1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Briknarova, K. Grishaev, A. Banyai, L. Tordai, H. Patthy, L. Llinas, M. 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 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 UK Structure Fold.Des. FODEFH 1263 0969-2126 7 1235 1245 10.1016/S0969-2126(00)80057-X 10545322 The second type II module from human matrix metalloproteinase 2: structure, function and dynamics. 1999 10.2210/pdb1cxw/pdb pdb_00001cxw 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 6773.364 HUMAN MATRIX METALLOPROTEINASE 2 3.4.24.24 THE SECOND TYPE II MODULE 1 man polymer COL-2 no no TALFTMGGNAEGQPCKFPFRFQGTSYDSCTTEGRTDGYRWCGTTEDYDRDKKYGFCPETA TALFTMGGNAEGQPCKFPFRFQGTSYDSCTTEGRTDGYRWCGTTEDYDRDKKYGFCPETA 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 human Homo Escherichia sample 9606 Homo sapiens 562 Escherichia coli PLASMID PMED23 database_2 pdbx_nmr_software pdbx_nmr_spectrometer 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 Database references 1 0 1999-11-12 1 1 2008-04-27 1 2 2011-07-13 1 3 2022-02-16 1 4 2022-12-21 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name _pdbx_nmr_spectrometer.model _struct_ref_seq_dif.details RCSB Y RCSB 1999-08-31 REL all calculated structures submitted 50 50 2D NOESY 2D NOESY E-COSY HNHA HNHB 0 5.2 1 atm 298 K 0 5.1 1 atm 298 K DISTANCE GEOMETRY AND SIMULATED ANNEALING 1 fewest violations,lowest energy 1.3MM COL-2 NA; 90% H2O, 10% D2O 1.3MM COL-2 NA; D2O 1MM COL-2 U-15N; 90% H2O, 10% D2O 4MM COL-2 U-15N; 90% H2O, 10% D2O BRUKER, GERMANY structure solution XwinNMR 2.0 MOLECULAR SIMULATIONS, INC., SAN DIEGO, CA structure solution Felix 95 BRUNGER structure solution X-PLOR 3.851 MOLECULAR SIMULATIONS, INC., SAN DIEGO, CA refinement QUANTA 96 500 Bruker AVANCE 600 Bruker AVANCE THR 1 n 1 THR 1 A ALA 2 n 2 ALA 2 A LEU 3 n 3 LEU 3 A PHE 4 n 4 PHE 4 A THR 5 n 5 THR 5 A MET 6 n 6 MET 6 A GLY 7 n 7 GLY 7 A GLY 8 n 8 GLY 8 A ASN 9 n 9 ASN 9 A ALA 10 n 10 ALA 10 A GLU 11 n 11 GLU 11 A GLY 12 n 12 GLY 12 A GLN 13 n 13 GLN 13 A PRO 14 n 14 PRO 14 A CYS 15 n 15 CYS 15 A LYS 16 n 16 LYS 16 A PHE 17 n 17 PHE 17 A PRO 18 n 18 PRO 18 A PHE 19 n 19 PHE 19 A ARG 20 n 20 ARG 20 A PHE 21 n 21 PHE 21 A GLN 22 n 22 GLN 22 A GLY 23 n 23 GLY 23 A THR 24 n 24 THR 24 A SER 25 n 25 SER 25 A TYR 26 n 26 TYR 26 A ASP 27 n 27 ASP 27 A SER 28 n 28 SER 28 A CYS 29 n 29 CYS 29 A THR 30 n 30 THR 30 A THR 31 n 31 THR 31 A GLU 32 n 32 GLU 32 A GLY 33 n 33 GLY 33 A ARG 34 n 34 ARG 34 A THR 35 n 35 THR 35 