A 4 -3.359 3.712 -5.673 39 H1* A 4 H1* A 4 -4.898 3.136 -2.315 40 H8 A 4 H8 A 4 -2.173 5.882 -1.744 41 1H6 A 4 H61 A 4 -4.666 6.038 3.961 42 2H6 A 4 H62 A 4 -3.357 6.713 2.979 43 H2 A 4 H2 A 4 -7.062 3.364 1.578 44 1H2* A 4 1H2* A 4 -3.342 5.291 -3.832 45 2H2* A 4 2H2* A 4 -5.100 4.915 -3.945 46 1H5* A 5 1H5* A 5 -6.849 -0.276 -6.697 47 2H5* A 5 2H5* A 5 -6.213 0.161 -5.102 48 H4* A 5 H4* A 5 -4.428 -1.269 -7.167 49 H3* A 5 H3* A 5 -6.594 -2.502 -5.727 50 H1* A 5 H1* A 5 -2.946 -2.599 -4.980 51 H8 A 5 H8 A 5 -4.503 -1.140 -1.774 52 1H6 A 5 H61 A 5 1.108 1.433 -0.886 53 2H6 A 5 H62 A 5 -0.516 1.388 -0.218 54 H2 A 5 H2 A 5 1.304 -0.839 -4.546 55 1H2* A 5 1H2* A 5 -5.609 -1.947 -3.628 56 2H2* A 5 2H2* A 5 -4.893 -3.570 -3.882 57 1H5* G 6 1H5* G 6 -2.605 -4.473 -6.519 58 2H5* G 6 2H5* G 6 -2.558 -6.230 -6.687 59 H4* G 6 H4* G 6 -0.672 -5.199 -5.366 60 H3* G 6 H3* G 6 -2.400 -7.335 -4.151 61 H1* G 6 H1* G 6 -0.161 -4.405 -2.736 62 H8 G 6 H8 G 6 -3.550 -5.516 -1.014 63 H1 G 6 H1 G 6 0.176 -1.102 1.785 64 1H2 G 6 H21 G 6 2.018 -0.791 0.572 65 2H2 G 6 H22 G 6 2.283 -1.775 -0.871 66 1H2* G 6 1H2* G 6 -1.514 -6.962 -2.071 67 2H2* G 6 2H2* G 6 0.121 -6.641 -2.715 68 1H5* C 7 1H5* C 7 1.970 -6.878 -4.959 69 2H5* C 7 2H5* C 7 2.951 -8.348 -5.117 70 H4* C 7 H4* C 7 4.259 -6.609 -4.002 71 H3* C 7 H3* C 7 3.443 -9.009 -2.405 72 H1* C 7 H1* C 7 4.205 -5.316 -1.284 73 1H4 C 7 H41 C 7 -1.244 -5.849 2.532 74 2H4 C 7 H42 C 7 -0.204 -4.573 3.185 75 H5 C 7 H5 C 7 -0.454 -7.331 0.668 76 H6 C 7 H6 C 7 1.283 -7.645 -0.922 77 H3T C 7 H3T C 7 5.314 -9.124 -3.673 78 1H2* C 7 1H2* C 7 3.474 -8.033 -0.486 79 2H2* C 7 2H2* C 7 5.166 -7.405 -0.784 Start of MODEL 3 1 1H5* G 1 1H5* G 1 4.589 1.656 10.873 2 2H5* G 1 2H5* G 1 3.323 1.027 9.797 3 H4* G 1 H4* G 1 6.309 1.232 9.180 4 H3* G 1 H3* G 1 4.656 3.348 9.063 5 H1* G 1 H1* G 1 4.753 1.042 5.921 6 H8 G 1 H8 G 1 1.456 0.591 8.011 7 H1 G 1 H1 G 1 2.122 -3.373 2.985 8 1H2 G 1 H21 G 1 4.075 -3.011 1.999 9 2H2 G 1 H22 G 1 5.152 -1.734 2.611 10 H5T G 1 H5T G 1 4.698 -0.918 9.716 11 1H2* G 1 1H2* G 1 2.870 2.364 7.882 12 2H2* G 1 2H2* G 1 3.751 3.060 6.502 13 1H5* C 2 1H5* C 2 6.734 2.736 5.026 14 2H5* C 2 2H5* C 2 7.320 4.266 4.338 15 H4* C 2 H4* C 2 6.179 3.016 2.560 16 H3* C 2 H3* C 2 5.145 5.610 3.359 17 H1* C 2 H1* C 2 3.903 2.430 1.761 18 1H4 C 2 H41 C 2 -1.253 -0.809 3.606 19 2H4 C 2 H42 C 2 -1.467 0.178 5.064 20 H5 C 2 H5 C 2 -0.174 2.209 5.444 21 H6 C 2 H6 C 2 1.838 3.386 4.744 22 1H2* C 2 1H2* C 2 3.014 4.675 3.667 23 2H2* C 2 2H2* C 2 2.838 4.964 2.146 24 1H5* G 3 1H5* G 3 4.299 3.390 -0.470 25 2H5* G 3 2H5* G 3 4.510 4.395 -1.910 26 H4* G 3 H4* G 3 2.704 2.748 -2.194 27 H3* G 3 H3* G 3 2.456 5.406 -2.946 28 H1* G 3 H1* G 3 -0.287 3.403 -1.327 29 H8 G 3 H8 G 3 0.657 6.213 1.135 30 H1 G 3 H1 G 3 -3.371 1.838 3.498 31 1H2 G 3 H21 G 3 -3.608 0.161 1.901 32 2H2 G 3 H22 G 3 -2.966 0.443 0.293 33 1H2* G 3 1H2* G 3 1.241 6.025 -0.998 34 2H2* G 3 2H2* G 3 -0.103 5.672 -2.123 35 1H5* A 4 1H5* A 4 -0.949 2.133 -3.519 36 2H5* A 4 2H5* A 4 -1.442 2.279 -5.212 37 H4* A 4 H4* A 4 -3.393 1.504 -4.049 38 H3* A 4 H3* A 4 -3.498 3.768 -5.571 39 H1* A 4 H1* A 4 -5.261 3.136 -2.302 40 H8 A 4 H8 A 4 -2.282 5.508 -1.510 41 1H6 A 4 H61 A 4 -5.026 5.819 4.084 42 2H6 A 4 H62 A 4 -3.573 6.316 3.205 43 H2 A 4 H2 A 4 -7.668 3.674 1.460 44 1H2* A 4 1H2* A 4 -3.490 5.242 -3.641 45 2H2* A 4 2H2* A 4 -5.250 4.993 -3.860 46 1H5* A 5 1H5* A 5 -6.742 -0.114 -7.013 47 2H5* A 5 2H5* A 5 -6.213 0.256 -5.369 48 H4* A 5 H4* A 5 -4.260 -0.957 -7.429 49 H3* A 5 H3* A 5 -6.413 -2.358 -6.149 50 H1* A 5 H1* A 5 -2.814 -2.349 -5.261 51 H8 A 5 H8 A 5 -4.525 -1.113 -2.040 52 1H6 A 5 H61 A 5 1.094 1.231 -0.657 53 2H6 A 5 H62 A 5 -0.569 1.189 -0.087 54 H2 A 5 H2 A 5 1.405 -0.656 -4.516 55 1H2* A 5 1H2* A 5 -5.543 -1.844 -3.980 56 2H2* A 5 2H2* A 5 -4.769 -3.433 -4.273 57 1H5* G 6 1H5* G 6 -2.286 -4.134 -6.674 58 2H5* G 6 2H5* G 6 -2.209 -5.874 -6.985 59 H4* G 6 H4* G 6 -0.454 -5.059 -5.430 60 H3* G 6 H3* G 6 -2.384 -7.179 -4.614 61 H1* G 6 H1* G 6 -0.106 -4.534 -2.761 62 H8 G 6 H8 G 6 -3.771 -5.012 -1.312 63 H1 G 6 H1 G 6 0.386 -1.299 1.831 64 1H2 G 6 H21 G 6 2.191 -0.949 0.570 65 2H2 G 6 H22 G 6 2.432 -1.921 -0.883 66 1H2* G 6 1H2* G 6 -2.168 -6.716 -2.415 67 2H2* G 6 2H2* G 6 -0.395 -6.843 -2.506 68 1H5* C 7 1H5* C 7 2.197 -6.927 -4.716 69 2H5* C 7 2H5* C 7 2.992 -8.513 -4.762 70 H4* C 7 H4* C 7 4.367 -6.931 -3.529 71 H3* C 7 H3* C 7 3.104 -9.191 -2.014 72 H1* C 7 H1* C 7 4.254 -5.616 -0.850 73 1H4 C 7 H41 C 7 -1.416 -5.488 2.653 74 2H4 C 7 H42 C 7 -0.264 -4.344 3.362 75 H5 C 7 H5 C 7 -0.744 -7.004 0.792 76 H6 C 7 H6 C 7 1.032 -7.532 -0.729 77 H3T C 7 H3T C 7 5.827 -8.349 -2.314 78 1H2* C 7 1H2* C 7 3.198 -8.231 -0.064 79 2H2* C 7 2H2* C 7 4.964 -7.813 -0.329 Start of MODEL 4 1 1H5* G 1 1H5* G 1 4.057 1.588 10.877 2 2H5* G 1 2H5* G 1 2.890 0.930 9.709 3 H4* G 