1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Zimmermann, J. Kuehne, R. Freund, C. 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 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 US Biochemistry BICHAW 0033 0006-2960 46 6971 6977 10.1021/bi700437r 17511475 Redox-Regulated Conformational Changes in an SH3 Domain 2007 NE J.Biomol.Nmr JBNME9 0800 0925-2738 32 94 94 10.1007/s10858-005-3984-1 16041492 NMR assignment of the reduced and oxidized forms of the human ADAP hSH3-1 domain. 2005 10.2210/pdb2gtj/pdb pdb_00002gtj 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 11061.803 FYN-binding protein hSH3-N (reduced) 1 man polymer ADAP, FYN-T-binding protein, FYB-120/130, p120/p130, SLP-76-associated phosphoprotein, SLAP-130 no no EKKEQKEKEKKEQEIKKKFKLTGPIQVIHLAKACCDVKGGKNELSFKQGEQIEIIRITDNPEGKWLGRTARGSYGYIKTT AVEIDYDSLKLKKDLE EKKEQKEKEKKEQEIKKKFKLTGPIQVIHLAKACCDVKGGKNELSFKQGEQIEIIRITDNPEGKWLGRTARGSYGYIKTT AVEIDYDSLKLKKDLE 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 human Homo Escherichia Escherichia coli sample FYB, SLAP130 9606 Homo sapiens 469008 Escherichia coli BL21(DE3) BL21 DE3 pET24d 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 1 0 2007-06-05 1 1 2008-05-01 1 2 2011-07-13 1 3 2022-03-09 _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 2006-04-28 REL REL structures with the lowest energy 200 20 3D_15N-separated_NOESY 3D_13C-separated_NOESY 150 mM 7.4 ambient 298 K structures were calculated with XPLOR-NIH, the final structures were subjected to water refinement with XPLOR-NIH simulated annealing 1mM hSH3-N, 20 mM sodium phosphate, 150 mM NaCl, pH 7.4 90% H2O/10% D2O Per Kraulis data analysis ANSIG 3.3 Bruker, Rheinstetten collection XwinNMR Wayne Boucher data analysis Azara structure solution X-PLOR processing XwinNMR refinement X-PLOR 600 Bruker AVANCE 600 Bruker DRX GLU 1 n 1 GLU 1 A LYS 2 n 2 LYS 2 A LYS 3 n 3 LYS 3 A GLU 4 n 4 GLU 4 A GLN 5 n 5 GLN 5 A LYS 6 n 6 LYS 6 A GLU 7 n 7 GLU 7 A LYS 8 n 8 LYS 8 A GLU 9 n 9 GLU 9 A LYS 10 n 10 LYS 10 A LYS 11 n 11 LYS 11 A GLU 12 n 12 GLU 12 A GLN 13 n 13 GLN 13 A GLU 14 n 14 GLU 14 A ILE 15 n 15 ILE 15 A LYS 16 n 16 LYS 16 A LYS 17 n 17 LYS 17 A LYS 18 n 18 LYS 18 A PHE 19 n 19 PHE 19 A LYS 20 n 20 LYS 20 A LEU 21 n 21 LEU 21 A THR 22 n 22 THR 22 A GLY 23 n 23 GLY 23 A PRO 24 n 24 PRO 24 A ILE 25 n 25 ILE 25 A GLN 26 n 26 GLN 26 A VAL 27 n 27 VAL 27 A ILE 28 n 28 ILE 28 A HIS 29 n 29 HIS 29 A LEU 30 n 30 LEU 30 A ALA 31 n 31 ALA 31 A LYS 32 n 32 LYS 32 A ALA 33 n 33 ALA 33 A CYS 34 n 34 CYS 34 A CYS 35 n 35 CYS 35 A ASP 36 n 36 ASP 36 A VAL 37 n 37 VAL 37 A LYS 38 n 38 LYS 38 A GLY 39 n 39 GLY 39 A GLY 40 n 40 GLY 40 A LYS 41 n 41 LYS 41 A ASN 42 n 42 ASN 42 A GLU 43 n 43 GLU 