1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Boisbouvier, J. Albrand, J.-P. Blackledge, M. Jaquinod, M. Schweitz, H. Lazdunski, M. Marion, D. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 1 90.00 90.00 90.00 1.000 1.000 1.000 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 C5 H11 N O2 117.146 y VALINE L-peptide linking UK J.Mol.Biol. JMOBAK 0070 0022-2836 283 205 219 10.1006/jmbi.1998.2057 9761684 A structural homologue of colipase in black mamba venom revealed by NMR floating disulphide bridge analysis. 1998 10.2210/pdb1imt/pdb pdb_00001imt 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 8531.039 INTESTINAL TOXIN 1 1 nat polymer MIT1 no no AVITGACERDLQCGKGTCCAVSLWIKSVRVCTPVGTSGEDCHPASHKIPFSGQRMHHTCPCAPNLACVQTSPKKFKCLSK AVITGACERDLQCGKGTCCAVSLWIKSVRVCTPVGTSGEDCHPASHKIPFSGQRMHHTCPCAPNLACVQTSPKKFKCLSK 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 black mamba Dendroaspis sample 8620 Dendroaspis polylepis polylepis VENOM Dendroaspis polylepis polylepis database_2 pdbx_database_status 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 Other 1 0 1999-04-20 1 1 2008-03-24 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_database_status.process_site _pdbx_nmr_software.name _struct_ref_seq_dif.details Y BNL 1998-04-14 REL MODEL NUMBER 2 WAS DETERMINED USING 2D NMR SPECTROSCOPY ON PURIFIED TOXIN. LEAST RESTRAINT VIOLATION AND BEST PHYSICAL ENERGY 110 39 NOESY TOCSY COSY HSQC HSQC-TOCSY 4.5 305 K REFINEMENT DETAILS CAN BE FOUND IN THE JRNL CITATION: BLACKLEDGE, M. ET AL. (1995). J. MOL. BIOL. 245, PP661-681 RESTRAINED SIMULATED ANNEALING AND RESTRAINED MOLECULAR DYNAMICS ENERGY REFINEMENT 2 H2O OR D2O BIOSYM/MSI refinement Discover structure solution Discover 600 Bruker AMX600 ALA 1 n 1 ALA 1 A VAL 2 n 2 VAL 2 A ILE 3 n 3 ILE 3 A THR 4 n 4 THR 4 A GLY 5 n 5 GLY 5 A ALA 6 n 6 ALA 6 A CYS 7 n 7 CYS 7 A GLU 8 n 8 GLU 8 A ARG 9 n 9 ARG 9 A ASP 10 n 10 ASP 10 A LEU 11 n 11 LEU 11 A GLN 12 n 12 GLN 12 A CYS 13 n 13 CYS 13 A GLY 14 n 14 GLY 14 A LYS 15 n 15 LYS 15 A GLY 16 n 16 GLY 16 A THR 17 n 17 THR 17 A CYS 18 n 18 CYS 18 A CYS 19 n 19 CYS 19 A ALA 20 n 20 ALA 20 A VAL 21 n 21 VAL 21 A SER 22 n 22 SER 22 A LEU 23 n 23 LEU 23 A TRP 24 n 24 TRP 24 A ILE 25 n 25 ILE 25 A LYS 26 n 26 LYS 26 A SER 27 n 27 SER 27 A VAL 28 n 28 VAL 28 A ARG 29 n 29 ARG 29 A VAL 30 n 30 VAL 30 A CYS 31 n 31 CYS 