0.012329 0.007118 0.000000 0.000000 0.014236 0.000000 0.000000 0.000000 0.026337 0.00000 0.00000 0.00000 Smith, G.D. Ciszak, E. http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic 18 90.00 90.00 120.00 81.110 81.110 37.970 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 Cl -1 35.453 CHLORIDE ION non-polymer 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 H2 O 18.015 WATER non-polymer 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 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 C8 H9 N O2 151.163 N-(4-HYDROXYPHENYL)ACETAMIDE (TYLENOL) non-polymer C9 H11 N O3 181.189 y TYROSINE L-peptide linking C5 H11 N O2 117.146 y VALINE L-peptide linking Zn 2 65.409 ZINC ION non-polymer US Proc.Natl.Acad.Sci.USA PNASA6 0040 0027-8424 91 8851 8855 10.1073/pnas.91.19.8851 8090735 The structure of a complex of hexameric insulin and 4'-hydroxyacetanilide. 1994 US Biochemistry BICHAW 0033 0006-2960 33 1512 Crystallographic Evidence for Dual Coordination Around Zinc in the T3R3 Human Insulin Hexamer 1994 US Proc.Natl.Acad.Sci.USA PNASA6 0040 0027-8424 81 7093 Structural Stability in the 4-Zinc Human Insulin Hexamer 1984 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 2383.698 INSULIN 2 man polymer 3433.953 INSULIN 2 man polymer 65.409 ZINC ION 2 syn non-polymer 151.163 N-(4-HYDROXYPHENYL)ACETAMIDE (TYLENOL) 1 syn non-polymer 35.453 CHLORIDE ION 1 syn non-polymer 18.015 water 110 nat water no no GIVEQCCTSICSLYQLENYCN GIVEQCCTSICSLYQLENYCN A,C polypeptide(L) no no FVNQHLCGSHLVEALYLVCGERGFFYTPKT FVNQHLCGSHLVEALYLVCGERGFFYTPKT B,D 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 human Homo sample 9606 Homo sapiens human Homo sample 9606 Homo sapiens 2.07 40.45 repository Initial release Version format compliance Version format compliance 1 0 1994-09-30 1 1 2008-03-03 1 2 2011-07-13 Y 1994-06-21 REL ZN ZINC ION TYL N-(4-HYDROXYPHENYL)ACETAMIDE (TYLENOL) CL CHLORIDE ION HOH water THE CONFORMATIONS OF THE TWO MONOMERS ARE DIFFERENT AS THE RESULT OF A DIFFERENCE IN CONFORMATION AT THE N-TERMINI OF THE B AND D CHAINS. IN MONOMER I, B 1 - B 8 ADOPT AN EXTENDED CONFORMATION (T STATE) WHILE IN MONOMER II RESIDUES D 4 THROUGH D 8 ARE ALPHA-HELICAL (R STATE). EACH