1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Hinds, M.G. Lackmann, M. Skea, G.L. Harrison, P.J. Huang, D.C.S. Day, C.L. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic C3 H7 N O2 89.093 y ALANINE L-peptide linking C6 H15 N4 O2 1 175.209 y ARGININE L-peptide linking C4 H8 N2 O3 132.118 y ASPARAGINE L-peptide linking C4 H7 N O4 133.103 y ASPARTIC ACID L-peptide linking C3 H7 N O2 S 121.158 y CYSTEINE L-peptide linking C5 H10 N2 O3 146.144 y GLUTAMINE L-peptide linking C5 H9 N O4 147.129 y GLUTAMIC ACID L-peptide linking C2 H5 N O2 75.067 y GLYCINE peptide linking C6 H10 N3 O2 1 156.162 y HISTIDINE L-peptide linking C6 H13 N O2 131.173 y ISOLEUCINE L-peptide linking C6 H13 N O2 131.173 y LEUCINE L-peptide linking C6 H15 N2 O2 1 147.195 y LYSINE L-peptide linking C5 H11 N O2 S 149.211 y METHIONINE L-peptide linking C9 H11 N O2 165.189 y PHENYLALANINE L-peptide linking C5 H9 N O2 115.130 y PROLINE L-peptide linking C3 H7 N O3 105.093 y SERINE L-peptide linking C4 H9 N O3 119.119 y THREONINE L-peptide linking C11 H12 N2 O2 204.225 y TRYPTOPHAN L-peptide linking C9 H11 N O3 181.189 y TYROSINE L-peptide linking C5 H11 N O2 117.146 y VALINE L-peptide linking UK Embo J. EMJODG 0897 0261-4189 22 1497 1507 10.1093/emboj/cdg144 12660157 The structure of Bcl-w reveals a role for the C-terminal residues in modulating biological activity 2003 10.2210/pdb1o0l/pdb pdb_00001o0l 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 1 SINGLE WAVELENGTH M 1 1.0 20254.684 Apoptosis regulator Bcl-W A128E 1 man polymer BCL2-like 2 protein no no GPLGSMATPASAPDTRALVADFVGYKLRQKGYVCGAGPGEGPAADPLHQAMRAAGDEFETRFRRTFSDLAAQLHVTPGSA QQRFTQVSDELFQGGPNWGRLVAFFVFGAALCAESVNKEMEPLVGQVQEWMVEYLETRLADWIHSSGGWAEFTALYGDGA LEEARRLREGNWASVRTVLTGAVALGAL GPLGSMATPASAPDTRALVADFVGYKLRQKGYVCGAGPGEGPAADPLHQAMRAAGDEFETRFRRTFSDLAAQLHVTPGSA QQRFTQVSDELFQGGPNWGRLVAFFVFGAALCAESVNKEMEPLVGQVQEWMVEYLETRLADWIHSSGGWAEFTALYGDGA LEEARRLREGNWASVRTVLTGAVALGAL A polypeptide(L) n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n n human Homo Escherichia Escherichia coli sample BCL2L2 OR BCLW OR KIAA0271 9606 Homo sapiens 469008 Escherichia coli BL21(DE3) BL21(DE3) PLASMID pGex6P-3 database_2 pdbx_nmr_software pdbx_struct_assembly pdbx_struct_oper_list struct_ref_seq_dif repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations 1 0 2003-04-01 1 1 2008-04-29 1 2 2011-07-13 1 3 2021-10-27 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name _struct_ref_seq_dif.details RCSB Y RCSB 2003-02-22 REL The structure was determined using heteronuclear 3D NMR. structures with acceptable covalent geometry, structures with the least restraint violations, structures with the lowest energy, target function 256 20 2D NOESY 3D_15N-separated_NOESY HNHA 3D_13C-separated_NOESY 120mM 6.7 ambient 303.15 K 120mM 6.7 ambient 303.15 K 120mM 6.7 ambient 303.15 K the structures are based on a total of 3871 constraints. Distance constraints: 694 intraresidue; 843 sequential; 912 short range; 993 long range; 64 hydrogen bonds Dihedral angle constraints: 136 phi constraints; 101 psi constraints; 34 chi1 constraints; 30 chi2 constraints distance geometry torsion angle dynamics simulated annealing 1 closest to the average 1 mM Bcl-w 50mM Sodium Phosphate, 70mM NaCl, 2mM TCEP, 95% H2O, 5% D2O 1 mM, U-15N Bcl-w 50mM Sodium Phosphate, 70mM NaCl, 2mM TCEP, 95% H2O, 5% D2O 1 mM, U-13C, 15N, Bcl-w 50mM Sodium Phosphate, 70mM NaCl, 2mM TCEP, 95% H2O, 5% D2O Bruker A.G. collection XwinNMR 2.6 Bartels et al. J. Biomol. NMR 1995, 6, 1-10. data analysis XEASY 1.3 Guntert et al. J. Mol. Biol. 1997, 273, 283-298. structure solution DYANA 1.5 Brunger et al. Acta Crystallogr. D, 1998, 54, 905-921. refinement CNS 1.1 600 Bruker DRX GLY -4 n 1 GLY -4 A PRO -3 n 2 PRO -3 A LEU -2 n 3 LEU -2 A GLY -1 n 4 GLY -1 A SER 0 n 5 SER 0 A MET 1 n 6 MET 1 A ALA 2 n 7 ALA 2 A THR 3 n 8 THR 3 A PRO 4 n 9 PRO 4 A ALA 5 n 10 ALA 5 A SER 6 n 11 SER 6 A ALA 7 n 12 ALA 7 A PRO 8 n 13 PRO 8 A ASP 9 n 14 ASP 9 A THR 10 n 15 THR 10 A ARG 11 n 16 ARG 11 A ALA 12 n 17 ALA 12 A LEU 13 n 18 LEU 13 A VAL 14 n 19 VAL 14 A ALA 15 n 20 ALA 15 A ASP 16 n 21 ASP 16 A PHE 17 n 22 PHE 17 A VAL 18 n 23 VAL 18 A GLY 19 n 24 GLY 19 A TYR 20 n 25 TYR 20 A LYS 21 n 26 LYS 21 A LEU 22 n 27 LEU 22 A ARG 23 n 28 ARG 23 A GLN 24 n 29 GLN 24 A LYS 25 n 30 LYS 25 A GLY 26 n 31 GLY 26 A TYR 27 n 32 TYR 27 A VAL 28 n 33 VAL 28 A CYS 29 n 34 CYS 29 A GLY 30 n 35 GLY 30 A ALA 31 n 36 ALA 31 A GLY 32 n 37 GLY 32 A PRO 33 n 38 PRO 33 A GLY 34 n 39 GLY 34 A GLU 35 n 40 GLU 35 A GLY 36 n 41 GLY 36 A PRO 37 n 42 PRO 37 A ALA 38 n 43 ALA 38 A ALA 39 n 44 ALA 39 A ASP 40 n 45 ASP 40 A PRO 41 n 46 PRO 41 A LEU 42 n 47 LEU 42 A HIS 43 n 48 HIS 43 A GLN 44 n 49 GLN 44 A ALA 45 n 50 ALA 45 A MET 46 n 51 MET 46 A ARG 47 n 52 ARG 47 A ALA 48 n 53 ALA 48 A ALA 49 n 54 ALA 49 A GLY 50 n 55 GLY 50 A