1 H4* G 1 5.916 1.156 9.357 4 H3* G 1 H3* G 1 4.293 3.250 9.044 5 H1* G 1 H1* G 1 4.583 0.881 5.969 6 H8 G 1 H8 G 1 1.175 0.373 7.916 7 H1 G 1 H1 G 1 2.047 -3.386 2.774 8 1H2 G 1 H21 G 1 3.963 -2.869 1.781 9 2H2 G 1 H22 G 1 5.006 -1.606 2.473 10 H5T G 1 H5T G 1 4.277 -1.008 9.783 11 1H2* G 1 1H2* G 1 2.573 2.227 7.778 12 2H2* G 1 2H2* G 1 3.541 2.899 6.442 13 1H5* C 2 1H5* C 2 6.495 2.663 5.081 14 2H5* C 2 2H5* C 2 7.129 4.198 4.452 15 H4* C 2 H4* C 2 5.972 3.003 2.631 16 H3* C 2 H3* C 2 5.012 5.630 3.457 17 H1* C 2 H1* C 2 3.735 2.552 1.766 18 1H4 C 2 H41 C 2 -1.319 -0.881 3.610 19 2H4 C 2 H42 C 2 -1.542 0.061 5.092 20 H5 C 2 H5 C 2 -0.362 2.198 5.445 21 H6 C 2 H6 C 2 1.499 3.533 4.615 22 1H2* C 2 1H2* C 2 2.837 4.743 3.701 23 2H2* C 2 2H2* C 2 2.707 5.042 2.137 24 1H5* G 3 1H5* G 3 4.304 3.474 -0.462 25 2H5* G 3 2H5* G 3 4.603 4.506 -1.868 26 H4* G 3 H4* G 3 2.804 2.886 -2.283 27 H3* G 3 H3* G 3 2.622 5.549 -3.000 28 H1* G 3 H1* G 3 -0.305 3.639 -1.375 29 H8 G 3 H8 G 3 0.480 6.605 0.820 30 H1 G 3 H1 G 3 -3.151 2.128 3.570 31 1H2 G 3 H21 G 3 -3.339 0.348 2.077 32 2H2 G 3 H22 G 3 -2.745 0.562 0.443 33 1H2* G 3 1H2* G 3 1.349 6.193 -1.130 34 2H2* G 3 2H2* G 3 0.028 5.842 -2.275 35 1H5* A 4 1H5* A 4 -0.629 2.323 -3.696 36 2H5* A 4 2H5* A 4 -1.240 2.427 -5.355 37 H4* A 4 H4* A 4 -2.985 1.537 -3.921 38 H3* A 4 H3* A 4 -3.424 3.689 -5.629 39 H1* A 4 H1* A 4 -4.867 3.184 -2.230 40 H8 A 4 H8 A 4 -2.172 5.989 -1.748 41 1H6 A 4 H61 A 4 -4.591 6.156 3.987 42 2H6 A 4 H62 A 4 -3.313 6.848 2.977 43 H2 A 4 H2 A 4 -6.969 3.413 1.652 44 1H2* A 4 1H2* A 4 -3.370 5.312 -3.831 45 2H2* A 4 2H2* A 4 -5.125 4.926 -3.886 46 1H5* A 5 1H5* A 5 -6.886 -0.305 -6.604 47 2H5* A 5 2H5* A 5 -6.249 0.118 -5.006 48 H4* A 5 H4* A 5 -4.447 -1.251 -7.099 49 H3* A 5 H3* A 5 -6.597 -2.547 -5.676 50 H1* A 5 H1* A 5 -2.946 -2.609 -4.945 51 H8 A 5 H8 A 5 -4.494 -1.196 -1.709 52 1H6 A 5 H61 A 5 1.093 1.460 -0.890 53 2H6 A 5 H62 A 5 -0.520 1.393 -0.204 54 H2 A 5 H2 A 5 1.273 -0.806 -4.556 55 1H2* A 5 1H2* A 5 -5.611 -2.012 -3.568 56 2H2* A 5 2H2* A 5 -4.878 -3.623 -3.859 57 1H5* G 6 1H5* G 6 -2.578 -4.431 -6.510 58 2H5* G 6 2H5* G 6 -2.508 -6.183 -6.742 59 H4* G 6 H4* G 6 -0.630 -5.163 -5.393 60 H3* G 6 H3* G 6 -2.306 -7.399 -4.299 61 H1* G 6 H1* G 6 -0.130 -4.484 -2.730 62 H8 G 6 H8 G 6 -3.469 -5.675 -0.995 63 H1 G 6 H1 G 6 0.142 -1.109 1.718 64 1H2 G 6 H21 G 6 1.999 -0.807 0.509 65 2H2 G 6 H22 G 6 2.262 -1.798 -0.930 66 1H2* G 6 1H2* G 6 -1.537 -7.057 -2.175 67 2H2* G 6 2H2* G 6 0.130 -6.761 -2.728 68 1H5* C 7 1H5* C 7 2.119 -6.878 -5.013 69 2H5* C 7 2H5* C 7 3.127 -8.328 -5.123 70 H4* C 7 H4* C 7 4.326 -6.573 -3.904 71 H3* C 7 H3* C 7 3.426 -8.969 -2.317 72 H1* C 7 H1* C 7 4.144 -5.262 -1.290 73 1H4 C 7 H41 C 7 -1.261 -5.888 2.581 74 2H4 C 7 H42 C 7 -0.240 -4.584 3.210 75 H5 C 7 H5 C 7 -0.429 -7.393 0.736 76 H6 C 7 H6 C 7 1.314 -7.681 -0.847 77 H3T C 7 H3T C 7 5.320 -9.167 -3.567 78 1H2* C 7 1H2* C 7 3.495 -7.978 -0.423 79 2H2* C 7 2H2* C 7 5.160 -7.306 -0.723 Start of MODEL 5 1 1H5* G 1 1H5* G 1 4.016 1.738 10.819 2 2H5* G 1 2H5* G 1 2.808 1.128 9.665 3 H4* G 1 H4* G 1 5.843 1.161 9.288 4 H3* G 1 H3* G 1 4.324 3.350 8.963 5 H1* G 1 H1* G 1 4.538 0.933 5.929 6 H8 G 1 H8 G 1 1.075 0.587 7.793 7 H1 G 1 H1 G 1 2.039 -3.379 2.814 8 1H2 G 1 H21 G 1 4.030 -2.956 1.914 9 2H2 G 1 H22 G 1 5.063 -1.684 2.607 10 H5T G 1 H5T G 1 4.078 -0.887 9.773 11 1H2* G 1 1H2* G 1 2.571 2.395 7.687 12 2H2* G 1 2H2* G 1 3.586 3.008 6.355 13 1H5* C 2 1H5* C 2 6.602 2.531 5.065 14 2H5* C 2 2H5* C 2 7.309 4.014 4.386 15 H4* C 2 H4* C 2 6.124 2.823 2.574 16 H3* C 2 H3* C 2 5.249 5.483 3.297 17 H1* C 2 H1* C 2 3.923 2.327 1.726 18 1H4 C 2 H41 C 2 -1.433 -0.649 3.406 19 2H4 C 2 H42 C 2 -1.677 0.378 4.826 20 H5 C 2 H5 C 2 -0.338 2.386 5.206 21 H6 C 2 H6 C 2 1.699 3.526 4.527 22 1H2* C 2 1H2* C 2 3.037 4.710 3.483 23 2H2* C 2 2H2* C 2 2.984 4.939 1.944 24 1H5* G 3 1H5* G 3 4.526 3.273 -0.538 25 2H5* G 3 2H5* G 3 4.695 4.219 -2.024 26 H4* G 3 H4* G 3 2.840 2.579 -2.121 27 H3* G 3 H3* G 3 2.608 5.202 -3.021 28 H1* G 3 H1* G 3 -0.065 3.264 -1.112 29 H8 G 3 H8 G 3 1.004 6.257 1.160 30 H1 G 3 H1 G 3 -3.592 2.378 3.388 31 1H2 G 3 H21 G 3 -3.917 0.672 1.872 32 2H2 G 3 H22 G 3 -3.004 0.670 0.375 33 1H2* G 3 1H2* G 3 1.434 5.952 -1.104 34 2H2* G 3 2H2* G 3 0.054 5.501 -2.147 35 1H5* A 4 1H5* A 4 -0.878 1.993 -3.405 36 2H5* A 4 2H5* A 4 -1.396 2.083 -5.094 37 H4* A 4 H4* A 4 -3.369 1.431 -3.931 38 H3* A 4 H3* A 4 -3.402 3.658 -5.447 39 H1* A 4 H1* A 4 -5.136 3.130 -2.130 40 H8 A 4 H8 A 4 -2.117 5.518 -1.475 41 1H6 A 4 H61 A 4 -5.121 6.635 3.868 42 2H6 A 4 H62 A 4 -3.651 7.045 2.969 43 H2 A 4 H2 A 4 -7.493 3.821 1.623 44 1H2* A 4 1H2* A 4 -3.346 5.164 -3.555 45 2H2* A 4 2H2* A 4 -5.117 4.936 -3.737 46 1H5* A 5 1H5* A 5 -6.778 -0.170 -6.849 47 2H5* A 5 2H5* A 5 -6.340 0.216 -5.178 48 H4* A 5 H4* A 5 -4.300 -1.193 -7.048 49 H3* A 5 H3* A 5 -6.607 -2.394 -5.731 50 H1* A 5 H1* A 5 -2.972 -2.481 -4.969 51 H8 A 5 H8 A 5 -4.571 -1.124 -1.722 52 1H6 A 5 H61 A 5 1.140 1.138 -0.577 53 2H6 A 5 H62 A 5 -0.529 1.211 0.002 54 H2 A 5 H2 A 5 1.304 -0.941 -4.358 55 1H2* A 5 1H2* A 5 -5.651 -1.943 -3.599 56 2H2* A 5 2H2* A 5 -4.910 -3.543 -3.912 57 1H5* G 6 1H5* G 6 -2.603 -4.276 -6.518 58 2H5* G 6 2H5* G 6 -2.524 -6.016 -6.821 59 H4* G 6 H4* G 6 -0.664 -5.012 -5.428 60 H3* G 6 H3* G 6 -2.210 -7.417 -4.613 61 H1* G 6 H1* G 6 -0.135 -4.601 -2.758 62 H8 G 6 H8 G 6 -3.618 -5.497 -1.070 63 H1 G 6 H1 G 6 0.210 -1.158 1.685 64 1H2 G 6 H21 G 6 2.118 -0.994 0.556 65 2H2 G 6 H22 G 6 2.411 -2.069 -0.816 66 1H2* G 6 1H2* G 6 -1.942 -7.013 -2.405 67 2H2* G 6 2H2* G 6 -0.170 -6.968 -2.595 68 1H5* C 7 1H5* C 7 2.133 -6.297 -4.798 69 2H5* C 7 2H5* C 7 3.226 -7.632 -5.200 70 H4* C 7 H4* C 7 4.352 -5.989 -3.756 71 H3* C 7 H3* C 7 3.873 -8.768 -2.755 72 H1* C 7 H1* C 7 4.271 -5.338 -0.951 73 1H4 C 7 H41 C 7 -1.333 -5.833 2.576 74 2H4 C 7 H42 C 7 -0.292 -4.549 3.216 75 H5 C 7 H5 C 7 -0.488 -7.371 0.786 76 H6 C 7 H6 C 7 1.340 -7.699 -0.799 77 H3T C 7 H3T C 7 5.710 -8.323 -3.964 78 1H2* C 7 1H2* C 7 4.003 -8.395 -0.680 79 2H2* C 7 2H2* C 7 5.405 -7.331 -0.847 Start of MODEL 6 1 1H5* G 1 1H5* G 1 4.351 2.020 10.846 2 2H5* G 1 2H5* G 1 3.111 1.360 9.756 3 H4* G 1 H4* G 1 6.129 1.393 9.290 4 H3* G 1 H3* G 1 4.574 3.547 8.913 5 H1* G 1 H1* G 1 4.726 1.000 5.977 6 H8 G 1 H8 G 1 1.337 0.719 7.985 7 H1 G 1 H1 G 1 2.045 -3.367 3.062 8 1H2 G 1 H21 G 1 4.021 -3.029 2.097 9 2H2 G 1 H22 G 1 5.097 -1.747 2.703 10 H5T G 1 H5T G 1 4.396 -0.644 9.905 11 1H2* G 1 1H2* G 1 2.802 2.536 7.723 12 2H2* G 1 2H2* G 1 3.781 3.087 6.338 13 1H5* C 2 1H5* C 2 6.782 2.674 4.976 14 2H5* C 2 2H5* C 2 7.425 4.161 4.254 15 H4* C 2 H4* C 2 6.256 2.914 2.497 16 H3* C 2 H3* C 2 5.272 5.547 3.229 17 H1* C 2 H1* C 2 3.997 2.356 1.691 18 1H4 C 2 H41 C 2 -1.241 -0.766 3.455 19 2H4 C 2 H42 C 2 -1.472 0.233 4.900 20 H5 C 2 H5 C 2 -0.159 2.261 5.288 21 H6 C 2 H6 C 2 1.889 3.397 4.621 22 1H2* C 2 1H2* C 2 3.116 4.655 3.532 23 2H2* C 2 2H2* C 2 2.950 4.903 2.009 24 1H5* G 3 1H5* G 3 4.376 3.271 -0.544 25 2H5* G 3 2H5* G 3 4.572 4.232 -2.014 26 H4* G 3 H4* G 3 2.699 2.662 -2.215 27 H3* G 3 H3* G 3 2.495 5.351 -2.920 28 H1* G 3 H1* G 3 -0.202 3.357 -1.276 29 H8 G 3 H8 G 3 0.760 6.151 1.181 30 H1 G 3 H1 G 3 -3.500 1.934 3.443 31 1H2 G 3 H21 G 3 -3.785 0.283 1.845 32 2H2 G 3 H22 G 3 -2.993 0.466 0.290 33 1H2* G 3 1H2* G 3 1.347 5.954 -0.932 34 2H2* G 3 2H2* G 3 -0.045 5.634 -2.010 35 1H5* A 4 1H5* A 4 -0.949 2.125 -3.443 36 2H5* A 4 2H5* A 4 -1.457 2.283 -5.133 37 H4* A 4 H4* A 4 -3.386 1.483 -3.953 38 H3* A 4 H3* A 4 -3.515 3.767 -5.458 39 H1* A 4 H1* A 4 -5.255 3.087 -2.207 40 H8 A 4 H8 A 4 -2.285 5.441 -1.335 41 1H6 A 4 H61 A 4 -5.209 5.774 4.173 42 2H6 A 4 H62 A 4 -3.725 6.269 3.344 43 H2 A 4 H2 A 4 -7.752 3.602 1.473 44 1H2* A 4 1H2* A 4 -3.492 5.219 -3.509 45 2H2* A 4 2H2* A 4 -5.253 4.974 -3.723 46 1H5* A 5 1H5* A 5 -6.767 -0.095 -6.961 47 2H5* A 5 2H5* A 5 -6.273 0.243 -5.296 48 H4* A 5 H4* A 5 -4.273 -0.967 -7.324 49 H3* A 5 H3* A 5 -6.456 -2.355 -6.036 50 H1* A 5 H1* A 5 -2.832 -2.339 -5.234 51 H8 A 5 H8 A 5 -4.494 -1.155 -1.960 52 1H6 A 5 H61 A 5 1.140 1.186 -0.644 53 2H6 A 5 H62 A 5 -0.520 1.142 -0.057 54 H2 A 5 H2 A 5 1.389 -0.649 -4.537 55 1H2* A 5 1H2* A 5 -5.538 -1.891 -3.883 56 2H2* A 5 2H2* A 5 -4.755 -3.469 -4.225 57 1H5* G 6 1H5* G 6 -2.350 -4.096 -6.754 58 2H5* G 6 2H5* G 6 -2.235 -5.835 -7.068 59 H4* G 6 H4* G 6 -0.444 -4.910 -5.584 60 H3* G 6 H3* G 6 -2.185 -7.176 -4.737 61 H1* G 6 H1* G 6 -0.037 -4.407 -2.911 62 H8 G 6 H8 G 6 -3.662 -5.079 -1.452 63 H1 G 6 H1 G 6 0.425 -1.328 1.772 64 1H2 G 6 H21 G 6 2.263 -0.998 0.534 65 2H2 G 6 H22 G 6 2.515 -1.986 -0.908 66 1H2* G 6 1H2* G 6 -1.868 -6.781 -2.534 67 2H2* G 6 2H2* G 6 -0.094 -6.734 -2.736 68 1H5* C 7 1H5* C 7 2.355 -6.740 -4.677 69 2H5* C 7 2H5* C 7 3.240 -8.268 -4.810 70 H4* C 7 H4* C 7 4.428 -6.853 -3.251 71 H3* C 7 H3* C 7 2.890 -9.110 -1.944 72 H1* C 7 H1* C 7 4.140 -5.624 -0.710 73 1H4 C 7 H41 C 7 -1.575 -5.437 2.714 74 2H4 C 7 H42 C 7 -0.404 -4.315 3.436 75 H5 C 7 H5 C 7 -0.884 -6.980 0.840 76 H6 C 7 H6 C 7 0.908 -7.509 -0.641 77 H3T C 7 H3T C 7 4.812 -9.661 -3.020 78 1H2* C 7 1H2* C 7 2.998 -8.216 0.015 79 2H2* C 7 2H2* C 7 4.777 -7.838 -0.162 Start of MODEL 7 1 1H5* G 1 1H5* G 1 4.555 1.708 10.846 2 2H5* G 1 2H5* G 1 3.274 1.104 9.769 3 H4* G 1 H4* G 1 6.257 1.268 9.127 4 H3* G 1 H3* G 1 4.637 3.420 9.038 5 H1* G 1 H1* G 1 4.674 1.129 5.886 6 H8 G 1 H8 G 1 1.369 0.751 7.966 7 H1 G 1 H1 G 1 2.046 -3.369 3.066 8 1H2 G 1 H21 G 1 4.012 -3.049 2.084 9 2H2 G 1 H22 G 1 5.087 -1.758 2.668 10 H5T G 1 H5T G 1 4.611 -0.863 9.671 11 1H2* G 1 1H2* G 1 2.827 2.464 7.868 12 2H2* G 1 2H2* G 1 3.706 3.157 6.487 13 1H5* C 2 1H5* C 2 6.709 2.714 5.010 14 2H5* C 2 