A ASP 36 n 36 ASP 36 A GLY 37 n 37 GLY 37 A TYR 38 n 38 TYR 38 A ARG 39 n 39 ARG 39 A TRP 40 n 40 TRP 40 A CYS 41 n 41 CYS 41 A GLY 42 n 42 GLY 42 A THR 43 n 43 THR 43 A THR 44 n 44 THR 44 A GLU 45 n 45 GLU 45 A ASP 46 n 46 ASP 46 A TYR 47 n 47 TYR 47 A ASP 48 n 48 ASP 48 A ARG 49 n 49 ARG 49 A ASP 50 n 50 ASP 50 A LYS 51 n 51 LYS 51 A LYS 52 n 52 LYS 52 A TYR 53 n 53 TYR 53 A GLY 54 n 54 GLY 54 A PHE 55 n 55 PHE 55 A CYS 56 n 56 CYS 56 A PRO 57 n 57 PRO 57 A GLU 58 n 58 GLU 58 A THR 59 n 59 THR 59 A ALA 60 n 60 ALA 60 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 N PHE 21 A N PHE 21 A O THR 24 A O THR 24 A O CYS 41 A O CYS 41 A N GLY 54 A N GLY 54 1 A A O HZ3 ASP LYS 48 51 1.60 3 A A O HZ3 ASP LYS 48 51 1.59 4 A A O HZ3 ASP LYS 48 51 1.57 8 A A O HZ1 ASP LYS 48 51 1.59 8 A A O HZ2 ASN LYS 9 52 1.60 9 A A O HZ1 ASP LYS 48 51 1.60 11 A A O HZ3 ASP LYS 48 51 1.60 13 A A O HZ3 ASP LYS 48 51 1.58 14 A A O HZ3 ASP LYS 48 51 1.59 15 A A HZ1 O LYS PRO 16 18 1.57 15 A A O HZ3 ASP LYS 48 51 1.60 16 A A O HZ2 ASP LYS 48 51 1.58 17 A A O HZ2 ASP LYS 48 51 1.59 19 A A O HZ2 ASP LYS 48 51 1.59 20 A A O HZ2 ASN LYS 9 52 1.59 21 A A O HZ2 ASP LYS 48 51 1.59 22 A A O HZ1 ASP LYS 48 51 1.60 26 A A O HZ2 ASP LYS 48 51 1.59 28 A A O HZ2 ASP LYS 48 51 1.58 29 A A HZ3 O LYS PRO 16 18 1.60 30 A A O HZ1 ASN LYS 9 52 1.60 31 A A O HZ2 ASP LYS 48 51 1.60 32 A A O HZ2 ASP LYS 48 51 1.59 33 A A HZ1 O LYS PRO 16 18 1.58 34 A A O HZ2 ASP LYS 48 51 1.59 34 A A O HZ2 ASN LYS 9 52 1.60 35 A A O HZ2 ASP LYS 48 51 1.59 38 A A HZ3 O LYS PRO 16 18 1.59 38 A A O HZ1 ASN LYS 9 52 1.60 39 A A O HZ1 CYS LYS 15 16 1.60 40 A A HZ1 O LYS PRO 16 18 1.58 40 A A O HZ3 ASP LYS 48 51 1.59 43 A A O HZ3 ASP LYS 48 51 1.57 46 A A HZ3 O LYS PRO 16 18 1.58 48 A A O HZ3 ASP LYS 48 51 1.60 35 A A GLN PRO 13 14 143.32 2 A ARG 34 0.085 SIDE CHAIN 9 A ARG 34 0.080 SIDE CHAIN 12 A TYR 38 0.068 SIDE CHAIN 14 A TYR 26 0.073 SIDE CHAIN 15 A TYR 38 0.069 SIDE CHAIN 16 A TYR 38 0.124 SIDE CHAIN 18 A ARG 20 0.118 SIDE CHAIN 19 A TYR 26 0.067 SIDE CHAIN 20 A ARG 49 0.085 SIDE CHAIN 22 A TYR 38 0.067 SIDE CHAIN 24 A TYR 38 0.108 SIDE CHAIN 25 A TYR 38 0.070 SIDE CHAIN 32 A TYR 38 0.065 SIDE CHAIN 34 A ARG 34 0.081 SIDE CHAIN 41 A TYR 38 0.072 SIDE CHAIN 43 A TYR 38 0.075 SIDE CHAIN 47 A ARG 34 0.134 SIDE CHAIN 49 A ARG 34 0.112 SIDE CHAIN 49 A TYR 38 0.102 SIDE CHAIN 2 -4.27 0.60 121.00 116.73 A A A CB CG CD2 TYR TYR TYR 53 53 53 N 2 4.61 0.60 121.00 125.61 A A A CB CG CD1 TYR TYR TYR 53 53 53 N 4 7.67 1.20 111.50 