ASP 51 n 56 ASP 51 A GLU 52 n 57 GLU 52 A PHE 53 n 58 PHE 53 A GLU 54 n 59 GLU 54 A THR 55 n 60 THR 55 A ARG 56 n 61 ARG 56 A PHE 57 n 62 PHE 57 A ARG 58 n 63 ARG 58 A ARG 59 n 64 ARG 59 A THR 60 n 65 THR 60 A PHE 61 n 66 PHE 61 A SER 62 n 67 SER 62 A ASP 63 n 68 ASP 63 A LEU 64 n 69 LEU 64 A ALA 65 n 70 ALA 65 A ALA 66 n 71 ALA 66 A GLN 67 n 72 GLN 67 A LEU 68 n 73 LEU 68 A HIS 69 n 74 HIS 69 A VAL 70 n 75 VAL 70 A THR 71 n 76 THR 71 A PRO 72 n 77 PRO 72 A GLY 73 n 78 GLY 73 A SER 74 n 79 SER 74 A ALA 75 n 80 ALA 75 A GLN 76 n 81 GLN 76 A GLN 77 n 82 GLN 77 A ARG 78 n 83 ARG 78 A PHE 79 n 84 PHE 79 A THR 80 n 85 THR 80 A GLN 81 n 86 GLN 81 A VAL 82 n 87 VAL 82 A SER 83 n 88 SER 83 A ASP 84 n 89 ASP 84 A GLU 85 n 90 GLU 85 A LEU 86 n 91 LEU 86 A PHE 87 n 92 PHE 87 A GLN 88 n 93 GLN 88 A GLY 89 n 94 GLY 89 A GLY 90 n 95 GLY 90 A PRO 91 n 96 PRO 91 A ASN 92 n 97 ASN 92 A TRP 93 n 98 TRP 93 A GLY 94 n 99 GLY 94 A ARG 95 n 100 ARG 95 A LEU 96 n 101 LEU 96 A VAL 97 n 102 VAL 97 A ALA 98 n 103 ALA 98 A PHE 99 n 104 PHE 99 A PHE 100 n 105 PHE 100 A VAL 101 n 106 VAL 101 A PHE 102 n 107 PHE 102 A GLY 103 n 108 GLY 103 A ALA 104 n 109 ALA 104 A ALA 105 n 110 ALA 105 A LEU 106 n 111 LEU 106 A CYS 107 n 112 CYS 107 A ALA 108 n 113 ALA 108 A GLU 109 n 114 GLU 109 A SER 110 n 115 SER 110 A VAL 111 n 116 VAL 111 A ASN 112 n 117 ASN 112 A LYS 113 n 118 LYS 113 A GLU 114 n 119 GLU 114 A MET 115 n 120 MET 115 A GLU 116 n 121 GLU 116 A PRO 117 n 122 PRO 117 A LEU 118 n 123 LEU 118 A VAL 119 n 124 VAL 119 A GLY 120 n 125 GLY 120 A GLN 121 n 126 GLN 121 A VAL 122 n 127 VAL 122 A GLN 123 n 128 GLN 123 A GLU 124 n 129 GLU 124 A TRP 125 n 130 TRP 125 A MET 126 n 131 MET 126 A VAL 127 n 132 VAL 127 A GLU 128 n 133 GLU 128 A TYR 129 n 134 TYR 129 A LEU 130 n 135 LEU 130 A GLU 131 n 136 GLU 131 A THR 132 n 137 THR 132 A ARG 133 n 138 ARG 133 A LEU 134 n 139 LEU 134 A ALA 135 n 140 ALA 135 A ASP 136 n 141 ASP 136 A TRP 137 n 142 TRP 137 A ILE 138 n 143 ILE 138 A HIS 139 n 144 HIS 139 A SER 140 n 145 SER 140 A SER 141 n 146 SER 141 A GLY 142 n 147 GLY 142 A GLY 143 n 148 GLY 143 A TRP 144 n 149 TRP 144 A ALA 145 n 150 ALA 145 A GLU 146 n 151 GLU 146 A PHE 147 n 152 PHE 147 A THR 148 n 153 THR 148 A ALA 149 n 154 ALA 149 A LEU 150 n 155 LEU 150 A TYR 151 n 156 TYR 151 A GLY 152 n 157 GLY 152 A ASP 153 n 158 ASP 153 A GLY 154 n 159 GLY 154 A ALA 155 n 160 ALA 155 A LEU 156 n 161 LEU 156 A GLU 157 n 162 GLU 