2H5* C 2 7.329 4.219 4.303 15 H4* C 2 H4* C 2 6.194 2.972 2.523 16 H3* C 2 H3* C 2 5.160 5.569 3.280 17 H1* C 2 H1* C 2 3.952 2.356 1.706 18 1H4 C 2 H41 C 2 -1.280 -0.793 3.462 19 2H4 C 2 H42 C 2 -1.510 0.214 4.904 20 H5 C 2 H5 C 2 -0.211 2.226 5.289 21 H6 C 2 H6 C 2 1.827 3.378 4.637 22 1H2* C 2 1H2* C 2 3.014 4.654 3.542 23 2H2* C 2 2H2* C 2 2.893 4.930 2.025 24 1H5* G 3 1H5* G 3 4.353 3.343 -0.537 25 2H5* G 3 2H5* G 3 4.523 4.324 -2.001 26 H4* G 3 H4* G 3 2.712 2.660 -2.185 27 H3* G 3 H3* G 3 2.440 5.307 -3.002 28 H1* G 3 H1* G 3 -0.231 3.286 -1.250 29 H8 G 3 H8 G 3 0.820 6.140 1.188 30 H1 G 3 H1 G 3 -3.464 1.992 3.489 31 1H2 G 3 H21 G 3 -3.786 0.327 1.903 32 2H2 G 3 H22 G 3 -3.028 0.501 0.329 33 1H2* G 3 1H2* G 3 1.249 5.964 -1.049 34 2H2* G 3 2H2* G 3 -0.111 5.561 -2.136 35 1H5* A 4 1H5* A 4 -1.033 2.053 -3.406 36 2H5* A 4 2H5* A 4 -1.534 2.167 -5.100 37 H4* A 4 H4* A 4 -3.517 1.491 -3.984 38 H3* A 4 H3* A 4 -3.532 3.769 -5.434 39 H1* A 4 H1* A 4 -5.321 3.141 -2.156 40 H8 A 4 H8 A 4 -2.260 5.424 -1.406 41 1H6 A 4 H61 A 4 -5.090 6.195 4.088 42 2H6 A 4 H62 A 4 -3.615 6.608 3.198 43 H2 A 4 H2 A 4 -7.684 3.795 1.648 44 1H2* A 4 1H2* A 4 -3.505 5.210 -3.491 45 2H2* A 4 2H2* A 4 -5.271 4.993 -3.707 46 1H5* A 5 1H5* A 5 -6.709 -0.053 -7.026 47 2H5* A 5 2H5* A 5 -6.267 0.281 -5.344 48 H4* A 5 H4* A 5 -4.196 -0.888 -7.324 49 H3* A 5 H3* A 5 -6.409 -2.310 -6.120 50 H1* A 5 H1* A 5 -2.816 -2.287 -5.232 51 H8 A 5 H8 A 5 -4.523 -1.150 -1.956 52 1H6 A 5 H61 A 5 1.111 1.164 -0.569 53 2H6 A 5 H62 A 5 -0.561 1.139 -0.007 54 H2 A 5 H2 A 5 1.391 -0.668 -4.459 55 1H2* A 5 1H2* A 5 -5.548 -1.873 -3.929 56 2H2* A 5 2H2* A 5 -4.755 -3.441 -4.273 57 1H5* G 6 1H5* G 6 -2.260 -3.984 -6.660 58 2H5* G 6 2H5* G 6 -2.156 -5.692 -7.103 59 H4* G 6 H4* G 6 -0.390 -4.958 -5.521 60 H3* G 6 H3* G 6 -2.213 -7.219 -4.925 61 H1* G 6 H1* G 6 -0.019 -4.716 -2.825 62 H8 G 6 H8 G 6 -3.643 -5.234 -1.281 63 H1 G 6 H1 G 6 0.417 -1.284 1.688 64 1H2 G 6 H21 G 6 2.251 -1.018 0.482 65 2H2 G 6 H22 G 6 2.521 -2.026 -0.944 66 1H2* G 6 1H2* G 6 -2.223 -6.810 -2.697 67 2H2* G 6 2H2* G 6 -0.456 -7.054 -2.643 68 1H5* C 7 1H5* C 7 2.348 -6.714 -4.623 69 2H5* C 7 2H5* C 7 3.218 -8.246 -4.818 70 H4* C 7 H4* C 7 4.445 -6.905 -3.240 71 H3* C 7 H3* C 7 2.894 -9.181 -1.973 72 H1* C 7 H1* C 7 4.227 -5.751 -0.682 73 1H4 C 7 H41 C 7 -1.483 -5.468 2.762 74 2H4 C 7 H42 C 7 -0.335 -4.308 3.450 75 H5 C 7 H5 C 7 -0.811 -7.042 0.970 76 H6 C 7 H6 C 7 0.960 -7.620 -0.535 77 H3T C 7 H3T C 7 4.773 -9.714 -3.116 78 1H2* C 7 1H2* C 7 3.072 -8.374 0.010 79 2H2* C 7 2H2* C 7 4.850 -7.993 -0.228 Start of MODEL 8 1 1H5* G 1 1H5* G 1 4.281 1.802 10.895 2 2H5* G 1 2H5* G 1 3.044 1.160 9.792 3 H4* G 1 H4* G 1 6.057 1.275 9.291 4 H3* G 1 H3* G 1 4.455 3.416 9.014 5 H1* G 1 H1* G 1 4.626 0.982 5.982 6 H8 G 1 H8 G 1 1.245 0.622 7.976 7 H1 G 1 H1 G 1 2.019 -3.390 3.005 8 1H2 G 1 H21 G 1 3.977 -2.996 2.028 9 2H2 G 1 H22 G 1 5.036 -1.717 2.663 10 H5T G 1 H5T G 1 4.379 -0.819 9.842 11 1H2* G 1 1H2* G 1 2.688 2.413 7.803 12 2H2* G 1 2H2* G 1 3.645 3.038 6.435 13 1H5* C 2 1H5* C 2 6.666 2.676 5.022 14 2H5* C 2 2H5* C 2 7.290 4.198 4.354 15 H4* C 2 H4* C 2 6.179 2.965 2.550 16 H3* C 2 H3* C 2 5.159 5.578 3.318 17 H1* C 2 H1* C 2 3.921 2.427 1.688 18 1H4 C 2 H41 C 2 -1.235 -0.860 3.472 19 2H4 C 2 H42 C 2 -1.453 0.103 4.939 20 H5 C 2 H5 C 2 -0.216 2.178 5.315 21 H6 C 2 H6 C 2 1.753 3.414 4.590 22 1H2* C 2 1H2* C 2 3.002 4.663 3.580 23 2H2* C 2 2H2* C 2 2.875 4.952 2.031 24 1H5* G 3 1H5* G 3 4.342 3.398 -0.546 25 2H5* G 3 2H5* G 3 4.573 4.396 -1.987 26 H4* G 3 H4* G 3 2.723 2.799 -2.259 27 H3* G 3 H3* G 3 2.522 5.474 -2.987 28 H1* G 3 H1* G 3 -0.253 3.494 -1.325 29 H8 G 3 H8 G 3 0.660 6.381 1.041 30 H1 G 3 H1 G 3 -3.276 2.031 3.556 31 1H2 G 3 H21 G 3 -3.550 0.322 1.998 32 2H2 G 3 H22 G 3 -2.878 0.538 0.390 33 1H2* G 3 1H2* G 3 1.322 6.098 -1.042 34 2H2* G 3 2H2* G 3 -0.040 5.753 -2.146 35 1H5* A 4 1H5* A 4 -0.836 2.213 -3.557 36 2H5* A 4 2H5* A 4 -1.384 2.357 -5.237 37 H4* A 4 H4* A 4 -3.249 1.501 -3.978 38 H3* A 4 H3* A 4 -3.500 3.747 -5.534 39 H1* A 4 H1* A 4 -5.120 3.106 -2.215 40 H8 A 4 H8 A 4 -2.222 5.616 -1.507 41 1H6 A 4 H61 A 4 -4.928 5.916 4.103 42 2H6 A 4 H62 A 4 -3.515 6.470 3.195 43 H2 A 4 H2 A 4 -7.475 3.563 1.557 44 1H2* A 4 1H2* A 4 -3.460 5.251 -3.632 45 2H2* A 4 2H2* A 4 -5.222 4.952 -3.779 46 1H5* A 5 1H5* A 5 -6.855 -0.209 -6.764 47 2H5* A 5 2H5* A 5 -6.279 0.193 -5.137 48 H4* A 5 H4* A 5 -4.381 -1.096 -7.203 49 H3* A 5 H3* A 5 -6.535 -2.442 -5.816 50 H1* A 5 H1* A 5 -2.880 -2.431 -5.093 51 H8 A 5 H8 A 5 -4.491 -1.147 -1.827 52 1H6 A 5 H61 A 5 1.132 1.327 -0.728 53 2H6 A 5 H62 A 5 -0.512 1.280 -0.103 54 H2 A 5 H2 A 5 1.339 -0.697 -4.530 55 1H2* A 5 1H2* A 5 -5.558 -1.961 -3.698 56 2H2* A 5 2H2* A 5 -4.777 -3.538 -4.038 57 1H5* G 6 1H5* G 6 -2.495 -4.225 -6.700 58 2H5* G 6 2H5* G 6 -2.400 -5.965 -7.004 59 H4* G 