43 A LEU 44 n 44 LEU 44 A SER 45 n 45 SER 45 A PHE 46 n 46 PHE 46 A LYS 47 n 47 LYS 47 A GLN 48 n 48 GLN 48 A GLY 49 n 49 GLY 49 A GLU 50 n 50 GLU 50 A GLN 51 n 51 GLN 51 A ILE 52 n 52 ILE 52 A GLU 53 n 53 GLU 53 A ILE 54 n 54 ILE 54 A ILE 55 n 55 ILE 55 A ARG 56 n 56 ARG 56 A ILE 57 n 57 ILE 57 A THR 58 n 58 THR 58 A ASP 59 n 59 ASP 59 A ASN 60 n 60 ASN 60 A PRO 61 n 61 PRO 61 A GLU 62 n 62 GLU 62 A GLY 63 n 63 GLY 63 A LYS 64 n 64 LYS 64 A TRP 65 n 65 TRP 65 A LEU 66 n 66 LEU 66 A GLY 67 n 67 GLY 67 A ARG 68 n 68 ARG 68 A THR 69 n 69 THR 69 A ALA 70 n 70 ALA 70 A ARG 71 n 71 ARG 71 A GLY 72 n 72 GLY 72 A SER 73 n 73 SER 73 A TYR 74 n 74 TYR 74 A GLY 75 n 75 GLY 75 A TYR 76 n 76 TYR 76 A ILE 77 n 77 ILE 77 A LYS 78 n 78 LYS 78 A THR 79 n 79 THR 79 A THR 80 n 80 THR 80 A ALA 81 n 81 ALA 81 A VAL 82 n 82 VAL 82 A GLU 83 n 83 GLU 83 A ILE 84 n 84 ILE 84 A ASP 85 n 85 ASP 85 A TYR 86 n 86 TYR 86 A ASP 87 n 87 ASP 87 A SER 88 n 88 SER 88 A LEU 89 n 89 LEU 89 A LYS 90 n 90 LYS 90 A LEU 91 n 91 LEU 91 A LYS 92 n 92 LYS 92 A LYS 93 n 93 LYS 93 A ASP 94 n 94 ASP 94 A LEU 95 n 95 LEU 95 A GLU 96 n 96 GLU 96 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 LEU 66 A O LEU 66 A N ILE 55 A N ILE 55 A O ILE 52 A O ILE 52 A N ALA 31 A N ALA 31 A N LYS 32 A N LYS 32 A O GLU 83 A O GLU 83 A N VAL 37 A N VAL 37 A O PHE 46 A O PHE 46 6 A A OE1 HZ3 GLU LYS 9 11 1.59 7 A A HD11 HG3 LEU ARG 21 56 1.24 9 A A HZ1 OD1 LYS ASP 20 59 1.59 10 A A OE2 HZ2 GLU LYS 43 64 1.58 10 A A HZ1 OE2 LYS GLU 10 12 1.60 11 A A HG2 HD2 GLU LYS 62 64 1.33 11 A A OE1 HH21 GLU ARG 53 68 1.59 13 A A HZ2 OD2 LYS ASP 20 59 1.59 15 A A HE1 HG2 PHE ARG 19 56 1.31 15 A A HE2 OD2 HIS ASP 29 87 1.58 16 A A OE2 HZ3 GLU LYS 43 78 1.60 17 A A HD11 HG3 LEU ARG 21 56 1.33 17 A A OE2 HZ1 GLU LYS 43 78 1.54 19 A A OE1 HZ1 GLU LYS 12 16 1.57 20 A A OE2 HZ3 GLU LYS 43 78 1.59 9 A ARG 71 0.092 SIDE CHAIN 18 A ARG 56 0.094 SIDE CHAIN 19 A ARG 56 0.088 SIDE CHAIN 2 A A N CA GLY GLY 75 75 -0.097 0.015 1.456 1.359 N 3 A A N CA GLY GLY 75 75 -0.099 0.015 1.456 1.357 N 5 A A N CA GLY GLY 75 75 -0.110 0.015 1.456 1.346 N 6 A A N CA GLY GLY 75 75 -0.101 0.015 1.456 1.355 N 7 A A N CA GLY GLY 75 75 -0.097 0.015 1.456 1.359 N 8 A A N CA GLY GLY 75 75 -0.100 0.015 1.456 1.356 N 9 A A N CA GLY GLY 75 75 -0.093 0.015 1.456 1.363 N 14 A A N CA GLY GLY 75 75 -0.109 0.015 1.456 1.347 N 16 A A N CA GLY GLY 75 75 -0.097 0.015 1.456 1.359 N 18 A A N CA GLY GLY 75 75 -0.096 0.015 1.456 1.360 N 20 A A N CA GLY GLY 75 75 -0.104 0.015 1.456 1.352 N 1 A GLU 9 67.82 84.96 1 A GLU 12 -83.72 46.58 1 A LYS 20 70.91 90.99 1 A THR 22 68.81 -72.38 1 A ASN 42 64.77 82.60 1 A GLN 51 80.07 122.05 1 A TYR 76 46.01 75.18 1 A THR 79 -35.53 -38.78 1 A ASP 87 89.23 -92.77 1 A SER 88 168.16 -82.58 1 A LEU 89 -153.09 -54.95 2 A GLU 7 -98.88 -63.08 2 A LYS 8 -178.48 -47.61 2 A GLU 9 72.18 -68.92 2 A GLU 14 83.72 29.45 2 A LYS 20 75.11 93.48 2 A THR 22 64.97 -38.30 2 A GLN 51 77.63 99.32 2 A ASP 59 55.14 70.78 2 A TYR 76 -45.52 100.55 2 A THR 79 -36.11 -39.46 3 A LYS 2 64.66 77.18 3 A LYS 11 70.42 93.17 3 A LYS 20 68.13 88.51 3 A ASN 42 66.55 86.64 3 A GLN 51 76.34 108.08 3 A TYR 76 -49.38 96.49 3 A THR 79 -36.02 -35.96 3 A LYS 93 57.63 95.18 4 A LYS 6 -121.97 -149.48 4 A GLU 7 61.36 65.95 4 A GLU 14 85.29 21.62 4 A LYS 20 70.09 89.40 4 A THR 22 69.88 -69.60 4 A ASN 42 71.52 87.38 4 A GLN 51 66.34 113.93 4 A ASP 59 82.82 10.91 4 A TYR 74 -119.73 61.31 4 A TYR 76 -34.29 101.05 4 A THR 79 -36.11 -35.90 4 A ASP 87 -167.17 61.45 4 A SER 88 -95.70 -62.11 4 A LYS 93 60.55 79.06 5 A LYS 3 69.31 86.99 5 A LYS 8 -80.62 -75.47 5 A LYS 10 -146.19 -19.83 5 A LYS 11 74.49 150.88 5 A LYS 20 75.00 88.25 5 A LEU 21 -99.94 -69.90 5 A THR 22 54.02 84.37 5 A LYS 41 57.43 71.11 5 A ASN 42 51.47 79.47 5 A GLN 51 72.21 112.61 5 A TYR 76 -48.92 100.34 5 A THR 79 -35.34 -38.20 5 A LEU 89 79.20 -39.40 5 A LYS 90 70.11 79.94 5 A LYS 93 76.30 174.77 6 A GLN 5 67.29 166.99 6 A GLU 9 74.10 -59.64 6 A LYS 10 75.86 103.60 6 A GLU 12 83.09 140.31 6 A LYS 20 74.61 85.58 6 A THR 22 62.75 100.23 6 A LYS 41 58.88 71.58 6 A GLN 48 -35.79 111.97 6 A GLN 51 70.84 104.20 6 A TYR 76 -46.00 96.99 6 A TYR 86 -143.46 -5.50 6 A ASP 87 48.90 92.04 6 A SER 88 -96.94 39.41 6 A LYS 90 54.56 72.98 6 A ASP 94 -114.64 -160.94 7 A GLU 4 170.35 151.69 7 A LYS 8 -107.72 -82.55 7 A LYS 18 -99.58 -67.01 7 A LYS 20 75.72 91.84 7 A ASN 42 63.14 86.97 7 A GLN 51 73.23 110.41 7 A TYR 76 -48.92 100.36 7 A THR 79 -36.13 -38.59 7 A LEU 89 68.48 -69.67 7 A LYS 93 -150.47 82.22 8 A LYS 2 -140.48 25.78 8 A GLU 4 -159.89 -47.33 8 A LYS 10 -110.88 -78.25 8 A GLU 14 -69.34 8.12 8 A LYS 18 -91.06 -68.00 8 A LYS 20 58.28 88.96 8 A THR 22 66.28 -5.55 8 A ASN 42 62.51 95.61 8 A GLN 51 73.95 111.83 8 A TYR 76 -47.71 103.19 8 A THR 79 -36.21 -39.48 8 A LYS 93 171.83 78.73 9 A LYS 3 68.17 72.67 9 A GLU 4 60.05 75.76 9 A GLU 7 -68.25 79.87 9 A LYS 18 -120.41 -60.88 9 A LYS 20 65.45 90.00 9 A THR 22 69.83 -55.19 9 A ASN 42 54.49 83.85 9 A GLN 51 72.11 109.23 9 A TYR 76 -44.84 93.68 9 A THR 79 -35.10 -39.10 9 A ASP 87 -58.11 104.83 9 A LYS 90 64.82 69.89 9 A LYS 92 -91.84 -60.06 10 A GLU 4 72.44 140.73 10 A GLN 5 78.05 -49.26 10 A LYS 6 68.47 103.70 10 A LYS 8 68.97 -72.58 10 A GLU 9 176.40 -73.37 10 A LYS 10 -152.27 42.64 10 A GLU 12 -98.00 39.18 10 A LYS 20 66.82 94.23 10 A LEU 21 -99.76 -64.85 10 A THR 22 58.32 82.49 10 A LYS 41 66.72 82.90 10 A ASN 42 89.28 26.12 10 A GLN 51 72.83 134.32 10 A ASP 59 64.79 