157 A GLU 158 n 163 GLU 158 A ALA 159 n 164 ALA 159 A ARG 160 n 165 ARG 160 A ARG 161 n 166 ARG 161 A LEU 162 n 167 LEU 162 A ARG 163 n 168 ARG 163 A GLU 164 n 169 GLU 164 A GLY 165 n 170 GLY 165 A ASN 166 n 171 ASN 166 A TRP 167 n 172 TRP 167 A ALA 168 n 173 ALA 168 A SER 169 n 174 SER 169 A VAL 170 n 175 VAL 170 A ARG 171 n 176 ARG 171 A THR 172 n 177 THR 172 A VAL 173 n 178 VAL 173 A LEU 174 n 179 LEU 174 A THR 175 n 180 THR 175 A GLY 176 n 181 GLY 176 A ALA 177 n 182 ALA 177 A VAL 178 n 183 VAL 178 A ALA 179 n 184 ALA 179 A LEU 180 n 185 LEU 180 A GLY 181 n 186 GLY 181 A ALA 182 n 187 ALA 182 A LEU 183 n 188 LEU 183 A author_defined_assembly 1 monomeric 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 1_555 identity operation 0.0000000000 0.0000000000 0.0000000000 1 A A HA HB2 LEU LEU 130 134 1.32 1 A A HH12 OE2 ARG GLU 56 164 1.57 1 A A HZ2 OE1 LYS GLU 21 54 1.60 2 A A HG11 HG VAL LEU 173 174 1.27 2 A A HA HD2 LEU PHE 96 99 1.34 2 A A OE1 HZ1 GLU LYS 109 113 1.56 3 A A HA HB2 LEU LEU 130 134 1.28 3 A A HA HH22 ALA ARG 49 163 1.33 3 A A HZ3 OE1 LYS GLU 21 54 1.55 3 A A HZ2 OE2 LYS GLU 25 54 1.55 3 A A OD1 HH22 ASP ARG 16 47 1.57 4 A A HZ3 OE1 LYS GLU 21 54 1.56 4 A A O HG1 GLN THR 76 80 1.59 4 A A HZ3 OE2 LYS GLU 25 54 1.60 5 A A HE2 HZ3 MET TRP 46 144 1.31 5 A A HA HD1 LEU PHE 96 99 1.35 5 A A OE2 HZ3 GLU LYS 109 113 1.55 5 A A HZ1 OE1 LYS GLU 21 54 1.57 6 A A HA HD2 LEU PHE 96 99 1.34 6 A A HZ1 OE1 LYS GLU 21 54 1.56 6 A A OE1 HZ3 GLU LYS 109 113 1.58 7 A A HE22 HD11 GLN LEU 67 106 1.31 7 A A HA HD1 LEU PHE 96 99 1.34 7 A A OE1 HZ3 GLU LYS 109 113 1.56 8 A A HG11 HG VAL LEU 173 174 1.32 8 A A HA HB2 LEU LEU 130 134 1.33 8 A A HZ2 OE2 LYS GLU 25 54 1.55 8 A A HZ1 OE1 LYS GLU 21 54 1.55 8 A A OD1 HH22 ASP ARG 16 47 1.57 8 A A O HG1 THR THR 172 175 1.60 9 A A HZ3 OE1 LYS GLU 21 54 1.57 11 A A HA HB2 LEU LEU 130 134 1.33 11 A A HZ2 OE1 LYS GLU 21 54 1.56 12 A A HH21 HG11 ARG VAL 59 178 1.32 12 A A OE2 HZ2 GLU LYS 109 113 1.59 13 A A HA HB2 LEU LEU 130 134 1.34 13 A A OE1 HZ2 GLU LYS 109 113 1.56 14 A A HG12 HG VAL LEU 173 174 1.26 14 A A HA HB2 LEU LEU 130 134 1.31 14 A A HA HD1 LEU PHE 96 99 1.33 14 A A HZ1 OE1 LYS GLU 21 54 1.54 14 A A OE1 HZ3 GLU LYS 109 113 1.55 14 A A OD1 HH21 ASP ARG 16 47 1.58 15 A A HA HD2 LEU PHE 96 99 1.22 15 A A HA HB2 LEU LEU 130 134 1.33 15 A A OE2 HH21 GLU ARG 158 161 1.59 16 A A HA HD22 PHE LEU 61 64 1.26 16 A A HE1 HD22 PHE LEU 100 130 1.35 