6 H4* G 6 -0.526 -5.023 -5.626 60 H3* G 6 H3* G 6 -2.194 -7.311 -4.729 61 H1* G 6 H1* G 6 -0.037 -4.522 -2.908 62 H8 G 6 H8 G 6 -3.616 -5.252 -1.367 63 H1 G 6 H1 G 6 0.373 -1.262 1.675 64 1H2 G 6 H21 G 6 2.206 -0.941 0.454 65 2H2 G 6 H22 G 6 2.461 -1.917 -0.996 66 1H2* G 6 1H2* G 6 -1.919 -6.863 -2.533 67 2H2* G 6 2H2* G 6 -0.146 -6.865 -2.712 68 1H5* C 7 1H5* C 7 2.351 -6.763 -4.747 69 2H5* C 7 2H5* C 7 3.262 -8.277 -4.890 70 H4* C 7 H4* C 7 4.458 -6.815 -3.373 71 H3* C 7 H3* C 7 3.017 -9.103 -2.015 72 H1* C 7 H1* C 7 4.184 -5.577 -0.834 73 1H4 C 7 H41 C 7 -1.511 -5.545 2.651 74 2H4 C 7 H42 C 7 -0.383 -4.370 3.349 75 H5 C 7 H5 C 7 -0.777 -7.101 0.829 76 H6 C 7 H6 C 7 1.028 -7.604 -0.660 77 H3T C 7 H3T C 7 4.924 -9.606 -3.130 78 1H2* C 7 1H2* C 7 3.196 -8.227 -0.037 79 2H2* C 7 2H2* C 7 4.925 -7.735 -0.313 Start of MODEL 9 1 1H5* G 1 1H5* G 1 4.215 1.444 10.730 2 2H5* G 1 2H5* G 1 3.037 0.835 9.549 3 H4* G 1 H4* G 1 6.053 1.090 9.163 4 H3* G 1 H3* G 1 4.428 3.200 8.994 5 H1* G 1 H1* G 1 4.669 0.995 5.779 6 H8 G 1 H8 G 1 1.268 0.553 7.700 7 H1 G 1 H1 G 1 2.116 -3.416 2.711 8 1H2 G 1 H21 G 1 4.093 -3.054 1.785 9 2H2 G 1 H22 G 1 5.174 -1.810 2.453 10 H5T G 1 H5T G 1 4.422 -1.100 9.514 11 1H2* G 1 1H2* G 1 2.703 2.257 7.701 12 2H2* G 1 2H2* G 1 3.651 2.994 6.389 13 1H5* C 2 1H5* C 2 6.637 2.734 5.070 14 2H5* C 2 2H5* C 2 7.244 4.266 4.408 15 H4* C 2 H4* C 2 6.096 3.006 2.628 16 H3* C 2 H3* C 2 5.139 5.646 3.356 17 H1* C 2 H1* C 2 3.886 2.455 1.791 18 1H4 C 2 H41 C 2 -1.414 -0.612 3.495 19 2H4 C 2 H42 C 2 -1.684 0.426 4.905 20 H5 C 2 H5 C 2 -0.358 2.440 5.297 21 H6 C 2 H6 C 2 1.666 3.601 4.613 22 1H2* C 2 1H2* C 2 2.957 4.806 3.561 23 2H2* C 2 2H2* C 2 2.874 5.031 2.023 24 1H5* G 3 1H5* G 3 4.430 3.411 -0.442 25 2H5* G 3 2H5* G 3 4.613 4.353 -1.930 26 H4* G 3 H4* G 3 2.781 2.709 -2.087 27 H3* G 3 H3* G 3 2.531 5.356 -2.923 28 H1* G 3 H1* G 3 -0.165 3.362 -1.122 29 H8 G 3 H8 G 3 0.799 6.322 1.180 30 H1 G 3 H1 G 3 -3.621 2.242 3.411 31 1H2 G 3 H21 G 3 -3.862 0.529 1.871 32 2H2 G 3 H22 G 3 -2.996 0.626 0.349 33 1H2* G 3 1H2* G 3 1.324 6.043 -1.008 34 2H2* G 3 2H2* G 3 -0.035 5.607 -2.084 35 1H5* A 4 1H5* A 4 -0.876 2.101 -3.375 36 2H5* A 4 2H5* A 4 -1.374 2.190 -5.073 37 H4* A 4 H4* A 4 -3.332 1.463 -3.908 38 H3* A 4 H3* A 4 -3.409 3.694 -5.456 39 H1* A 4 H1* A 4 -5.184 3.129 -2.172 40 H8 A 4 H8 A 4 -2.221 5.564 -1.460 41 1H6 A 4 H61 A 4 -5.191 6.419 3.949 42 2H6 A 4 H62 A 4 -3.724 6.870 3.064 43 H2 A 4 H2 A 4 -7.590 3.743 1.571 44 1H2* A 4 1H2* A 4 -3.420 5.207 -3.566 45 2H2* A 4 2H2* A 4 -5.182 4.937 -3.779 46 1H5* A 5 1H5* A 5 -6.624 -0.188 -6.967 47 2H5* A 5 2H5* A 5 -6.207 0.175 -5.289 48 H4* A 5 H4* A 5 -4.118 -1.102 -7.195 49 H3* A 5 H3* A 5 -6.375 -2.418 -5.942 50 H1* A 5 H1* A 5 -2.766 -2.408 -5.070 51 H8 A 5 H8 A 5 -4.490 -1.125 -1.855 52 1H6 A 5 H61 A 5 1.135 1.247 -0.530 53 2H6 A 5 H62 A 5 -0.543 1.262 0.017 54 H2 A 5 H2 A 5 1.439 -0.743 -4.345 55 1H2* A 5 1H2* A 5 -5.502 -1.948 -3.777 56 2H2* A 5 2H2* A 5 -4.707 -3.527 -4.081 57 1H5* G 6 1H5* G 6 -2.312 -4.393 -6.582 58 2H5* G 6 2H5* G 6 -2.298 -6.151 -6.791 59 H4* G 6 H4* G 6 -0.485 -5.241 -5.326 60 H3* G 6 H3* G 6 -2.404 -7.269 -4.206 61 H1* G 6 H1* G 6 -0.073 -4.452 -2.714 62 H8 G 6 H8 G 6 -3.615 -5.315 -1.136 63 H1 G 6 H1 G 6 0.227 -1.092 1.773 64 1H2 G 6 H21 G 6 2.139 -0.909 0.649 65 2H2 G 6 H22 G 6 2.437 -1.959 -0.737 66 1H2* G 6 1H2* G 6 -1.625 -6.908 -2.081 67 2H2* G 6 2H2* G 6 0.061 -6.705 -2.627 68 1H5* C 7 1H5* C 7 1.944 -6.913 -4.825 69 2H5* C 7 2H5* C 7 2.880 -8.401 -5.050 70 H4* C 7 H4* C 7 4.254 -6.692 -3.985 71 H3* C 7 H3* C 7 3.721 -9.256 -2.649 72 H1* C 7 H1* C 7 4.361 -5.692 -1.096 73 1H4 C 7 H41 C 7 -1.339 -5.696 2.425 74 2H4 C 7 H42 C 7 -0.240 -4.483 3.102 75 H5 C 7 H5 C 7 -0.586 -7.247 0.608 76 H6 C 7 H6 C 7 1.193 -7.731 -0.878 77 H3T C 7 H3T C 7 5.680 -8.853 -3.671 78 1H2* C 7 1H2* C 7 3.192 -8.364 -0.639 79 2H2* C 7 2H2* C 7 4.970 -7.991 -0.588 Start of MODEL 10 1 1H5* G 1 1H5* G 1 4.560 1.655 10.847 2 2H5* G 1 2H5* G 1 3.300 1.018 9.768 3 H4* G 1 H4* G 1 6.290 1.236 9.163 4 H3* G 1 H3* G 1 4.655 3.350 9.032 5 H1* G 1 H1* G 1 4.715 1.038 5.899 6 H8 G 1 H8 G 1 1.434 0.585 8.025 7 H1 G 1 H1 G 1 2.057 -3.372 2.991 8 1H2 G 1 H21 G 1 3.974 -2.972 1.946 9 2H2 G 1 H22 G 1 5.053 -1.693 2.547 10 H5T G 1 H5T G 1 4.679 -0.926 9.700 11 1H2* G 1 1H2* G 1 2.848 2.362 7.874 12 2H2* G 1 2H2* G 1 3.716 3.056 6.485 13 1H5* C 2 1H5* C 2 6.623 2.720 4.940 14 2H5* C 2 2H5* C 2 7.232 4.246 4.265 15 H4* C 2 H4* C 2 6.014 3.062 2.489 16 H3* C 2 H3* C 2 5.033 5.653 3.358 17 H1* C 2 H1* C 2 3.766 2.513 1.712 18 1H4 C 2 H41 C 2 -1.268 -0.851 3.660 19 2H4 C 2 H42 C 2 -1.466 0.110 5.137 20 H5 C 2 H5 C 2 -0.228 2.201 5.488 21 H6 C 2 H6 C 2 1.695 3.469 4.685 22 1H2* C 2 1H2* C 2 2.895 4.743 3.648 23 2H2* C 2 2H2* C 2 2.725 5.041 2.109 24 1H5* G 3 1H5* G 3 4.313 3.459 -0.470 25 2H5* G 