OF TWO ZINC IONS IS COORDINATED BY THE THREE SYMMETRY RELATED HIS B 10 SIDE CHAINS. THE COORDINATION SPHERE OF ZN B 1 IS OCTAHEDRAL WITH THE REMAINING THREE SITES FILLED BY WATER, HOH 16. THE COORDINATION OF ZN D 1 IS TETRAHEDRAL TO CL D 2. ZN 1 3 ZN ZN 31 B TYL 100 4 TYL TYL 100 C ZN 1 3 ZN ZN 31 D CL 2 5 CL CL 32 D HOH 3 6 HOH HOH 22 A HOH 13 6 HOH HOH 23 A HOH 15 6 HOH HOH 24 A HOH 18 6 HOH HOH 25 A HOH 19 6 HOH HOH 26 A HOH 47 6 HOH HOH 27 A HOH 48 6 HOH HOH 28 A HOH 53 6 HOH HOH 29 A HOH 56 6 HOH HOH 30 A HOH 57 6 HOH HOH 31 A HOH 58 6 HOH HOH 32 A HOH 61 6 HOH HOH 33 A HOH 62 6 HOH HOH 34 A HOH 66 6 HOH HOH 35 A HOH 68 6 HOH HOH 36 A HOH 74 6 HOH HOH 37 A HOH 84 6 HOH HOH 38 A HOH 89 6 HOH HOH 39 A HOH 90 6 HOH HOH 40 A HOH 93 6 HOH HOH 41 A HOH 94 6 HOH HOH 42 A HOH 98 6 HOH HOH 43 A HOH 111 6 HOH HOH 44 A HOH 112 6 HOH HOH 45 A HOH 113 6 HOH HOH 46 A HOH 126 6 HOH HOH 47 A HOH 141 6 HOH HOH 48 A HOH 146 6 HOH HOH 49 A HOH 1 6 HOH HOH 32 B HOH 2 6 HOH HOH 33 B HOH 14 6 HOH HOH 34 B HOH 16 6 HOH HOH 35 B HOH 17 6 HOH HOH 36 B HOH 20 6 HOH HOH 37 B HOH 21 6 HOH HOH 38 B HOH 23 6 HOH HOH 39 B HOH 25 6 HOH HOH 40 B HOH 26 6 HOH HOH 41 B HOH 27 6 HOH HOH 42 B HOH 28 6 HOH HOH 43 B HOH 29 6 HOH HOH 44 B HOH 30 6 HOH HOH 45 B HOH 32 6 HOH HOH 46 B HOH 36 6 HOH HOH 47 B HOH 39 6 HOH HOH 48 B HOH 40 6 HOH HOH 49 B HOH 49 6 HOH HOH 50 B HOH 51 6 HOH HOH 51 B HOH 64 6 HOH HOH 52 B HOH 69 6 HOH HOH 53 B HOH 76 6 HOH HOH 54 B HOH 77 6 HOH HOH 55 B HOH 78 6 HOH HOH 56 B HOH 86 6 HOH HOH 57 B HOH 92 6 HOH HOH 58 B HOH 101 6 HOH HOH 59 B HOH 107 6 HOH HOH 60 B HOH 114 6 HOH HOH 61 B HOH 116 6 HOH HOH 62 B HOH 118 6 HOH HOH 63 B HOH 119 6 HOH HOH 64 B HOH 123 6 HOH HOH 65 B HOH 137 6 HOH HOH 66 B HOH 138 6 HOH HOH 67 B HOH 147 6 HOH HOH 68 B HOH 151 6 HOH HOH 69 B HOH 4 6 HOH HOH 101 C HOH 5 6 HOH HOH 102 C HOH 12 6 HOH HOH 103 C HOH 35 6 HOH HOH 104 C HOH 41 6 HOH HOH 105 C HOH 42 6 HOH HOH 106 C HOH 43 6 HOH HOH 107 C HOH 44 6 HOH HOH 108 C HOH 52 6 HOH HOH 109 C HOH 54 6 HOH HOH 110 C HOH 55 6 HOH HOH 111 C HOH 63 6 HOH HOH 112 C HOH 75 6 HOH HOH 113 C HOH 121 6 HOH HOH 114 C HOH 122 6 HOH HOH 115 C HOH 130 6 HOH HOH 116 C HOH 139 6 HOH HOH 117 C HOH 152 6 HOH HOH 118 C HOH 6 6 