119.17 A A A CB CA C CYS CYS CYS 41 41 41 N 5 -3.33 0.50 120.30 116.97 A A A NE CZ NH2 ARG ARG ARG 20 20 20 N 7 3.63 0.60 121.00 124.63 A A A CB CG CD1 TYR TYR TYR 26 26 26 N 14 -3.87 0.50 120.30 116.43 A A A NE CZ NH2 ARG ARG ARG 20 20 20 N 16 7.56 1.10 114.20 121.76 A A A CA CB SG CYS CYS CYS 29 29 29 N 23 19.90 2.00 110.40 130.30 A A A CB CA C LYS LYS LYS 52 52 52 N 23 -3.77 0.60 121.00 117.23 A A A CB CG CD2 TYR TYR TYR 53 53 53 N 31 3.76 0.60 121.00 124.76 A A A CB CG CD1 TYR TYR TYR 26 26 26 N 47 -3.17 0.50 120.30 117.13 A A A NE CZ NH2 ARG ARG ARG 20 20 20 N 48 -3.16 0.50 120.30 117.14 A A A NE CZ NH2 ARG ARG ARG 39 39 39 N 1 A MET 6 26.81 71.38 1 A GLU 11 36.95 42.94 2 A MET 6 24.88 66.21 2 A ALA 10 -74.26 29.84 2 A LYS 51 70.65 41.87 2 A CYS 56 -55.49 106.65 2 A GLU 58 54.46 -118.54 2 A THR 59 68.82 -74.06 3 A ALA 2 67.66 -145.35 3 A MET 6 77.31 -61.13 3 A ALA 10 -86.22 47.62 4 A ALA 2 -67.22 89.29 4 A MET 6 162.82 50.13 4 A GLU 11 47.60 29.80 4 A CYS 15 -49.82 151.67 4 A GLN 22 58.25 16.19 4 A THR 44 73.05 175.65 4 A GLU 58 -104.38 -158.24 5 A ALA 2 64.54 172.69 5 A MET 6 -172.85 -58.24 5 A ASN 9 -116.80 -123.48 6 A PHE 4 -79.15 -121.16 6 A LYS 51 74.68 35.24 6 A CYS 56 57.62 -172.54 6 A GLU 58 -20.27 131.58 7 A ALA 2 -154.42 -156.70 7 A PHE 4 -82.33 -135.97 7 A ALA 10 -64.60 22.63 7 A GLU 58 -164.26 -167.68 8 A ALA 2 -152.81 34.33 8 A LEU 3 -115.85 71.90 8 A MET 6 -106.89 -76.87 8 A ALA 10 -80.00 49.75 8 A GLU 58 -99.93 50.02 9 A ALA 2 153.48 -102.92 9 A MET 6 23.82 73.62 9 A ALA 10 -72.98 28.37 9 A PRO 57 -73.84 -167.39 10 A ALA 2 -156.93 14.05 10 A PHE 4 -83.88 -97.71 10 A THR 5 -139.06 -51.63 10 A ALA 10 -74.31 46.98 10 A GLU 11 36.17 48.01 10 A GLN 22 54.82 16.58 10 A PRO 57 -78.97 -147.00 11 A PHE 4 -82.53 -125.88 11 A GLU 11 36.22 38.35 11 A THR 44 72.37 168.31 12 A MET 6 -148.30 -83.66 12 A ALA 10 -79.49 23.51 12 A CYS 56 159.83 166.96 12 A PRO 57 -71.86 -121.67 13 A MET 6 -178.61 138.17 13 A ALA 10 -73.45 26.72 13 A GLN 22 55.90 19.48 13 A GLU 58 -175.85 136.66 13 A THR 59 172.48 -47.29 14 A MET 6 20.07 81.73 14 A ALA 10 -54.85 18.80 14 A CYS 15 -39.73 142.73 14 A THR 44 83.82 163.56 14 A PRO 57 -74.27 -157.70 14 A GLU 58 -154.69 -83.47 15 A ALA 2 61.97 -163.61 15 A MET 6 -138.77 -60.95 15 A GLU 11 31.47 52.46 15 A GLN 13 -34.37 153.94 15 A THR 44 86.49 178.18 15 A PHE 55 -100.87 48.23 15 A CYS 56 73.36 130.24 15 A THR 59 33.22 -101.26 16 A ALA 2 95.80 154.55 16 A LEU 3 -94.55 46.48 16 A PHE 4 27.18 152.18 16 A MET 6 -149.77 -83.23 16 A ASN 