3 2H5* G 3 4.484 4.439 -1.932 26 H4* G 3 H4* G 3 2.727 2.688 -2.128 27 H3* G 3 H3* G 3 2.428 5.308 -3.019 28 H1* G 3 H1* G 3 -0.280 3.274 -1.257 29 H8 G 3 H8 G 3 0.576 6.284 1.027 30 H1 G 3 H1 G 3 -3.330 1.857 3.530 31 1H2 G 3 H21 G 3 -3.512 0.126 1.975 32 2H2 G 3 H22 G 3 -2.907 0.395 0.352 33 1H2* G 3 1H2* G 3 1.152 5.996 -1.152 34 2H2* G 3 2H2* G 3 -0.154 5.515 -2.274 35 1H5* A 4 1H5* A 4 -0.976 2.077 -3.448 36 2H5* A 4 2H5* A 4 -1.509 2.115 -5.139 37 H4* A 4 H4* A 4 -3.435 1.488 -3.883 38 H3* A 4 H3* A 4 -3.523 3.684 -5.513 39 H1* A 4 H1* A 4 -5.220 3.240 -2.186 40 H8 A 4 H8 A 4 -2.282 5.748 -1.611 41 1H6 A 4 H61 A 4 -4.774 6.215 4.066 42 2H6 A 4 H62 A 4 -3.403 6.748 3.079 43 H2 A 4 H2 A 4 -7.376 3.687 1.735 44 1H2* A 4 1H2* A 4 -3.451 5.248 -3.673 45 2H2* A 4 2H2* A 4 -5.225 5.011 -3.842 46 1H5* A 5 1H5* A 5 -6.704 -0.115 -6.967 47 2H5* A 5 2H5* A 5 -6.191 0.229 -5.309 48 H4* A 5 H4* A 5 -4.194 -0.868 -7.391 49 H3* A 5 H3* A 5 -6.329 -2.362 -6.194 50 H1* A 5 H1* A 5 -2.756 -2.323 -5.262 51 H8 A 5 H8 A 5 -4.481 -1.227 -1.997 52 1H6 A 5 H61 A 5 1.111 1.174 -0.570 53 2H6 A 5 H62 A 5 -0.568 1.159 -0.039 54 H2 A 5 H2 A 5 1.444 -0.656 -4.462 55 1H2* A 5 1H2* A 5 -5.501 -1.896 -3.990 56 2H2* A 5 2H2* A 5 -4.704 -3.466 -4.323 57 1H5* G 6 1H5* G 6 -2.181 -4.055 -6.590 58 2H5* G 6 2H5* G 6 -2.063 -5.775 -6.980 59 H4* G 6 H4* G 6 -0.418 -4.988 -5.287 60 H3* G 6 H3* G 6 -2.344 -7.186 -4.614 61 H1* G 6 H1* G 6 -0.104 -4.577 -2.729 62 H8 G 6 H8 G 6 -3.605 -5.404 -1.022 63 H1 G 6 H1 G 6 0.332 -1.217 1.794 64 1H2 G 6 H21 G 6 2.147 -0.920 0.560 65 2H2 G 6 H22 G 6 2.403 -1.914 -0.878 66 1H2* G 6 1H2* G 6 -1.975 -6.928 -2.392 67 2H2* G 6 2H2* G 6 -0.204 -6.901 -2.606 68 1H5* C 7 1H5* C 7 2.142 -6.829 -4.784 69 2H5* C 7 2H5* C 7 3.062 -8.337 -4.936 70 H4* C 7 H4* C 7 4.294 -6.803 -3.507 71 H3* C 7 H3* C 7 3.008 -9.143 -2.079 72 H1* C 7 H1* C 7 4.139 -5.581 -0.957 73 1H4 C 7 H41 C 7 -1.348 -5.679 2.842 74 2H4 C 7 H42 C 7 -0.247 -4.438 3.461 75 H5 C 7 H5 C 7 -0.657 -7.228 1.022 76 H6 C 7 H6 C 7 1.041 -7.685 -0.577 77 H3T C 7 H3T C 7 4.874 -9.582 -3.294 78 1H2* C 7 1H2* C 7 3.185 -8.232 -0.153 79 2H2* C 7 2H2* C 7 4.934 -7.762 -0.445 Start of MODEL 11 1 1H5* G 1 1H5* G 1 4.334 1.189 10.882 2 2H5* G 1 2H5* G 1 3.105 0.593 9.745 3 H4* G 1 H4* G 1 6.090 0.955 9.201 4 H3* G 1 H3* G 1 4.366 2.998 9.165 5 H1* G 1 H1* G 1 4.566 0.878 5.903 6 H8 G 1 H8 G 1 1.285 0.146 7.975 7 H1 G 1 H1 G 1 2.060 -3.395 2.668 8 1H2 G 1 H21 G 1 3.899 -2.774 1.604 9 2H2 G 1 H22 G 1 4.930 -1.501 2.294 10 H5T G 1 H5T G 1 4.547 -1.301 9.564 11 1H2* G 1 1H2* G 1 2.620 2.009 7.919 12 2H2* G 1 2H2* G 1 3.483 2.816 6.589 13 1H5* C 2 1H5* C 2 6.391 2.735 5.079 14 2H5* C 2 2H5* C 2 6.955 4.318 4.504 15 H4* C 2 H4* C 2 5.739 3.165 2.666 16 H3* C 2 H3* C 2 4.772 5.736 3.641 17 H1* C 2 H1* C 2 3.510 2.684 1.877 18 1H4 C 2 H41 C 2 -1.377 -0.917 3.840 19 2H4 C 2 H42 C 2 -1.576 -0.019 5.351 20 H5 C 2 H5 C 2 -0.396 2.115 5.736 21 H6 C 2 H6 C 2 1.351 3.544 4.843 22 1H2* C 2 1H2* C 2 2.634 4.801 3.911 23 2H2* C 2 2H2* C 2 2.469 5.156 2.348 24 1H5* G 3 1H5* G 3 4.211 3.676 -0.388 25 2H5* G 3 2H5* G 3 4.509 4.789 -1.729 26 H4* G 3 H4* G 3 2.898 2.995 -2.276 27 H3* G 3 H3* G 3 2.598 5.585 -3.111 28 H1* G 3 H1* G 3 -0.451 3.700 -1.409 29 H8 G 3 H8 G 3 0.457 6.705 0.736 30 H1 G 3 H1 G 3 -2.906 2.100 3.602 31 1H2 G 3 H21 G 3 -3.113 0.313 2.110 32 2H2 G 3 H22 G 3 -2.667 0.575 0.435 33 1H2* G 3 1H2* G 3 1.227 6.265 -1.320 34 2H2* G 3 2H2* G 3 -0.021 5.821 -2.513 35 1H5* A 4 1H5* A 4 -0.550 2.271 -3.775 36 2H5* A 4 2H5* A 4 -1.150 2.294 -5.442 37 H4* A 4 H4* A 4 -2.955 1.514 -4.036 38 H3* A 4 H3* A 4 -3.310 3.646 -5.750 39 H1* A 4 H1* A 4 -4.774 3.225 -2.347 40 H8 A 4 H8 A 4 -2.193 6.151 -2.008 41 1H6 A 4 H61 A 4 -4.342 6.341 3.821 42 2H6 A 4 H62 A 4 -3.161 7.086 2.730 43 H2 A 4 H2 A 4 -6.540 3.266 1.755 44 1H2* A 4 1H2* A 4 -3.224 5.292 -3.983 45 2H2* A 4 2H2* A 4 -4.990 4.945 -4.035 46 1H5* A 5 1H5* A 5 -6.838 -0.287 -6.642 47 2H5* A 5 2H5* A 5 -6.145 0.154 -5.072 48 H4* A 5 H4* A 5 -4.435 -1.268 -7.190 49 H3* A 5 H3* A 5 -6.581 -2.517 -5.773 50 H1* A 5 H1* A 5 -2.962 -2.663 -4.932 51 H8 A 5 H8 A 5 -4.523 -1.122 -1.775 52 1H6 A 5 H61 A 5 1.076 1.494 -0.973 53 2H6 A 5 H62 A 5 -0.535 1.449 -0.294 54 H2 A 5 H2 A 5 1.293 -0.933 -4.532 55 1H2* A 5 1H2* A 5 -5.636 -1.916 -3.659 56 2H2* A 5 2H2* A 5 -4.957 -3.564 -3.869 57 1H5* G 6 1H5* G 6 -2.547 -4.465 -6.330 58 2H5* G 6 2H5* G 6 -2.517 -6.218 -6.550 59 H4* G 6 H4* G 6 -0.682 -5.271 -5.122 60 H3* G 6 H3* G 6 -2.509 -7.383 -4.005 61 H1* G 6 H1* G 6 -0.195 -4.562 -2.519 62 H8 G 6 H8 G 6 -3.367 -5.886 -0.599 63 H1 G 6 H1 G 6 0.002 -0.993 1.807 64 1H2 G 6 H21 G 6 1.863 -0.711 0.609 65 2H2 G 6 H22 G 6 2.126 -1.702 -0.830 66 1H2* G 6 1H2* G 6 -1.597 -7.109 -1.914 67 2H2* G 6 2H2* G 6 0.037 -6.806 -2.551 68 1H5* C 7 1H5* C 7 1.722 -6.838 -5.035 69 2H5* C 7 2H5* C 7 