16 A A OE1 HZ2 GLU LYS 109 113 1.55 16 A A HZ3 OE1 LYS GLU 21 54 1.58 17 A A OE1 HZ3 GLU LYS 109 113 1.54 17 A A HZ3 OE1 LYS GLU 21 54 1.56 17 A A O H PHE PHE 53 57 1.59 18 A A HA HD1 LEU PHE 96 99 1.29 18 A A HB2 HZ ALA PHE 49 147 1.31 18 A A HB3 HB3 ASP LEU 63 180 1.32 18 A A HA HB2 LEU LEU 130 134 1.35 18 A A OE1 HZ3 GLU LYS 109 113 1.59 19 A A HA HD2 LEU PHE 96 99 1.29 19 A A HZ1 OE1 LYS GLU 21 54 1.57 20 A A HG12 HG VAL LEU 173 174 1.28 20 A A HA HB2 LEU LEU 130 134 1.30 20 A A OE1 HZ3 GLU LYS 109 113 1.56 20 A A HZ2 OE1 LYS GLU 21 54 1.58 1 A LEU -2 -122.88 -149.77 1 A SER 6 59.23 88.65 1 A PRO 8 -69.13 52.38 1 A TYR 27 -91.20 52.96 1 A PRO 37 -93.94 -158.07 1 A LEU 42 -179.49 -32.32 1 A THR 60 -120.05 -61.02 1 A VAL 70 -90.88 -60.83 1 A THR 71 -172.70 145.70 1 A PRO 72 -78.11 -158.33 1 A PRO 91 -81.08 41.89 1 A ALA 177 -79.67 29.29 1 A ALA 182 -109.85 -168.20 2 A PRO 4 -82.70 37.18 2 A PRO 37 -97.55 -159.87 2 A PRO 41 -80.12 47.03 2 A LEU 42 -175.07 -31.97 2 A ARG 56 -92.92 -61.22 2 A ARG 59 -81.39 46.43 2 A VAL 70 -93.01 -60.11 2 A THR 71 -174.69 146.96 2 A SER 74 -73.81 48.96 2 A PRO 91 -80.47 38.38 2 A LYS 113 -138.27 -155.13 2 A GLU 114 -99.16 53.64 3 A LYS 25 -153.60 78.43 3 A TYR 27 -91.85 56.52 3 A PRO 37 -94.39 -154.63 3 A PRO 41 -71.36 36.58 3 A LEU 42 -167.81 -27.78 3 A THR 60 -121.33 -57.43 3 A VAL 70 -91.37 -63.47 3 A THR 71 -172.88 144.47 3 A LYS 113 -132.53 -151.45 3 A GLU 114 -108.69 51.09 3 A MET 115 -146.87 42.24 3 A TYR 151 -142.35 30.30 4 A LEU -2 67.84 92.38 4 A ASP 9 -90.34 -157.58 4 A LYS 25 -154.56 83.40 4 A TYR 27 -98.68 54.79 4 A PRO 37 -91.33 -147.34 4 A PRO 41 -80.74 48.46 4 A LEU 42 -177.27 -30.18 4 A THR 60 -120.41 -70.94 4 A VAL 70 -91.86 -68.37 4 A PRO 91 -80.50 39.80 4 A LYS 113 -126.90 -169.25 5 A TYR 27 -92.21 51.15 5 A PRO 37 -84.54 -139.15 5 A PRO 41 -77.08 45.61 5 A LEU 42 -173.93 -27.47 5 A VAL 70 -90.56 -62.37 5 A SER 74 -76.44 34.87 5 A PRO 91 -79.90 41.19 5 A GLU 114 -90.95 46.92 5 A MET 115 -142.22 37.15 5 A ARG 133 -130.59 -41.36 5 A LEU 180 -101.04 63.93 5 A ALA 182 -161.45 -4.76 6 A MET 1 63.53 -171.00 6 A ASP 9 -78.18 -162.27 6 A LYS 25 -154.71 78.17 6 A TYR 27 -90.59 50.50 6 A PRO 37 -98.41 -151.56 6 A LEU 42 -178.97 -32.23 6 A VAL 70 -90.85 -70.61 6 A SER 74 -74.39 46.39 6 A PRO 91 -75.87 46.95 6 A LYS 113 -125.72 -152.44 6 A GLU 114 -108.19 50.81 6 A THR 175 -57.01 96.91 7 A ALA 5 -156.73 84.27 7 A LYS 25 -156.31 77.70 7 