HOH HOH 33 D HOH 7 6 HOH HOH 34 D HOH 9 6 HOH HOH 35 D HOH 11 6 HOH HOH 36 D HOH 22 6 HOH HOH 37 D HOH 33 6 HOH HOH 38 D HOH 34 6 HOH HOH 39 D HOH 46 6 HOH HOH 40 D HOH 50 6 HOH HOH 41 D HOH 59 6 HOH HOH 42 D HOH 65 6 HOH HOH 43 D HOH 80 6 HOH HOH 44 D HOH 85 6 HOH HOH 45 D HOH 87 6 HOH HOH 46 D HOH 88 6 HOH HOH 47 D HOH 99 6 HOH HOH 48 D HOH 100 6 HOH HOH 49 D HOH 102 6 HOH HOH 50 D HOH 103 6 HOH HOH 51 D HOH 104 6 HOH HOH 52 D HOH 105 6 HOH HOH 53 D HOH 125 6 HOH HOH 54 D HOH 135 6 HOH HOH 55 D HOH 140 6 HOH HOH 56 D HOH 145 6 HOH HOH 57 D HOH 150 6 HOH HOH 58 D GLY 1 n 1 GLY 1 A ILE 2 n 2 ILE 2 A VAL 3 n 3 VAL 3 A GLU 4 n 4 GLU 4 A GLN 5 n 5 GLN 5 A CYS 6 n 6 CYS 6 A CYS 7 n 7 CYS 7 A THR 8 n 8 THR 8 A SER 9 n 9 SER 9 A ILE 10 n 10 ILE 10 A CYS 11 n 11 CYS 11 A SER 12 n 12 SER 12 A LEU 13 n 13 LEU 13 A TYR 14 n 14 TYR 14 A GLN 15 n 15 GLN 15 A LEU 16 n 16 LEU 16 A GLU 17 n 17 GLU 17 A ASN 18 n 18 ASN 18 A TYR 19 n 19 TYR 19 A CYS 20 n 20 CYS 20 A ASN 21 n 21 ASN 21 A PHE 1 n 1 PHE 1 B VAL 2 n 2 VAL 2 B ASN 3 n 3 ASN 3 B GLN 4 n 4 GLN 4 B HIS 5 n 5 HIS 5 B LEU 6 n 6 LEU 6 B CYS 7 n 7 CYS 7 B GLY 8 n 8 GLY 8 B SER 9 n 9 SER 9 B HIS 10 n 10 HIS 10 B LEU 11 n 11 LEU 11 B VAL 12 n 12 VAL 12 B GLU 13 n 13 GLU 13 B ALA 14 n 14 ALA 14 B LEU 15 n 15 LEU 15 B TYR 16 n 16 TYR 16 B LEU 17 n 17 LEU 17 B VAL 18 n 18 VAL 18 B CYS 19 n 19 CYS 19 B GLY 20 n 20 GLY 20 B GLU 21 n 21 GLU 21 B ARG 22 n 22 ARG 22 B GLY 23 n 23 GLY 23 B PHE 24 n 24 PHE 24 B PHE 25 n 25 PHE 25 B TYR 26 n 26 TYR 26 B THR 27 n 27 THR 27 B PRO 28 n 28 PRO 28 B LYS 29 n 29 LYS 29 B THR 30 n 30 THR 30 B GLY 1 n 1 GLY 1 C ILE 2 n 2 ILE 2 C VAL 3 n 3 VAL 3 C GLU 4 n 4 GLU 4 C GLN 5 n 5 GLN 5 C CYS 6 n 6 CYS 6 C CYS 7 n 7 CYS 7 C THR 8 n 8 THR 8 C SER 9 n 9 SER 9 C ILE 10 n 10 ILE 10 C CYS 11 n 11 CYS 11 C SER 12 n 12 SER 12 C LEU 13 n 13 LEU 13 C TYR 14 n 14 TYR 14 C GLN 15 n 15 GLN 15 C LEU 16 n 16 LEU 16 C GLU 17 n 17 GLU 17 C ASN 18 n 18 ASN 18 C TYR 19 n 19 TYR 19 C CYS 20 n 20 CYS 20 C ASN 21 n 21 ASN 21 C n 1 1 D n 2 2 D ASN 3 n 3 ASN 3 D GLN 4 n 4 GLN 4 D HIS 5 n 5 HIS 5 D LEU 6 n 6 LEU 6 D CYS 7 n 7 CYS 7 D GLY 8 n 8 GLY 8 D SER 9 n 9 SER 9 D HIS 10 n 10 HIS 10 D LEU 11 n 11 LEU 11 D VAL 12 n 12 VAL 12 D GLU 