31 A THR 32 n 32 THR 32 A PRO 33 n 33 PRO 33 A VAL 34 n 34 VAL 34 A GLY 35 n 35 GLY 35 A THR 36 n 36 THR 36 A SER 37 n 37 SER 37 A GLY 38 n 38 GLY 38 A GLU 39 n 39 GLU 39 A ASP 40 n 40 ASP 40 A CYS 41 n 41 CYS 41 A HIS 42 n 42 HIS 42 A PRO 43 n 43 PRO 43 A ALA 44 n 44 ALA 44 A SER 45 n 45 SER 45 A HIS 46 n 46 HIS 46 A LYS 47 n 47 LYS 47 A ILE 48 n 48 ILE 48 A PRO 49 n 49 PRO 49 A PHE 50 n 50 PHE 50 A SER 51 n 51 SER 51 A GLY 52 n 52 GLY 52 A GLN 53 n 53 GLN 53 A ARG 54 n 54 ARG 54 A MET 55 n 55 MET 55 A HIS 56 n 56 HIS 56 A HIS 57 n 57 HIS 57 A THR 58 n 58 THR 58 A CYS 59 n 59 CYS 59 A PRO 60 n 60 PRO 60 A CYS 61 n 61 CYS 61 A ALA 62 n 62 ALA 62 A PRO 63 n 63 PRO 63 A ASN 64 n 64 ASN 64 A LEU 65 n 65 LEU 65 A ALA 66 n 66 ALA 66 A CYS 67 n 67 CYS 67 A VAL 68 n 68 VAL 68 A GLN 69 n 69 GLN 69 A THR 70 n 70 THR 70 A SER 71 n 71 SER 71 A PRO 72 n 72 PRO 72 A LYS 73 n 73 LYS 73 A LYS 74 n 74 LYS 74 A PHE 75 n 75 PHE 75 A LYS 76 n 76 LYS 76 A CYS 77 n 77 CYS 77 A LEU 78 n 78 LEU 78 A SER 79 n 79 SER 79 A LYS 80 n 80 LYS 80 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 x,y,z identity operation 0.0000000000 0.0000000000 0.0000000000 A O CYS 18 A O CYS 18 A N THR 32 A N THR 32 A O ALA 66 A O ALA 66 A N LEU 78 A N LEU 78 2 A ARG 29 0.147 SIDE CHAIN 4 A PHE 50 0.141 SIDE CHAIN 4 A ARG 54 0.078 SIDE CHAIN 7 A HIS 46 0.090 SIDE CHAIN 8 A ARG 54 0.129 SIDE CHAIN 12 A ARG 29 0.105 SIDE CHAIN 12 A HIS 57 0.095 SIDE CHAIN 13 A ARG 54 0.100 SIDE CHAIN 19 A HIS 57 0.081 SIDE CHAIN 20 A ARG 29 0.125 SIDE CHAIN 22 A PHE 75 0.095 SIDE CHAIN 23 A HIS 57 0.098 SIDE CHAIN 26 A HIS 57 0.131 SIDE CHAIN 27 A ARG 29 0.112 SIDE CHAIN 27 A HIS 46 0.085 SIDE CHAIN 29 A ARG 29 0.108 SIDE CHAIN 32 A ARG 9 0.088 SIDE CHAIN 32 A PHE 75 0.097 SIDE CHAIN 33 A ARG 9 0.109 SIDE CHAIN 33 A PHE 75 0.129 SIDE CHAIN 35 A ARG 29 0.107 SIDE CHAIN 36 A ARG 54 0.121 SIDE CHAIN 39 A HIS 57 0.098 SIDE CHAIN 1 A GLU 8 -136.13 -32.29 1 A CYS 13 -138.91 -52.22 1 A SER 37 -38.86 108.52 1 A LYS 47 -48.08 161.36 1 A MET 55 74.10 -40.54 1 A ASN 64 -87.40 35.79 2 A THR 4 -74.85 33.10 2 A CYS 13 -99.28 -60.67 2 A CYS 31 -69.48 99.55 2 A SER 37 -36.31 111.83 2 A LYS 73 71.48 -39.81 2 A LYS 74 -66.20 81.73 2 A SER 79 -79.28 37.79 3 A ILE 3 -118.91 67.54 3 A LYS 15 -39.17 -35.24 3 A LYS 26 -57.99 -0.08 3 A SER 37 -41.05 107.53 3 A LYS 47 -48.88 156.48 3 A PRO 63 -24.64 -43.49 3 A LYS 73 71.64 -44.36 4 A GLU 8 -131.12 -36.17 4 A CYS 13 -104.04 -119.55 4 A LYS 15 -53.89 83.67 4 A LYS 26 -58.76 -1.38 4 A CYS 31 -65.55 99.91 4 A SER 45 -67.34 91.12 4 A HIS 46 -23.99 134.06 4 A PRO 63 -37.27 78.89 4 A ASN 64 160.63 -52.88 4 A THR 70 -131.48 -32.38 4 A LYS 73 72.98 -15.37 5 A VAL 2 -83.68 36.90 5 A ILE 3 -0.72 -88.18 5 A ALA 6 133.24 145.42 5 A LEU 11 -39.70 -38.47 5 A TRP 24 -99.83 -66.79 5 A LYS 26 -56.04 -6.75 5 A CYS 31 -65.17 95.38 5 A SER 37 -41.40 108.53 5 A SER 45 -59.12 106.89 5 A LYS 47 -59.31 179.30 5 A MET 55 -78.64 33.94 5 A HIS 57 -79.33 37.50 5 A PRO 63 -46.64 79.41 5 A ASN 64 166.46 -48.50 5 A LYS 73 72.94 -34.34 5 A LYS 74 -69.95 85.49 6 A ILE 3 61.68 -71.21 6 A LYS 15 -74.76 34.18 6 A VAL 21 -38.01 143.78 6 A LYS 26 -53.44 -7.54 6 A CYS 31 -67.11 97.33 6 A ALA 44 -101.85 44.34 6 A HIS 46 31.89 116.33 6 A SER 51 -70.51 46.33 6 A ARG 54 -63.99 97.04 6 A HIS 57 -76.38 49.18 6 A PRO 63 -33.56 -35.29 6 A LYS 73 72.06 -45.27 6 A LYS 74 -68.77 83.34 7 A VAL 2 69.52 -62.15 7 A ILE 3 -61.59 99.77 7 A THR 4 -57.61 78.15 7 A LEU 11 -39.90 -38.41 7 A LYS 15 -39.33 -38.39 7 A VAL 21 -48.39 151.37 7 A TRP 24 -99.61 -71.87 7 A LYS 26 -57.47 2.98 7 A CYS 31 -65.51 96.71 7 A SER 37 -32.11 111.50 7 A SER 45 -58.21 106.63 7 A PRO 63 -43.48 79.40 7 A ASN 64 166.07 -54.80 7 A PRO 72 -37.37 117.77 7 A LYS 73 77.45 -33.31 8 A THR 4 -121.17 -93.76 8 A CYS 13 -99.71 -78.01 8 A LYS 15 -50.45 91.39 8 A SER 37 -38.97 113.92 8 A SER 45 -30.62 109.24 8 A LYS 47 -75.99 46.57 8 A ILE 48 -7.94 119.26 8 A MET 55 -84.15 -99.98 8 A HIS 56 64.38 -41.20 8 A HIS 57 78.53 -41.25 8 A PRO 63 -47.93 82.18 8 A ASN 64 171.93 -51.58 8 A LYS 73 74.82 -44.64 8 A LYS 74 -67.75 78.95 9 A THR 4 -75.63 44.92 9 A ASP 10 -26.58 -56.83 9 A LYS 15 -39.48 -37.41 9 A LYS 26 -59.46 -5.73 9 A SER 37 -34.47 104.60 9 A ARG 54 -65.81 95.14 9 A PRO 63 -47.25 78.04 9 A ASN 64 156.75 -48.52 9 A LYS 73 72.15 -41.94 10 A THR 4 -141.25 34.36 10 A LYS 15 -55.35 107.99 10 A CYS 31 -62.84 90.86 10 A SER 37 -39.49 108.71 10 A ARG 54 -68.56 94.39 10 A LYS 73 75.15 -50.91 10 A LYS 74 -52.56 95.52 11 A THR 4 -49.28 95.75 11 A GLU 8 -140.29 -47.03 11 A CYS 13 -128.75 -74.48 11 A LYS 15 -45.45 92.96 11 A LYS 26 -49.27 -19.15 11 A SER 45 -37.13 106.74 11 A HIS 46 -35.60 122.86 11 A SER 51 -69.05 66.58 11 A PRO 63 -61.82 78.96 11 A ASN 64 178.23 -47.47 11 A THR 70 -98.77 -63.25 11 A LYS 73 70.43 -40.36 11 A LYS 74 -68.56 91.53 12 A VAL 2 52.78 -91.43 12 A CYS 31 -67.82 98.65 12 A SER 37 -38.31 120.83 12 A SER 45 -74.49 45.67 12 A HIS 46 29.79 -87.22 12 A PRO 63 -36.81 -39.65 12 A ASN 64 -107.99 54.40 12 A LYS 73 72.19 -38.02 12 A LYS 74 -68.16 89.22 13 A LYS 15 -59.98 101.71 13 A SER 37 -34.89 109.23 13 A PRO 63 -62.61 79.87 13 A ASN 64 165.29 -48.83 13 A LYS 73 74.66 -47.09 13 A LYS 74 -69.95 74.08 14 A VAL 2 67.78 -68.05 14 A ASP 10 -34.94 -39.59 14 A CYS 13 -105.03 -66.11 14 A LYS 15 -39.67 115.52 14 A SER 37 -41.13 103.33 14 A SER 45 -66.49 87.53 14 A HIS 57 -77.82 40.98 14 A PRO 63 -41.06 77.36 14 A ASN 64 162.10 -46.44 14 A LYS 73 70.24 -35.96 14 A LYS 74 -64.43 83.21 15 A ALA 6 67.50 148.41 15 A CYS 13 -99.88 -76.25 15 A LYS 15 -54.20 95.74 15 A TRP 24 -98.73 -65.22 15 A LYS 26 -59.01 3.09 15 A SER 45 -56.59 101.81 15 A MET 55 -79.49 34.06 15 A PRO 63 -25.73 -42.13 15 A LYS 73 72.51 -45.77 15 A LYS 74 -69.19 89.42 16 A VAL 2 58.47 -67.82 16 A ILE 3 -146.25 -45.84 16 A THR 4 -62.41 66.71 16 A ASP 10 -22.58 -56.83 16 A LYS 26 -64.73 5.89 16 A CYS 31 -59.39 90.66 16 A ALA 44 -100.02 43.47 16 A SER 45 -70.86 23.54 16 A HIS 46 55.83 3.71 16 A LYS 47 59.40 -178.50 16 A PRO 63 -36.59 -39.25 16 A LYS 73 66.53 -42.09 16 A LYS 74 -55.35 98.72 17 A CYS 13 -117.39 -113.73 17 A LYS 15 -54.60 88.80 17 A TRP 24 -99.35 -68.58 17 A LYS 26 -53.62 -3.70 17 A CYS 31 -67.57 98.21 17 A LYS 73 74.15 -42.96 17 A LYS 74 -66.95 80.32 17 A LEU 78 -123.50 -168.09 18 A VAL 2 -77.05 49.03 18 A ILE 3 -60.56 99.91 18 A ILE 25 -160.17 101.35 18 A CYS 31 -66.69 94.72 18 A LYS 73 73.12 -41.47 18 A LYS 74 -68.57 75.73 19 A THR 4 -177.63 -159.59 19 A LEU 23 -58.95 7.29 19 A TRP 24 -132.88 -74.05 19 A LYS 26 -58.35 2.59 19 A CYS 31 -62.06 90.46 19 A SER 37 -32.99 103.42 19 A SER 45 -56.80 103.81 19 A MET 55 69.75 -22.49 19 A PRO 63 -39.37 -31.61 19 A PRO 72 -36.12 124.92 19 A LYS 73 72.54 -39.13 19 A LYS 74 -69.85 90.37 20 A SER 45 -67.41 85.14 20 A HIS 46 -41.74 159.11 20 A LYS 47 -69.54 -167.56 20 A SER 51 -69.31 66.43 20 A MET 55 77.34 -45.28 20 A HIS 57 -76.45 44.82 20 A ALA 62 -38.21 114.20 20 A PRO 63 -39.65 79.65 20 A ASN 64 165.54 -43.14 20 A LYS 73 74.04 -46.85 20 A LYS 74 -66.12 94.01 21 A ALA 6 75.02 170.84 21 A CYS 13 -125.18 -140.71 21 A LYS 15 -57.16 108.09 21 A ILE 25 -160.46 95.07 21 A CYS 31 -65.85 93.70 21 A LYS 47 -59.28 171.42 21 A PRO 63 -63.21 77.90 21 A ASN 64 179.87 -49.77 21 A SER 79 -58.66 178.28 22 A LYS 15 -39.35 -38.50 22 A ILE 25 -160.23 94.93 22 A CYS 31 -66.87 96.52 22 A SER 37 -38.89 109.42 22 A SER 45 -59.49 103.35 22 A PRO 63 -29.67 -50.32 22 A LYS 73 74.33 -12.18 23 A ASP 10 -20.11 -59.67 23 A VAL 21 -39.32 139.43 23 A SER 37 -24.70 104.01 23 A HIS 57 -78.28 45.38 23 A PRO 63 -49.80 82.10 23 A ASN 64 168.89 -48.61 23 A LYS 73 72.17 -42.79 24 A ASP 10 -26.13 -59.58 24 A LYS 15 -39.78 91.14 24 A CYS 31 -59.92 99.50 24 A SER 37 -53.55 108.11 24 A SER 45 -61.51 90.11 24 A LYS 47 -58.43 170.18 24 A PRO 63 -46.06 85.52 24 A ASN 64 166.08 -47.94 24 A LYS 73 72.98 -47.22 24 A LYS 74 -69.88 79.34 24 A SER 79 117.27 -153.66 25 A ILE 25 -160.42 107.43 25 A CYS 31 -63.18 89.43 25 A LYS 47 -53.24 179.82 25 A THR 70 -137.46 -31.42 25 A PRO 72 -43.34 108.35 26 A GLU 8 -133.55 -32.02 26 A CYS 13 -129.26 -60.73 26 A LYS 15 -39.96 110.94 26 A SER 45 -69.76 95.45 26 A LYS 47 -66.29 -175.83 26 A PRO 63 -46.88 82.95 26 A ASN 64 167.56 -51.84 26 A LYS 73 73.05 -36.84 26 A LYS 74 -69.61 85.31 26 A SER 79 -87.64 34.99 27 A ILE 3 -67.40 97.50 27 A THR 4 152.37 -43.42 27 A SER 37 -42.26 105.84 27 A ALA 44 -99.67 32.19 27 A SER 45 -67.12 81.15 27 A HIS 46 -19.79 114.01 27 A LYS 47 -64.88 23.19 27 A ILE 48 63.63 146.50 27 A HIS 57 -68.32 18.57 27 A LYS 73 73.09 -39.31 27 A LYS 74 -64.78 88.52 28 A THR 4 -66.77 70.15 28 A LYS 26 -53.52 -3.18 28 A CYS 31 -61.37 99.65 28 A SER 37 -39.34 105.93 28 A SER 45 -65.67 83.39 28 A HIS 46 -24.15 120.45 28 A LYS 47 -65.61 18.48 28 A ILE 48 63.35 144.80 28 A PRO 63 -48.14 82.50 28 A ASN 64 168.85 -50.32 28 A LYS 73 71.94 -29.97 29 A CYS 13 -121.05 -54.93 29 A LYS 15 -39.93 117.18 29 A ILE 25 -160.59 108.60 29 A SER 37 -45.80 107.69 29 A HIS 46 78.92 166.85 29 A MET 55 -80.39 35.78 29 A PRO 63 -27.83 -38.23 30 A THR 4 -75.47 44.23 30 A ALA 6 -54.47 107.33 30 A LYS 15 -39.29 91.90 30 A CYS 31 -58.38 98.98 30 A SER 37 -29.21 108.96 30 A LYS 47 -62.74 -174.98 30 A THR 70 -99.03 -64.27 30 A LYS 73 73.18 -40.88 30 A LYS 74 -67.18 87.25 30 A SER 79 -82.86 42.26 31 A THR 4 -63.03 78.22 31 A TRP 24 -99.54 -62.93 31 A CYS 31 -64.56 94.42 31 A SER 37 -33.33 104.93 31 A PRO 63 -47.91 77.88 31 A ASN 64 173.24 -51.49 31 A LYS 73 75.56 -40.89 31 A LYS 74 -67.23 88.17 