A PRO 37 -93.50 -155.74 7 A PRO 41 -81.54 49.39 7 A LEU 42 -179.68 -33.42 7 A VAL 70 -91.49 -76.39 7 A PRO 91 -80.65 42.07 7 A LYS 113 -121.42 -152.79 7 A GLU 114 -108.68 47.98 8 A ASP 9 -89.30 -151.70 8 A LYS 25 -158.16 79.40 8 A PRO 37 -96.06 -150.27 8 A PRO 41 -78.27 41.12 8 A LEU 42 -170.44 -28.84 8 A ARG 59 -78.19 37.84 8 A VAL 70 -90.54 -74.99 8 A SER 74 -74.24 41.81 8 A PRO 91 -80.70 38.98 8 A GLU 114 -90.78 57.84 9 A PRO 8 -72.99 40.75 9 A ASP 9 -90.89 -156.65 9 A LYS 25 -156.47 63.09 9 A PRO 37 -90.53 -133.83 9 A PRO 41 -81.36 37.03 9 A LEU 42 -165.61 -29.93 9 A THR 60 -121.27 -51.07 9 A VAL 70 -91.50 -65.25 9 A PRO 91 -77.80 45.78 9 A ASN 166 -69.40 -71.39 10 A MET 1 73.81 146.01 10 A LEU 42 -178.96 -31.55 10 A ARG 56 -105.06 -65.62 10 A ARG 59 -87.34 40.90 10 A VAL 70 -91.42 -68.82 10 A SER 74 -75.68 44.62 10 A PRO 91 -80.44 40.81 10 A MET 115 -140.95 37.23 11 A LYS 25 -132.16 -56.19 11 A TYR 27 -78.32 46.06 11 A PRO 37 -87.50 -150.49 11 A LEU 42 179.82 -32.66 11 A ARG 59 -119.65 79.11 11 A VAL 70 -91.62 -68.87 11 A SER 74 -74.83 28.19 11 A PRO 91 -81.37 36.76 11 A GLU 114 65.35 143.57 11 A MET 115 76.86 126.47 11 A GLU 116 -120.53 -58.11 12 A LYS 25 -150.04 79.90 12 A TYR 27 -96.68 55.57 12 A PRO 37 -94.58 -141.90 12 A PRO 41 -81.31 45.51 12 A LEU 42 -174.27 -30.44 12 A VAL 70 -91.34 -77.88 12 A SER 74 -74.57 42.37 12 A PRO 91 -78.77 42.18 12 A MET 115 -140.32 36.87 13 A LYS 25 -121.19 -58.88 13 A TYR 27 -81.44 49.44 13 A PRO 37 -89.31 -143.17 13 A ALA 39 -147.59 -33.73 13 A PRO 41 -77.83 48.70 13 A LEU 42 -177.27 -29.96 13 A VAL 70 -92.26 -67.90 13 A PRO 72 -89.36 -153.56 13 A SER 74 -74.94 47.18 13 A PRO 91 -80.09 41.36 14 A LEU -2 65.36 77.15 14 A PRO 8 -73.56 49.32 14 A LYS 25 -151.08 76.25 14 A TYR 27 -90.26 56.43 14 A PRO 41 -70.76 28.77 14 A LEU 42 -166.78 -23.51 14 A VAL 70 -91.76 -73.24 14 A SER 74 -75.99 24.96 14 A PRO 91 -82.78 39.06 14 A LYS 113 -127.48 -167.51 14 A MET 115 -141.66 37.75 15 A LYS 25 -160.10 76.14 15 A PRO 37 -94.79 -155.13 15 A PRO 41 -81.32 47.20 15 A LEU 42 -177.94 -30.90 15 A VAL 70 -91.92 -71.92 15 A SER 74 -73.61 45.13 15 A PRO 91 -81.74 41.66 15 A LEU 180 -92.98 36.03 16 A MET 1 76.65 123.92 16 A LYS 25 -153.95 79.93 16 A PRO 37 -89.31 -138.64 16 A LEU 42 179.16 -33.44 16 A THR 60 -120.10 -59.16 16 A VAL 70 -91.68 -64.74 16 A SER 74 -73.92 39.81 16 A PRO 91 -79.90 39.37 17 A LEU -2 72.51 -55.36 17 A ASP 9 -77.48 -168.35 17 A LYS 25 -146.26 -52.70 17 A LEU 42 179.53 -31.06 17 A THR 60 -121.55 -55.82 17 A VAL 70 -92.01 -63.36 17 A SER 74 -74.45 47.39 17 A PRO 91 -79.43 44.94 17 A LYS 113 -119.67 -168.29 17 A GLU 114 -94.86 58.43 17 A ARG 133 -131.95 -42.91 17 A ALA 177 -79.97 25.72 18 A LEU -2 73.54 -55.17 18 A PRO 4 -67.54 98.04 18 A ALA 5 -88.65 42.53 18 A LYS 25 -158.36 75.34 18 A PRO 37 -89.05 -148.53 18 A ALA 39 -133.70 -34.78 18 A LEU 42 179.59 -34.12 18 A THR 71 -171.97 144.51 18 A SER 74 -74.37 48.59 18 A PRO 91 -81.37 37.01 19 A LEU -2 -78.70 -83.71 19 A MET 1 73.83 152.72 19 A ALA 5 -170.59 -47.28 19 A PRO 8 -75.13 34.93 19 A ASP 9 -84.75 -159.08 19 A LYS 25 -157.43 72.19 19 A PRO 37 -88.28 -132.08 19 A ALA 39 -146.93 39.90 19 A PRO 41 -82.39 49.63 19 A LEU 42 179.80 -27.84 19 A ARG 59 -96.88 51.69 19 A VAL 70 -91.87 -72.69 19 A ASN 112 -45.73 -70.25 19 A LYS 113 -175.55 37.45 19 A MET 115 70.31 114.84 20 A MET 1 70.86 -56.41 20 A SER 6 62.68 96.94 20 A LYS 25 -150.44 77.89 20 A TYR 27 -92.57 59.67 20 A PRO 37 -85.82 -112.00 20 A ALA 39 -146.70 20.12 20 A LEU 42 179.29 -33.69 20 A THR 60 -120.85 -62.51 20 A VAL 70 -91.07 -71.65 20 A SER 74 -74.41 37.15 20 A PRO 91 -80.87 43.06 20 A GLU 114 -84.50 48.74 THE STRUCTURE OF BCL-W REVEALS A ROLE FOR THE C-TERMINAL RESIDUES IN MODULATING BIOLOGICAL ACTIVITY 1 N N A ASP 9 A ASP 14 HELX_P A LYS 25 A LYS 30 1 1 17 A GLY 32 A GLY 37 HELX_P A GLY 36 A GLY 41 5 2 5 A LEU 42 A LEU 47 HELX_P A PHE 57 A PHE 62 1 3 16 A THR 60 A THR 65 HELX_P A LEU 68 A LEU 73 1 4 9 A ALA 75 A ALA 80 HELX_P A PHE 87 A PHE 92 1 5 13 A ASN 92 A ASN 97 HELX_P A ASN 112 A ASN 117 1 6 21 A MET 115 A MET 120 HELX_P A ARG 133 A ARG 138 1 7 19 A ARG 133 A ARG 138 HELX_P A GLY 142 A GLY 147 1 8 10 A GLY 143 A GLY 148 HELX_P A TYR 151 A TYR 156 1 9 9 A LEU 156 A LEU 161 HELX_P A ARG 171 A ARG 176 1 10 16 APOPTOSIS APOPTOSIS, BCL-2, HELICAL BUNDLE, BINDING GROOVE, BH3 BCLW_HUMAN UNP 1 1 Q92843 MATPASAPDTRALVADFVGYKLRQKGYVCGAGPGEGPAADPLHQAMRAAGDEFETRFRRTFSDLAAQLHVTPGSAQQRFT QVSDELFQGGPNWGRLVAFFVFGAALCAESVNKEMEPLVGQVQEWMVAYLETRLADWIHSSGGWAEFTALYGDGALEEAR RLREGNWASVRTVLTGAVALGAL 1 183 1O0L 1 183 Q92843 A 1 6 188 1 cloning artifact GLY -4 1O0L A Q92843 UNP 1 1 cloning artifact PRO -3 1O0L A Q92843 UNP 2 1 cloning artifact LEU -2 1O0L A Q92843 UNP 3 1 cloning artifact GLY -1 1O0L A Q92843 UNP 4 1 cloning artifact SER 0 1O0L A Q92843 UNP 5 1 ALA engineered mutation GLU 128 1O0L A Q92843 UNP 128 133