13 n 13 GLU 13 D ALA 14 n 14 ALA 14 D LEU 15 n 15 LEU 15 D TYR 16 n 16 TYR 16 D LEU 17 n 17 LEU 17 D VAL 18 n 18 VAL 18 D CYS 19 n 19 CYS 19 D GLY 20 n 20 GLY 20 D GLU 21 n 21 GLU 21 D ARG 22 n 22 ARG 22 D GLY 23 n 23 GLY 23 D PHE 24 n 24 PHE 24 D PHE 25 n 25 PHE 25 D TYR 26 n 26 TYR 26 D THR 27 n 27 THR 27 D PRO 28 n 28 PRO 28 D LYS 29 n 29 LYS 29 D THR 30 n 30 THR 30 D author_and_software_defined_assembly PISA 2 dimeric author_and_software_defined_assembly PISA 2 dimeric software_defined_assembly PISA 12 dodecameric software_defined_assembly PISA 4 tetrameric software_defined_assembly PISA 4 tetrameric software_defined_assembly PISA 9 nonameric software_defined_assembly PISA 6 hexameric software_defined_assembly PISA 6 hexameric 1720 -15 3630 1120 -11 3720 18930 -281 11960 4020 -32 6170 4390 -35 5800 7160 -102 15010 5010 -139 9710 5750 -94 10420 B HOH 35 J O HOH 1_555 B ZN 31 E ZN ZN 1_555 B HIS 10 B NE2 HIS 10 1_555 100.5 B HOH 35 J O HOH 1_555 B ZN 31 E ZN ZN 1_555 B HIS 10 B NE2 HIS 10 2_555 96.4 B HIS 10 B NE2 HIS 10 1_555 B ZN 31 E ZN ZN 1_555 B HIS 10 B NE2 HIS 10 2_555 98.8 B HOH 35 J O HOH 1_555 B ZN 31 E ZN ZN 1_555 B HOH 35 J O HOH 2_555 59.1 B HIS 10 B NE2 HIS 10 1_555 B ZN 31 E ZN ZN 1_555 B HOH 35 J O HOH 2_555 153.3 B HIS 10 B NE2 HIS 10 2_555 B ZN 31 E ZN ZN 1_555 B HOH 35 J O HOH 2_555 100.5 B HOH 35 J O HOH 1_555 B ZN 31 E ZN ZN 1_555 B HOH 35 J O HOH 3_555 59.1 B HIS 10 B NE2 HIS 10 1_555 B ZN 31 E ZN ZN 1_555 B HOH 35 J O HOH 3_555 96.4 B HIS 10 B NE2 HIS 10 2_555 B ZN 31 E ZN ZN 1_555 B HOH 35 J O HOH 3_555 153.3 B HOH 35 J O HOH 2_555 B ZN 31 E ZN ZN 1_555 B HOH 35 J O HOH 3_555 59.1 B HOH 35 J O HOH 1_555 B ZN 31 E ZN ZN 1_555 B HIS 10 B NE2 HIS 10 3_555 153.3 B HIS 10 B NE2 HIS 10 1_555 B ZN 31 E ZN ZN 1_555 B HIS 10 B NE2 HIS 10 3_555 98.8 B HIS 10 B NE2 HIS 10 2_555 B ZN 31 E ZN ZN 1_555 B HIS 10 B NE2 HIS 10 3_555 98.8 B HOH 35 J O HOH 2_555 B ZN 31 E ZN ZN 1_555 B HIS 10 B NE2 HIS 10 3_555 96.4 B HOH 35 J O HOH 3_555 B ZN 31 E ZN ZN 1_555 B HIS 10 B NE2 HIS 10 3_555 100.5 D CL 32 H CL CL 1_555 D ZN 31 G ZN ZN 1_555 D HIS 10 D NE2 HIS 10 1_555 113.6 D CL 32 H CL CL 1_555 D ZN 31 G ZN ZN 1_555 D HIS 10 D NE2 HIS 10 2_555 113.6 D HIS 10 D NE2 HIS 