32 A ILE 25 -160.57 111.09 32 A CYS 31 -62.62 98.71 32 A SER 37 -31.76 108.07 32 A SER 45 -58.06 108.24 32 A HIS 57 -79.07 48.48 32 A PRO 63 -45.40 79.06 32 A ASN 64 167.29 -53.36 32 A LYS 73 74.11 -46.10 33 A THR 4 74.19 -45.51 33 A GLU 8 -120.11 -52.15 33 A CYS 13 -107.91 -68.78 33 A LYS 15 -39.89 90.12 33 A SER 45 -68.07 85.81 33 A MET 55 -90.55 31.96 33 A LYS 73 72.15 -45.59 33 A LYS 74 -55.83 109.44 34 A LYS 26 -59.37 -8.18 34 A SER 37 -44.25 106.51 34 A LYS 47 -60.55 -176.07 34 A PRO 63 -47.57 89.84 34 A ASN 64 155.15 -47.40 34 A THR 70 -135.79 -37.46 34 A SER 79 -82.17 41.78 35 A LEU 11 -39.63 -32.93 35 A ILE 25 -160.28 97.43 35 A CYS 31 -64.58 99.86 35 A SER 37 -31.69 109.27 35 A SER 45 -54.96 105.19 35 A SER 51 -72.29 48.26 35 A PRO 63 -34.58 -35.58 35 A SER 79 -77.72 41.38 36 A ILE 25 -160.47 93.63 36 A CYS 31 -63.29 93.98 36 A SER 37 -30.59 105.52 36 A SER 45 -66.55 85.52 36 A HIS 46 -38.10 135.56 36 A HIS 57 -76.11 48.37 36 A PRO 63 -44.33 77.69 36 A ASN 64 171.98 -52.07 36 A LYS 73 73.69 -42.32 36 A LYS 74 -65.75 78.32 37 A THR 4 -171.23 -170.24 37 A LEU 11 -39.56 -35.29 37 A LYS 15 -38.38 110.02 37 A TRP 24 -98.16 -66.03 37 A LYS 26 -58.41 -1.00 37 A SER 37 -45.82 109.71 37 A SER 45 -64.13 92.77 37 A HIS 46 -47.90 154.89 37 A SER 51 -73.60 49.54 37 A MET 55 -85.01 39.90 37 A PRO 63 -44.28 82.68 37 A ASN 64 161.77 -51.07 37 A LYS 73 72.16 -41.56 37 A LYS 74 -69.63 75.54 37 A SER 79 -80.53 48.39 38 A THR 4 -75.54 38.78 38 A ALA 6 -47.57 106.34 38 A TRP 24 -99.00 -69.13 38 A CYS 31 -60.78 92.91 38 A SER 37 -35.80 104.99 38 A SER 45 -65.35 84.46 38 A LYS 47 -59.02 -178.44 38 A PRO 63 -64.71 77.59 38 A ASN 64 178.93 -49.81 38 A LYS 73 71.98 -44.18 38 A LYS 74 -68.53 88.59 38 A SER 79 -84.73 48.95 39 A ASP 10 -20.84 -57.52 39 A CYS 13 -107.36 -66.47 39 A LYS 15 -44.49 92.04 39 A SER 37 -35.77 110.95 39 A ALA 44 -97.82 45.11 39 A SER 45 -67.20 80.83 39 A LYS 47 176.36 179.63 39 A SER 51 -73.82 47.14 39 A HIS 57 -78.52 40.27 39 A PRO 63 -42.66 78.40 39 A ASN 64 166.62 -57.41 39 A LYS 73 73.57 -37.79 39 A LYS 74 -68.35 86.31 MAMBA INTESTINAL TOXIN 1, NMR, 39 STRUCTURES 1 Y N A ASP 10 A ASP 10 HELX_P A GLN 12 A GLN 12 5 1 3 disulf 2.082 A CYS 7 A SG CYS 7 1_555 A CYS 19 A SG CYS 19 1_555 disulf 2.080 A CYS 13 A SG CYS 13 1_555 A CYS 31 A SG CYS 31 1_555 disulf 2.076 A CYS 18 A SG CYS 18 1_555 A CYS 59 A SG CYS 