2.797 -8.226 -5.267 70 H4* C 7 H4* C 7 4.015 -6.331 -4.279 71 H3* C 7 H3* C 7 3.678 -8.863 -2.725 72 H1* C 7 H1* C 7 4.127 -5.142 -1.526 73 1H4 C 7 H41 C 7 -0.973 -6.176 2.668 74 2H4 C 7 H42 C 7 -0.058 -4.762 3.213 75 H5 C 7 H5 C 7 -0.143 -7.604 0.797 76 H6 C 7 H6 C 7 1.494 -7.769 -0.913 77 H3T C 7 H3T C 7 5.435 -8.645 -4.133 78 1H2* C 7 1H2* C 7 3.698 -7.959 -0.774 79 2H2* C 7 2H2* C 7 5.302 -7.158 -1.152 Start of MODEL 12 1 1H5* G 1 1H5* G 1 4.297 1.575 10.913 2 2H5* G 1 2H5* G 1 3.054 0.974 9.793 3 H4* G 1 H4* G 1 6.066 1.116 9.275 4 H3* G 1 H3* G 1 4.461 3.260 9.080 5 H1* G 1 H1* G 1 4.621 0.928 5.977 6 H8 G 1 H8 G 1 1.257 0.428 7.981 7 H1 G 1 H1 G 1 2.091 -3.357 2.836 8 1H2 G 1 H21 G 1 4.029 -2.868 1.872 9 2H2 G 1 H22 G 1 5.064 -1.587 2.548 10 H5T G 1 H5T G 1 4.393 -1.006 9.771 11 1H2* G 1 1H2* G 1 2.685 2.281 7.854 12 2H2* G 1 2H2* G 1 3.620 2.958 6.500 13 1H5* C 2 1H5* C 2 6.593 2.589 5.066 14 2H5* C 2 2H5* C 2 7.243 4.103 4.400 15 H4* C 2 H4* C 2 6.039 2.910 2.598 16 H3* C 2 H3* C 2 5.135 5.545 3.406 17 H1* C 2 H1* C 2 3.788 2.426 1.787 18 1H4 C 2 H41 C 2 -1.388 -0.754 3.668 19 2H4 C 2 H42 C 2 -1.583 0.228 5.130 20 H5 C 2 H5 C 2 -0.286 2.278 5.486 21 H6 C 2 H6 C 2 1.680 3.488 4.714 22 1H2* C 2 1H2* C 2 2.955 4.704 3.677 23 2H2* C 2 2H2* C 2 2.820 4.992 2.136 24 1H5* G 3 1H5* G 3 4.373 3.313 -0.436 25 2H5* G 3 2H5* G 3 4.619 4.296 -1.888 26 H4* G 3 H4* G 3 2.818 2.618 -2.155 27 H3* G 3 H3* G 3 2.612 5.238 -3.031 28 H1* G 3 H1* G 3 -0.222 3.339 -1.278 29 H8 G 3 H8 G 3 0.776 6.308 0.983 30 H1 G 3 H1 G 3 -3.334 2.086 3.507 31 1H2 G 3 H21 G 3 -3.592 0.348 1.988 32 2H2 G 3 H22 G 3 -2.932 0.537 0.372 33 1H2* G 3 1H2* G 3 1.354 5.972 -1.166 34 2H2* G 3 2H2* G 3 0.032 5.551 -2.289 35 1H5* A 4 1H5* A 4 -0.835 2.024 -3.556 36 2H5* A 4 2H5* A 4 -1.349 2.112 -5.247 37 H4* A 4 H4* A 4 -3.293 1.438 -4.012 38 H3* A 4 H3* A 4 -3.379 3.633 -5.630 39 H1* A 4 H1* A 4 -5.088 3.186 -2.305 40 H8 A 4 H8 A 4 -2.135 5.661 -1.704 41 1H6 A 4 H61 A 4 -4.750 6.241 3.914 42 2H6 A 4 H62 A 4 -3.351 6.749 2.956 43 H2 A 4 H2 A 4 -7.320 3.714 1.552 44 1H2* A 4 1H2* A 4 -3.324 5.202 -3.784 45 2H2* A 4 2H2* A 4 -5.096 4.951 -3.959 46 1H5* A 5 1H5* A 5 -6.804 -0.197 -6.878 47 2H5* A 5 2H5* A 5 -6.254 0.212 -5.247 48 H4* A 5 H4* A 5 -4.359 -1.169 -7.257 49 H3* A 5 H3* A 5 -6.573 -2.421 -5.912 50 H1* A 5 H1* A 5 -2.954 -2.524 -5.065 51 H8 A 5 H8 A 5 -4.593 -1.110 -1.875 52 1H6 A 5 H61 A 5 1.085 1.192 -0.679 53 2H6 A 5 H62 A 5 -0.579 1.229 -0.105 54 H2 A 5 H2 A 5 1.322 -0.943 -4.421 55 1H2* A 5 1H2* A 5 -5.651 -1.899 -3.772 56 2H2* A 5 2H2* A 5 -4.934 -3.518 -4.035 57 1H5* G 6 1H5* G 6 -2.561 -4.322 -6.499 58 2H5* G 6 2H5* G 6 -2.473 -6.071 -6.746 59 H4* G 6 H4* G 6 -0.710 -5.053 -5.258 60 H3* G 6 H3* G 6 -2.397 -7.364 -4.372 61 H1* G 6 H1* G 6 -0.275 -4.503 -2.688 62 H8 G 6 H8 G 6 -3.757 -5.363 -0.963 63 H1 G 6 H1 G 6 0.199 -1.180 1.846 64 1H2 G 6 H21 G 6 2.034 -0.924 0.621 65 2H2 G 6 H22 G 6 2.278 -1.934 -0.806 66 1H2* G 6 1H2* G 6 -1.981 -6.945 -2.187 67 2H2* G 6 2H2* G 6 -0.225 -6.826 -2.469 68 1H5* C 7 1H5* C 7 1.879 -6.319 -4.803 69 2H5* C 7 2H5* C 7 2.975 -7.655 -5.201 70 H4* C 7 H4* C 7 4.145 -5.870 -3.948 71 H3* C 7 H3* C 7 3.862 -8.615 -2.792 72 H1* C 7 H1* C 7 4.177 -5.141 -1.074 73 1H4 C 7 H41 C 7 -1.240 -5.872 2.660 74 2H4 C 7 H42 C 7 -0.208 -4.573 3.287 75 H5 C 7 H5 C 7 -0.431 -7.350 0.824 76 H6 C 7 H6 C 7 1.337 -7.610 -0.844 77 H3T C 7 H3T C 7 5.562 -8.173 -4.190 78 1H2* C 7 1H2* C 7 4.299 -8.206 -0.799 79 2H2* C 7 2H2* C 7 5.493 -6.957 -1.121 Start of MODEL 13 1 1H5* G 1 1H5* G 1 4.261 1.289 10.842 2 2H5* G 1 2H5* G 1 3.056 0.698 9.677 3 H4* G 1 H4* G 1 6.064 0.993 9.217 4 H3* G 1 H3* G 1 4.410 3.085 9.122 5 H1* G 1 H1* G 1 4.609 0.937 5.875 6 H8 G 1 H8 G 1 1.260 0.354 7.864 7 H1 G 1 H1 G 1 2.065 -3.359 2.677 8 1H2 G 1 H21 G 1 3.995 -2.883 1.692 9 2H2 G 1 H22 G 1 5.056 -1.641 2.389 10 H5T G 1 H5T G 1 4.465 -1.223 9.560 11 1H2* G 1 1H2* G 1 2.660 2.127 7.856 12 2H2* G 1 2H2* G 1 3.560 2.906 6.533 13 1H5* C 2 1H5* C 2 6.477 2.670 5.094 14 2H5* C 2 2H5* C 2 7.097 4.213 4.467 15 H4* C 2 H4* C 2 5.884 3.043 2.655 16 H3* C 2 H3* C 2 4.961 5.658 3.525 17 H1* C 2 H1* C 2 3.674 2.559 1.842 18 1H4 C 2 H41 C 2 -1.443 -0.748 3.692 19 2H4 C 2 H42 C 2 -1.665 0.206 5.168 20 H5 C 2 H5 C 2 -0.397 2.288 5.548 21 H6 C 2 H6 C 2 1.490 3.587 4.725 22 1H2* C 2 1H2* C 2 2.787 4.805 3.751 23 2H2* C 2 2H2* C 2 2.676 5.095 2.198 24 1H5* G 3 1H5* G 3 4.331 3.508 -0.441 25 2H5* G 3 2H5* G 3 4.596 4.565 -1.833 26 H4* G 3 H4* G 3 2.887 2.845 -2.260 27 H3* G 3 H3* G 3 2.602 5.462 -3.057 28 H1* G 3 H1* G 3 -0.326 3.569 -1.255 29 H8 G 3 H8 G 3 0.738 6.522 0.935 30 H1 G 3 H1 G 3 -3.260 2.210 3.491 31 1H2 G 3 H21 G 3 -3.457 0.435 1.990 32 2H2 G 3 H22 G 3 -2.810 0.628 0.376 33 1H2* G 3 1H2* G 3 1.324 6.148 -1.201 34 2H2* G 3 2H2* G 3 0.010 5.721 -2.325 35 1H5* A 4 1H5* A 4 -0.696 2.185 -3.575 36 2H5* A 4 2H5* A 4 -1.257 2.247 -5.253 37 H4* A 4 H4* A 4 -3.135 1.467 -3.976 38 H3* A 4 H3* A 4 -3.370 3.661 -5.575 39 H1* A 4 H1* A 4 -4.964 3.131 -2.200 40 H8 A 4 H8 A 4 -2.159 5.810 -1.730 41 1H6 A 4 H61 A 4 -4.767 6.493 3.872 42 2H6 A 4 H62 A 4 -3.435 7.070 2.860 43 H2 A 4 H2 A 4 -7.062 3.523 1.748 44 1H2* A 4 1H2* A 4 -3.348 5.226 -3.739 45 2H2* A 4 2H2* A 4 -5.111 4.883 -3.856 46 1H5* A 5 1H5* A 5 -6.735 -0.262 -6.830 47 2H5* A 5 2H5* A 5 -6.192 0.124 -5.191 48 H4* A 5 H4* A 5 -4.267 -1.206 -7.213 49 H3* A 5 H3* A 5 -6.471 -2.504 -5.895 50 H1* A 5 H1* A 5 -2.862 -2.560 -5.022 51 H8 A 5 H8 A 5 -4.514 -1.143 -1.833 52 1H6 A 5 H61 A 5 1.093 1.391 -0.792 53 2H6 A 5 H62 A 5 -0.546 1.357 -0.167 54 H2 A 5 H2 A 5 1.363 -0.862 -4.455 55 1H2* A 5 1H2* A 5 -5.573 -1.969 -3.741 56 2H2* A 5 2H2* A 5 -4.828 -3.579 -4.002 57 1H5* G 6 1H5* G 6 -2.424 -4.452 -6.444 58 2H5* G 6 2H5* G 6 -2.388 -6.205 -6.667 59 H4* G 6 H4* G 6 -0.606 -5.268 -5.168 60 H3* G 6 H3* G 6 -2.492 -7.355 -4.091 61 H1* G 6 H1* G 6 -0.198 -4.531 -2.598 62 H8 G 6 H8 G 6 -3.560 -5.613 -0.796 63 H1 G 6 H1 G 6 0.079 -1.002 1.764 64 1H2 G 6 H21 G 6 1.976 -0.809 0.619 65 2H2 G 6 H22 G 6 2.265 -1.856 -0.776 66 1H2* G 6 1H2* G 6 -1.686 -7.033 -1.971 67 2H2* G 6 2H2* G 6 -0.012 -6.784 -2.532 68 1H5* C 7 1H5* C 7 1.773 -6.830 -4.931 69 2H5* C 7 2H5* C 7 2.790 -8.254 -5.197 70 H4* C 7 H4* C 7 4.084 -6.417 -4.221 71 H3* C 7 H3* C 7 3.835 -9.021 -2.855 72 H1* C 7 H1* C 7 4.310 -5.408 -1.371 73 1H4 C 7 H41 C 7 -1.108 -5.914 2.546 74 2H4 C 7 H42 C 7 -0.109 -4.581 3.143 75 H5 C 7 H5 C 7 -0.319 -7.413 0.741 76 H6 C 7 H6 C 7 1.369 -7.741 -0.884 77 H3T C 7 H3T C 7 5.663 -8.500 -4.052 78 1H2* C 7 1H2* C 7 3.432 -8.171 -0.815 79 2H2* C 7 2H2* C 7 5.165 -7.628 -0.918 Start of MODEL 14 1 1H5* G 1 1H5* G 1 4.640 1.830 10.863 2 2H5* G 1 2H5* G 1 3.376 1.174 9.800 3 H4* G 1 H4* G 1 6.365 1.344 9.201 4 H3* G 1 H3* G 1 4.735 3.462 8.999 5 H1* G 1 H1* G 1 4.811 1.055 5.934 6 H8 G 1 H8 G 1 1.518 0.693 8.059 7 H1 G 1 H1 G 1 2.089 -3.369 3.103 8 1H2 G 1 H21 G 1 4.042 -3.048 2.090 9 2H2 G 1 H22 G 1 5.136 -1.767 2.667 10 H5T G 1 H5T G 1 4.741 -0.780 9.789 11 1H2* G 1 1H2* G 1 2.941 2.460 7.848 12 2H2* G 1 2H2* G 1 3.832 3.103 6.448 13 1H5* C 2 1H5* C 2 6.816 2.729 4.979 14 2H5* C 2 2H5* C 2 7.417 4.237 4.259 15 H4* C 2 H4* C 2 6.261 2.963 2.512 16 H3* C 2 H3* C 2 5.249 5.582 3.262 17 H1* C 2 H1* C 2 3.970 2.390 1.726 18 1H4 C 2 H41 C 2 -1.187 -0.790 3.602 19 2H4 C 2 H42 C 2 -1.419 0.221 5.043 20 H5 C 2 H5 C 2 -0.094 2.250 5.425 21 H6 C 2 H6 C 2 1.939 3.391 4.695 22 1H2* C 2 1H2* C 2 3.112 4.669 3.604 23 2H2* C 2 2H2* C 2 2.917 4.921 2.073 24 1H5* G 3 1H5* G 3 4.274 3.303 -0.471 25 2H5* G 3 2H5* G 3 4.496 4.258 -1.944 26 H4* G 3 H4* G 3 2.621 2.723 -2.192 27 H3* G 3 H3* G 3 2.416 5.421 -2.846 28 H1* G 3 H1* G 3 -0.291 3.387 -1.273 29 H8 G 3 H8 G 3 0.563 6.138 1.261 30 H1 G 3 H1 G 3 -3.479 1.691 3.452 31 1H2 G 3 H21 G 3 -3.705 0.070 1.813 32 2H2 G 3 H22 G 3 -2.995 0.361 0.235 33 1H2* G 3 1H2* G 3 1.258 5.973 -0.840 34 2H2* G 3 2H2* G 3 -0.119 5.690 -1.943 35 1H5* A 4 1H5* A 4 -0.994 2.158 -3.501 36 2H5* A 4 2H5* A 4 -1.468 2.359 -5.199 37 H4* A 4 H4* A 4 -3.403 1.493 -4.053 38 H3* A 4 H3* A 4 -3.543 3.789 -5.551 39 H1* A 4 H1* A 4 -5.328 3.086 -2.303 40 H8 A 4 H8 A 4 -2.321 5.381 -1.466 41 1H6 A 4 H61 A 4 -5.126 5.695 4.109 42 2H6 A 4 H62 A 4 -3.645 6.163 3.256 43 H2 A 4 H2 A 4 -7.800 3.705 1.394 44 1H2* A 4 1H2* A 4 -3.570 5.230 -3.598 45 2H2* A 4 2H2* A 4 -5.324 4.965 -3.829 46 1H5* A 5 1H5* A 5 -6.732 -0.104 -7.096 47 2H5* A 5 2H5* A 5 -6.227 0.243 -5.438 48 H4* A 5 H4* A 5 -4.249 -0.926 -7.502 49 H3* A 5 H3* A 5 -6.393 -2.351 -6.236 50 H1* A 5 H1* A 5 -2.797 -2.317 -5.344 51 H8 A 5 H8 A 5 -4.504 -1.169 -2.097 52 1H6 A 5 H61 A 5 1.095 1.200 -0.670 53 2H6 A 5 H62 A 5 -0.567 1.116 -0.098 54 H2 A 5 H2 A 5 1.404 -0.564 -4.591 55 1H2* A 5 1H2* A 5 -5.532 -1.838 -4.064 56 2H2* A 5 2H2* A 5 -4.744 -3.420 -4.360 57 1H5* G 6 1H5* G 6 -2.254 -4.072 -6.754 58 2H5* G 6 2H5* G 6 -2.144 -5.813 -7.055 59 H4* G 6 H4* G 6 -0.412 -4.928 -5.500 60 H3* G 6 H3* G 6 -2.273 -7.108 -4.660 61 H1* G 6 H1* G 6 -0.048 -4.385 -2.888 62 H8 G 6 H8 G 6 -3.731 -4.834 -1.452 63 H1 G 6 H1 G 6 0.513 -1.360 1.845 64 1H2 G 6 H21 G 6 2.312 -0.973 0.560 65 2H2 G 6 H22 G 6 2.539 -1.936 -0.904 66 1H2* G 6 1H2* G 6 -1.952 -6.690 -2.457 67 2H2* G 6 2H2* G 6 -0.177 -6.703 -2.651 68 1H5* C 7 1H5* C 7 2.310 -6.890 -4.632 69 2H5* C 7 2H5* C 7 3.110 -8.471 -4.697 70 H4* C 7 H4* C 7 4.373 -7.032 -3.203 71 H3* C 7 H3* C 7 2.764 -9.186 -1.813 72 H1* C 7 H1* C 7 4.123 -5.696 -0.705 73 1H4 C 7 H41 C 7 -1.549 -5.360 2.787 74 2H4 C 7 H42 C 7 -0.351 -4.261 3.497 75 H5 C 7 H5 C 7 -0.931 -6.897 0.911 76 H6 C 7 H6 C 7 0.841 -7.482 -0.592 77 H3T C 7 H3T C 7 4.652 -9.839 -2.891 78 1H2* C 7 1H2* C 7 2.952 -8.241 0.136 79 2H2* C 7 2H2* C 7 4.726 -7.900 -0.111