10 1_555 D ZN 31 G ZN ZN 1_555 D HIS 10 D NE2 HIS 10 2_555 105.1 D CL 32 H CL CL 1_555 D ZN 31 G ZN ZN 1_555 D HIS 10 D NE2 HIS 10 3_555 113.6 D HIS 10 D NE2 HIS 10 1_555 D ZN 31 G ZN ZN 1_555 D HIS 10 D NE2 HIS 10 3_555 105.1 D HIS 10 D NE2 HIS 10 2_555 D ZN 31 G ZN ZN 1_555 D HIS 10 D NE2 HIS 10 3_555 105.1 D CL 32 H CL CL 1_555 D ZN 31 G ZN ZN 1_555 D CL 32 H CL CL 2_555 0.0 D HIS 10 D NE2 HIS 10 1_555 D ZN 31 G ZN ZN 1_555 D CL 32 H CL CL 2_555 113.6 D HIS 10 D NE2 HIS 10 2_555 D ZN 31 G ZN ZN 1_555 D CL 32 H CL CL 2_555 113.6 D HIS 10 D NE2 HIS 10 3_555 D ZN 31 G ZN ZN 1_555 D CL 32 H CL CL 2_555 113.6 D CL 32 H CL CL 1_555 D ZN 31 G ZN ZN 1_555 D CL 32 H CL CL 3_555 0.0 D HIS 10 D NE2 HIS 10 1_555 D ZN 31 G ZN ZN 1_555 D CL 32 H CL CL 3_555 113.6 D HIS 10 D NE2 HIS 10 2_555 D ZN 31 G ZN ZN 1_555 D CL 32 H CL CL 3_555 113.6 D HIS 10 D NE2 HIS 10 3_555 D ZN 31 G ZN ZN 1_555 D CL 32 H CL CL 3_555 113.6 D CL 32 H CL CL 2_555 D ZN 31 G ZN ZN 1_555 D CL 32 H CL CL 3_555 0.0 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 -0.5000000000 -0.8660254038 0.0000000000 0.8660254038 -0.5000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 2_555 -y,x-y,z crystal symmetry operation 0.0000000000 0.0000000000 0.0000000000 -0.5000000000 0.8660254038 0.0000000000 -0.8660254038 -0.5000000000 0.0000000000 0.0000000000 0.0000000000 1.0000000000 3_555 -x+y,-x,z crystal symmetry operation 0.0000000000 0.0000000000 0.0000000000 B O TYR 26 B O TYR 26 D N PHE 24 D N PHE 24 1 B ZN 31 E ZN 1 D ZN 31 G ZN 1 D CL 32 H CL 1 B HOH 32 J HOH 1 D HOH 52 L HOH 1 D HOH 53 L HOH 1 B OG1 THR 30 B OG1 THR 30 1 Y 1 B CG2 THR 30 B CG2 THR 30 1 Y 1 D CG LYS 29 D CG LYS 29 1 Y 1 D CD LYS 29 D CD LYS 29 1 Y 1 D CE LYS 29 D CE LYS 29 1 Y 1 D NZ LYS 29 D NZ LYS 29 1 Y 1 D CA THR 30 D CA THR 30 1 Y 1 D C THR 30 D C THR 30 1 Y 1 D O THR 30 D O THR 30 1 Y 1 D CB THR 30 D CB THR 30 1 Y 1 D OG1 THR 30 D OG1 THR 30 1 Y 1 D CG2 THR 30 D CG2 THR 30 1 Y 1 D PHE 1 D PHE 1 1 Y 1 D VAL 2 D VAL 2 1 Y 1 B B OE1 O GLU HOH 21 63 2.06 1 A A OE1 O GLN HOH 5 24 2.07 1 D D O O HOH HOH 35 40 2.09 1 A A O O HOH HOH 22 34 2.19 1 6.79 1.10 114.20 120.99 A A A CA CB SG CYS CYS CYS 6 6 6 N 1 -12.49 1.90 113.40 100.91 A A A CA CB