9 -117.84 -128.85 16 A ALA 10 115.37 -46.06 16 A GLU 11 77.85 53.29 16 A GLN 22 55.88 14.98 16 A TYR 38 -39.66 179.49 16 A ARG 49 -55.84 -70.74 16 A LYS 51 80.20 9.09 16 A CYS 56 174.66 139.97 16 A GLU 58 -11.28 -102.61 16 A THR 59 71.05 -81.82 17 A ALA 2 -161.19 -142.44 17 A THR 44 77.45 148.28 17 A THR 59 -97.27 35.53 18 A ALA 2 72.09 180.00 18 A PRO 57 -77.51 -142.57 19 A ALA 2 -108.92 -67.13 19 A LEU 3 -108.67 77.44 19 A MET 6 31.62 68.01 19 A ASN 9 -108.54 -116.96 19 A GLU 32 -57.95 109.16 19 A THR 44 64.48 167.64 19 A LYS 51 83.78 0.78 20 A MET 6 12.75 93.33 20 A ALA 10 -77.31 46.01 20 A THR 44 84.41 171.39 21 A PHE 4 67.34 179.74 21 A MET 6 -163.82 -115.59 21 A ALA 10 -66.31 18.81 21 A THR 44 69.32 168.18 21 A CYS 56 -46.43 101.42 22 A ALA 2 59.25 -122.72 22 A MET 6 -107.31 -129.57 22 A ALA 10 -62.16 20.68 22 A GLN 22 57.04 -2.91 22 A THR 44 64.04 164.07 22 A CYS 56 157.49 171.31 22 A PRO 57 -83.74 -145.24 22 A GLU 58 -101.30 -68.83 22 A THR 59 56.04 -120.37 23 A ASN 9 -109.80 -110.09 23 A THR 44 65.27 158.88 23 A TYR 53 130.90 175.91 23 A GLU 58 -50.95 107.64 24 A ALA 2 70.31 168.51 24 A MET 6 77.14 -58.73 24 A ALA 10 -63.16 7.43 24 A THR 44 64.84 167.35 24 A GLU 58 -81.17 -77.96 25 A MET 6 21.57 82.35 25 A ALA 10 -65.88 2.05 25 A THR 44 77.89 155.02 26 A MET 6 -153.11 -55.62 26 A ALA 10 -64.52 26.78 26 A PRO 57 -82.42 -124.90 26 A GLU 58 69.57 174.10 26 A THR 59 -143.30 -37.76 27 A ALA 2 154.92 124.02 27 A PHE 4 -86.99 -121.56 27 A THR 5 -120.58 -95.12 27 A MET 6 70.20 139.80 27 A GLU 11 35.43 -79.01 27 A CYS 56 -53.48 103.55 28 A ALA 2 68.34 -159.16 28 A PHE 4 65.56 142.62 28 A ASN 9 -118.95 -118.81 28 A LYS 51 71.98 30.40 28 A PHE 55 -97.20 56.65 28 A CYS 56 76.16 145.57 28 A GLU 58 -86.89 -100.29 28 A THR 59 -174.70 -39.07 29 A ALA 2 65.28 71.88 29 A PHE 4 -81.06 -111.97 29 A THR 5 -130.52 -78.61 29 A MET 6 67.34 124.14 29 A ASN 9 -116.26 -119.86 29 A THR 44 -174.17 -176.99 29 A GLU 45 -73.25 -79.50 29 A LYS 51 -27.05 156.14 29 A CYS 56 -56.94 100.28 30 A MET 6 23.03 75.05 30 A ALA 10 -78.07 49.36 30 A PRO 57 -77.52 -118.66 30 A THR 59 -37.72 112.33 31 A MET 6 -151.46 -127.59 31 A ASN 9 -114.86 -126.30 31 A CYS 56 -53.13 106.18 32 A PHE 4 -49.20 152.61 32 A MET 6 64.21 -58.58 32 A ALA 10 -52.09 7.15 32 A GLN 22 58.25 18.27 32 A THR 44 75.84 171.24 32 A LYS 51 61.39 67.83 32 A THR 59 -27.65 111.23 33 A LEU 3 -103.57 42.24 33 A PHE 4 60.63 168.65 33 A MET 6 -149.95 -110.40 33 A ALA 10 -66.94 15.40 33 A PRO 57 -81.72 -133.17 33 A GLU 58 -98.56 -73.03 