59 1_555 disulf 2.079 A CYS 41 A SG CYS 41 1_555 A CYS 67 A SG CYS 67 1_555 disulf 2.078 A CYS 61 A SG CYS 61 1_555 A CYS 77 A SG CYS 77 1_555 TOXIN VENOM, STRUCTURAL HOMOLOGUE OF COLIPASE, RESISTANCE TO ENDOPROTEASES, CONTRACT GUINEA PIG ILEUM, TOXIN A ILE 48 A ILE 48 1 A PRO 49 A PRO 49 2.25 A ILE 48 A ILE 48 2 A PRO 49 A PRO 49 -4.26 A ILE 48 A ILE 48 3 A PRO 49 A PRO 49 1.10 A ILE 48 A ILE 48 4 A PRO 49 A PRO 49 -3.69 A ILE 48 A ILE 48 5 A PRO 49 A PRO 49 -5.36 A ILE 48 A ILE 48 6 A PRO 49 A PRO 49 -6.34 A ILE 48 A ILE 48 7 A PRO 49 A PRO 49 -1.35 A ILE 48 A ILE 48 8 A PRO 49 A PRO 49 10.46 A ILE 48 A ILE 48 9 A PRO 49 A PRO 49 0.30 A ILE 48 A ILE 48 10 A PRO 49 A PRO 49 -10.34 A ILE 48 A ILE 48 11 A PRO 49 A PRO 49 -9.70 A ILE 48 A ILE 48 12 A PRO 49 A PRO 49 -8.19 A ILE 48 A ILE 48 13 A PRO 49 A PRO 49 -5.28 A ILE 48 A ILE 48 14 A PRO 49 A PRO 49 -3.24 A ILE 48 A ILE 48 15 A PRO 49 A PRO 49 -6.36 A ILE 48 A ILE 48 16 A PRO 49 A PRO 49 -3.98 A ILE 48 A ILE 48 17 A PRO 49 A PRO 49 -4.85 A ILE 48 A ILE 48 18 A PRO 49 A PRO 49 -5.21 A ILE 48 A ILE 48 19 A PRO 49 A PRO 49 -10.11 A ILE 48 A ILE 48 20 A PRO 49 A PRO 49 -9.98 A ILE 48 A ILE 48 21 A PRO 49 A PRO 49 -3.12 A ILE 48 A ILE 48 22 A PRO 49 A PRO 49 -9.28 A ILE 48 A ILE 48 23 A PRO 49 A PRO 49 -7.70 A ILE 48 A ILE 48 24 A PRO 49 A PRO 49 -3.68 A ILE 48 A ILE 48 25 A PRO 49 A PRO 49 -5.20 A ILE 48 A ILE 48 26 A PRO 49 A PRO 49 -7.39 A ILE 48 A ILE 48 27 A PRO 49 A PRO 49 -10.40 A ILE 48 A ILE 48 28 A PRO 49 A PRO 49 -10.51 A ILE 48 A ILE 48 29 A PRO 49 A PRO 49 -9.99 A ILE 48 A ILE 48 30 A PRO 49 A PRO 49 -5.87 A ILE 48 A ILE 48 31 A PRO 49 A PRO 49 -7.56 A ILE 48 A ILE 48 32 A PRO 49 A PRO 49 -7.33 A ILE 48 A ILE 48 33 A PRO 49 A PRO 49 -6.54 A ILE 48 A ILE 48 34 A PRO 49 A PRO 49 -8.89 A ILE 48 A ILE 48 35 A PRO 49 A PRO 49 -1.24 A ILE 48 A ILE 48 36 A PRO 49 A PRO 49 -7.70 A ILE 48 A ILE 48 37 A PRO 49 A PRO 49 -6.39 A ILE 48 A ILE 48 38 A PRO 49 A PRO 49 -3.43 A ILE 48 A ILE 48 39 A PRO 49 A PRO 49 -10.41 VPRA_DENPO UNP 1 1 P25687 AVITGACERDLQCGKGTCCAVSLWIKSVRVCTPVGTSGEDCHPASHKIPFSGQRKMHHTCPCAPNLACVQTSPKKFKCLS K 1 81 1IMT 1 80 P25687 A 1 1 80 1 LYS deletion 1IMT A P25687 UNP 55 2 2 anti-parallel anti-parallel A THR 17 A THR 17 A VAL 21 A VAL 21 A ARG 29 A ARG 29 A PRO 33 A PRO 33 A ALA 66 A ALA 66 A SER 71 A SER 71 A LYS 74 A LYS 74 A LEU 78 A LEU 78 1 P 1