CG TYR TYR TYR 14 14 14 N 1 4.30 0.60 121.00 125.30 A A A CB CG CD2 TYR TYR TYR 14 14 14 N 1 -5.63 0.60 121.00 115.37 A A A CB CG CD1 TYR TYR TYR 14 14 14 N 1 13.29 2.00 118.30 131.59 B B B CG CD OE1 GLU GLU GLU 13 13 13 A A A N 1 19.27 2.60 111.60 130.87 C C C CB CG CD GLN GLN GLN 5 5 5 N 1 8.04 1.20 111.50 119.54 C C C CB CA C CYS CYS CYS 7 7 7 N 1 20.01 2.70 114.20 134.21 D D D CB CG CD GLU GLU GLU 21 21 21 A A N 1 -7.42 1.20 123.30 115.88 D D D OE1 CD OE2 GLU GLU GLU 21 21 21 A A A N 1 14.27 2.00 118.30 132.57 D D D CG CD OE1 GLU GLU GLU 21 21 21 A A A N 1 10.35 1.40 123.60 133.95 D D D CD NE CZ ARG ARG ARG 22 22 22 N 1 -4.22 0.60 121.00 116.78 D D D CB CG CD1 TYR TYR TYR 26 26 26 N 1 A CYS 7 -99.13 -63.77 1 A SER 9 -129.92 -166.59 1 D LYS 29 -118.59 -89.51 0.168 1.9 1 1.9 110 915 14 0 791 0.019 refinement PROFFT INSULIN (T3R3) (PH 6.4, 0.75 M NACL) COMPLEXED WITH TWO ZINC IONS AND TYLENOL (4'-HYDROXYACETANILIDE) THE STRUCTURE OF A COMPLEX OF HEXAMERIC INSULIN AND 4'-HYDROXYACETANILIDE 1 N N 2 N N 1 N N 2 N N 3 N N 4 N N 3 N N 5 N N 6 N N 6 N N 6 N N 6 N N THE CRYSTALLOGRAPHIC ASYMMETRIC UNIT OF INSULIN CONSISTS OF TWO INSULIN MONOMERS EACH CONSISTING OF TWO HETEROCHAINS. THE ENTRY PRESENTS COORDINATES FOR MONOMER I (CHAIN IDENTIFIERS A AND B) AND II (CHAIN IDENTIFIERS C AND D). APPLYING THE THREE-FOLD CRYSTALLOGRAPHIC SYMMETRY AXIS YIELDS A HEXAMER AROUND THE AXIS. THERE ARE TWO ZINC IONS PER INSULIN HEXAMER LOCATED ON THE THREE-FOLD AXIS. WATERS HOH 1, HOH 104, AND HOH 105 ARE LOCATED ON THE THREE-FOLD AXIS. A GLY 1 A GLY 1 HELX_P A SER 9 A SER 9 1 H1 9 A SER 12 A SER 12 HELX_P MIXED ALPHA, 3/10 HELIX A CYS 20 A CYS 20 5 H2 9 B GLY 8 B GLY 8 HELX_P T CONFORMATION B GLY 20 B GLY 20 1 H3 13 C GLY 1 C GLY 1 HELX_P C SER 9 C SER 9 1 H4 9 C SER 12 C SER 12 HELX_P MIXED ALPHA, 3/10 HELIX C CYS 20 C CYS 20 5 H5 9 D GLN 4 D GLN 4 HELX_P R CONFORMATION D GLY 20 D GLY 20 1 H6 17 disulf 2.019 A CYS 6 A SG CYS 6 1_555 A CYS 11 A SG CYS 11 1_555 disulf 2.020 A CYS 7 A SG CYS 7 1_555 B CYS 7 B SG CYS 7 1_555 disulf 2.072 A CYS 20 A SG CYS 20 1_555 B CYS 19 B SG CYS 19 1_555 disulf 2.013 C CYS 6 C SG CYS 6 1_555 C CYS 11 C SG CYS 11 1_555 disulf 2.040 C CYS 7 C SG CYS 7 1_555 D CYS 