34 A ALA 2 -86.05 -134.19 34 A MET 6 -164.18 -119.70 34 A ALA 10 -66.42 16.41 35 A ALA 2 -152.99 6.47 35 A GLU 11 14.50 -65.49 35 A GLU 32 -57.41 107.24 35 A THR 59 -158.53 57.16 36 A ALA 2 -155.22 82.99 36 A PHE 4 -81.29 -102.81 36 A ASN 9 -124.69 -119.72 36 A THR 44 102.99 139.19 36 A PRO 57 -86.04 -132.31 36 A GLU 58 -157.40 45.83 36 A THR 59 -106.40 -122.75 37 A ALA 2 62.72 62.25 37 A LEU 3 -113.44 77.22 37 A PHE 4 -90.71 -135.43 37 A MET 6 66.68 -74.34 37 A ASN 9 -109.04 -122.50 37 A GLN 22 58.72 18.84 37 A PRO 57 -72.73 -115.35 37 A GLU 58 -84.91 -116.40 38 A ALA 2 -147.38 55.53 38 A LEU 3 -106.73 73.89 38 A PHE 4 -88.45 -151.56 38 A MET 6 64.48 -127.31 38 A ALA 10 -76.79 47.67 39 A ALA 2 54.07 -133.72 39 A PHE 4 59.40 177.32 39 A MET 6 -164.77 43.78 39 A GLU 11 22.22 69.07 39 A GLN 13 -33.09 153.78 39 A GLN 22 56.20 4.61 39 A CYS 56 -51.99 103.35 40 A PHE 4 -81.40 -149.49 40 A MET 6 25.84 66.64 40 A ASN 9 -104.01 -120.23 40 A GLN 22 55.73 19.87 40 A ASP 46 -109.24 78.19 40 A LYS 51 92.19 -19.16 41 A LEU 3 -114.58 72.82 41 A MET 6 30.33 66.50 41 A ALA 10 -78.94 47.59 41 A GLN 22 56.28 14.56 42 A ASN 9 -108.09 -131.02 42 A GLU 11 59.26 16.30 43 A PHE 4 67.19 143.17 43 A MET 6 63.70 -56.83 43 A GLN 13 -35.17 156.98 43 A GLN 22 57.29 12.39 43 A CYS 56 69.51 169.58 43 A PRO 57 -77.14 -132.68 44 A ALA 2 -152.55 52.86 44 A PHE 4 62.70 169.23 44 A MET 6 66.10 -129.40 44 A ALA 10 -66.94 28.38 44 A GLN 22 57.91 9.99 44 A LYS 51 78.38 31.43 44 A PRO 57 -78.36 -132.53 44 A GLU 58 16.96 61.79 45 A ALA 2 61.69 -174.75 45 A PHE 4 -71.39 -91.64 45 A THR 5 -138.36 -50.13 45 A THR 44 78.80 150.69 45 A PRO 57 -79.49 -157.93 45 A GLU 58 176.77 -54.97 45 A THR 59 73.34 -124.53 46 A ALA 2 60.14 -163.10 46 A MET 6 -162.42 -66.25 46 A GLU 58 -179.82 -48.53 47 A THR 5 -105.30 -60.54 47 A MET 6 39.20 57.14 47 A GLN 13 -37.58 155.03 47 A GLU 58 -177.02 146.78 48 A PHE 4 -78.63 -103.53 48 A THR 5 -127.42 -52.48 48 A ALA 10 -65.69 11.39 49 A MET 6 65.49 -111.63 49 A ALA 10 -75.87 39.21 49 A GLU 32 -39.63 122.39 49 A CYS 56 -50.34 103.30 49 A THR 59 -159.53 56.81 50 A PHE 4 -79.74 -119.04 50 A ASN 9 -124.87 -121.30 50 A GLU 11 33.59 48.33 THE SECOND TYPE II MODULE FROM HUMAN MATRIX METALLOPROTEINASE 2 1 N N A ASP 46 A ASP 46 HELX_P A LYS 51 A LYS 51 1 1 6 disulf 2.033 A CYS 15 A SG CYS 15 1_555 A CYS 41 A SG CYS 41 1_555 disulf 2.033 A CYS 29 A SG CYS 29 1_555 A CYS 56 A SG CYS 56 1_555 HYDROLASE BETA SHEET, ALPHA HELIX, HYDROLASE A PHE 17 A PHE 17 1 A PRO 18 A PRO 18 -18.28 A