7 D SG CYS 7 1_555 disulf 2.067 C CYS 20 C SG CYS 20 1_555 D CYS 19 D SG CYS 19 1_555 metalc 2.446 B ZN 31 E ZN ZN 1_555 B HOH 35 J O HOH 1_555 metalc 2.235 B ZN 31 E ZN ZN 1_555 B HIS 10 B NE2 HIS 10 1_555 metalc 2.385 D ZN 31 G ZN ZN 1_555 D CL 32 H CL CL 1_555 metalc 2.059 D ZN 31 G ZN ZN 1_555 D HIS 10 D NE2 HIS 10 1_555 metalc 2.235 B ZN 31 E ZN ZN 1_555 B HIS 10 B NE2 HIS 10 2_555 metalc 2.446 B ZN 31 E ZN ZN 1_555 B HOH 35 J O HOH 2_555 metalc 2.446 B ZN 31 E ZN ZN 1_555 B HOH 35 J O HOH 3_555 metalc 2.235 B ZN 31 E ZN ZN 1_555 B HIS 10 B NE2 HIS 10 3_555 metalc 2.059 D ZN 31 G ZN ZN 1_555 D HIS 10 D NE2 HIS 10 2_555 metalc 2.059 D ZN 31 G ZN ZN 1_555 D HIS 10 D NE2 HIS 10 3_555 metalc 2.385 D ZN 31 G ZN ZN 1_555 D CL 32 H CL CL 2_555 metalc 2.385 D ZN 31 G ZN ZN 1_555 D CL 32 H CL CL 3_555 HORMONE HORMONE INS_HUMAN UNP 1 90 P01308 INS_HUMAN UNP 2 25 P01308 90 110 1TYL 1 21 P01308 A 1 1 21 25 54 1TYL 1 30 P01308 B 2 1 30 90 110 1TYL 1 21 P01308 C 1 1 21 25 54 1TYL 1 30 P01308 D 2 1 30 2 anti-parallel B PHE 24 B PHE 24 B TYR 26 B TYR 26 D PHE 24 D PHE 24 D TYR 26 D TYR 26 TYLENOL BINDING SITE, THE TYLENOL MOLECULE IS BOUND IN AN ELLIPTICAL CAVITY BETWEEN R STATE MONOMERS Author 8 BINDING SITE FOR RESIDUE ZN B 31 Software 6 BINDING SITE FOR RESIDUE ZN D 31 Software 6 BINDING SITE FOR RESIDUE CL D 32 Software 3 BINDING SITE FOR RESIDUE TYL C 100 Software 10 B GLU 13 B GLU 13 8 1_555 B LEU 17 B LEU 17 8 1_555 C CYS 6 C CYS 6 8 1_555 C ILE 10 C ILE 10 8 1_555 C CYS 11 C CYS 11 8 1_555 D HIS 5 D HIS 5 8 1_555 D HIS 10 D HIS 10 8 1_555 D LEU 11 D LEU 11 8 1_555 B HIS 10 B HIS 10 6 2_555 B HIS 10 B HIS 10 6 1_555 B HIS 10 B HIS 10 6 3_555 B HOH 35 J HOH 6 2_555 B HOH 35 J HOH 6 3_555 B HOH 35 J HOH 6 1_555 D HIS 10 D HIS 10 6 1_555 D HIS 10 D HIS 10 6 2_555 D HIS 10 D HIS 10 6 3_555 D CL 32 H CL 6 2_555 D CL 32 H CL 6 3_555 D CL 32 H CL 6 1_555 D ZN 31 G ZN 3 1_555 D ZN 31 G ZN 3 2_555 D ZN 31 G ZN 3 3_555 B GLU 13 B GLU 13 10 2_555 B LEU 17 B LEU 17 10 2_555 C CYS 6 C CYS 6 10 1_555 C SER 9 C SER 9 10 1_555 C ILE 10 C ILE 10 10 1_555 C CYS 11 C CYS 11 10 1_555 D HIS 5 D HIS 5 10 2_555 D HIS 10 D HIS 10 10 1_555 D LEU 11 D LEU 11 10 1_555 D ALA 14 D ALA 14 10 1_555 146 H 3