PHE 17 A PHE 17 2 A PRO 18 A PRO 18 -10.83 A PHE 17 A PHE 17 3 A PRO 18 A PRO 18 -7.36 A PHE 17 A PHE 17 4 A PRO 18 A PRO 18 -8.97 A PHE 17 A PHE 17 5 A PRO 18 A PRO 18 -6.46 A PHE 17 A PHE 17 6 A PRO 18 A PRO 18 -7.81 A PHE 17 A PHE 17 7 A PRO 18 A PRO 18 -12.14 A PHE 17 A PHE 17 8 A PRO 18 A PRO 18 -8.95 A PHE 17 A PHE 17 9 A PRO 18 A PRO 18 -7.39 A PHE 17 A PHE 17 10 A PRO 18 A PRO 18 -5.69 A PHE 17 A PHE 17 11 A PRO 18 A PRO 18 -12.56 A PHE 17 A PHE 17 12 A PRO 18 A PRO 18 -14.54 A PHE 17 A PHE 17 13 A PRO 18 A PRO 18 -4.29 A PHE 17 A PHE 17 14 A PRO 18 A PRO 18 -4.48 A PHE 17 A PHE 17 15 A PRO 18 A PRO 18 -7.78 A PHE 17 A PHE 17 16 A PRO 18 A PRO 18 -16.83 A PHE 17 A PHE 17 17 A PRO 18 A PRO 18 -8.29 A PHE 17 A PHE 17 18 A PRO 18 A PRO 18 -18.20 A PHE 17 A PHE 17 19 A PRO 18 A PRO 18 -8.05 A PHE 17 A PHE 17 20 A PRO 18 A PRO 18 -12.58 A PHE 17 A PHE 17 21 A PRO 18 A PRO 18 -19.03 A PHE 17 A PHE 17 22 A PRO 18 A PRO 18 -10.52 A PHE 17 A PHE 17 23 A PRO 18 A PRO 18 -11.07 A PHE 17 A PHE 17 24 A PRO 18 A PRO 18 -14.09 A PHE 17 A PHE 17 25 A PRO 18 A PRO 18 -9.94 A PHE 17 A PHE 17 26 A PRO 18 A PRO 18 -8.91 A PHE 17 A PHE 17 27 A PRO 18 A PRO 18 -18.66 A PHE 17 A PHE 17 28 A PRO 18 A PRO 18 -11.67 A PHE 17 A PHE 17 29 A PRO 18 A PRO 18 -10.10 A PHE 17 A PHE 17 30 A PRO 18 A PRO 18 -9.85 A PHE 17 A PHE 17 31 A PRO 18 A PRO 18 -7.07 A PHE 17 A PHE 17 32 A PRO 18 A PRO 18 -7.18 A PHE 17 A PHE 17 33 A PRO 18 A PRO 18 -7.39 A PHE 17 A PHE 17 34 A PRO 18 A PRO 18 -9.41 A PHE 17 A PHE 17 35 A PRO 18 A PRO 18 -8.07 A PHE 17 A PHE 17 36 A PRO 18 A PRO 18 -10.85 A PHE 17 A PHE 17 37 A PRO 18 A PRO 18 -18.09 A PHE 17 A PHE 17 38 A PRO 18 A PRO 18 -8.93 A PHE 17 A PHE 17 39 A PRO 18 A PRO 18 -12.65 A PHE 17 A PHE 17 40 A PRO 18 A PRO 18 -29.22 A PHE 17 A PHE 17 41 A PRO 18 A PRO 18 -11.83 A PHE 17 A PHE 17 42 A PRO 18 A PRO 18 -12.96 A PHE 17 A PHE 17 43 A PRO 18 A PRO 18 -9.97 A PHE 17 A PHE 17 44 A PRO 18 A PRO 18 -8.29 A PHE 17 A PHE 17 45 A PRO 18 A PRO 18 -6.31 A PHE 17 A PHE 17 46 A PRO 18 A PRO 18 -11.48 A PHE 17 A PHE 17 47 A PRO 18 A PRO 18 -13.68 A PHE 17 A PHE 17 48 A PRO 18 A PRO 18 -11.42 A PHE 17 A PHE 17 49 A PRO 18 A PRO 18 -12.28 A PHE 17 A PHE 17 50 A PRO 18 A PRO 18 -2.57 MMP2_HUMAN UNP 1 P08253 278 336 1CXW 2 60 P08253 A 1 2 60 1 cloning artifact THR 1 1CXW A P08253 UNP 1 2 2 anti-parallel anti-parallel A PHE 19 A PHE 19 A PHE 21 A PHE 21 A THR 24 A THR 24 A TYR 26 A TYR 26 A ARG 39 A ARG 39 A GLY 42 A GLY 42 A TYR 53 A TYR 53 A CYS 56 A CYS 56 1 P 1