69.16 10 A TYR 76 51.20 80.44 10 A THR 79 -34.95 -38.30 10 A LYS 93 -168.33 73.61 11 A LYS 6 -179.32 -174.59 11 A LYS 18 -98.51 -61.76 11 A LYS 20 66.07 83.80 11 A LEU 21 -100.19 -69.76 11 A THR 22 62.44 76.94 11 A LYS 41 61.91 76.88 11 A ASN 42 57.70 70.49 11 A GLN 51 70.51 102.14 11 A TYR 76 -40.82 100.75 11 A THR 79 -36.46 -39.36 11 A LYS 90 -127.16 -165.77 11 A ASP 94 80.08 -41.64 12 A LYS 8 -109.44 -60.78 12 A LYS 10 -89.06 39.92 12 A LYS 18 -92.16 -61.34 12 A LYS 20 71.55 83.46 12 A LEU 21 -98.60 -65.00 12 A THR 22 36.93 75.42 12 A LYS 41 61.92 72.11 12 A ASN 42 58.48 80.15 12 A GLN 51 75.61 116.99 12 A ASP 59 62.32 69.27 12 A TYR 76 47.28 89.73 12 A THR 79 -34.96 -33.05 12 A LEU 89 61.59 75.75 12 A ASP 94 -160.49 104.70 12 A LEU 95 69.37 96.89 13 A GLU 9 72.56 -65.89 13 A LYS 11 67.32 -161.37 13 A LYS 20 71.33 89.99 13 A THR 22 56.83 82.42 13 A LYS 41 67.32 81.21 13 A ASN 42 56.15 74.51 13 A GLN 51 74.71 107.30 13 A TYR 76 -43.23 94.88 13 A THR 79 -36.13 -29.86 13 A ASP 87 -64.81 99.93 13 A LYS 92 68.56 171.45 13 A LEU 95 71.87 -75.03 14 A GLU 4 -50.26 108.29 14 A LYS 8 61.48 109.59 14 A GLU 9 74.17 -70.88 14 A LYS 10 50.49 86.11 14 A GLU 14 -76.54 20.16 14 A LYS 20 68.18 88.23 14 A THR 22 70.63 -32.26 14 A ASN 42 63.71 89.21 14 A GLN 51 72.41 109.17 14 A ASP 59 67.30 71.59 14 A ARG 71 -170.29 -27.40 14 A TYR 76 -44.39 101.17 14 A THR 79 -35.96 -39.81 14 A ASP 87 162.78 140.69 14 A ASP 94 -64.31 -82.33 14 A LEU 95 -147.21 22.99 15 A GLU 9 -87.79 -158.32 15 A LYS 11 67.96 87.49 15 A LYS 20 70.71 86.77 15 A THR 22 54.71 91.62 15 A ASN 42 61.49 84.81 15 A GLN 51 92.52 113.26 15 A ASP 59 60.43 65.50 15 A GLU 62 -135.12 -72.62 15 A TYR 74 -108.50 73.84 15 A TYR 76 -44.04 96.38 15 A THR 79 -35.80 -39.09 15 A ASP 94 -123.51 -71.21 16 A GLU 14 -75.38 23.71 16 A LYS 20 66.86 87.79 16 A LEU 21 -98.30 -65.54 16 A THR 22 50.25 80.81 16 A ASN 42 63.49 85.95 16 A GLN 51 70.78 129.91 16 A TYR 76 -47.84 98.09 16 A THR 79 -35.26 -38.49 16 A SER 88 -177.60 138.86 17 A LYS 20 68.70 99.23 17 A THR 22 56.13 78.42 17 A GLN 51 70.30 120.01 17 A ASP 59 71.55 31.09 17 A TYR 76 48.13 82.66 17 A THR 79 -36.30 -36.75 17 A ASP 87 -175.85 109.65 17 A LEU 89 59.85 71.67 17 A LEU 95 61.31 78.02 18 A LYS 3 74.20 -46.15 18 A GLN 5 77.99 138.20 18 A LYS 8 -176.04 -68.60 18 A LYS 11 -170.02 82.43 18 A GLU 12 -147.02 33.51 18 A LYS 20 77.59 90.42 18 A GLN 51 74.63 104.43 18 A ASP 59 71.51 68.73 18 A GLU 62 -109.23 -64.70 18 A TYR 76 -50.22 98.94 18 A THR 79 -36.28 -34.82 18 A LYS 90 -126.57 -63.75 19 A GLN 5 33.59 70.15 19 A LYS 11 72.55 129.59 19 A LYS 20 70.25 90.92 19 A LEU 21 -99.51 -67.48 19 A LYS 41 57.24 78.44 19 A ASN 42 51.49 71.68 19 A GLN 51 75.45 128.98 19 A ASP 59 61.93 67.86 19 A TYR 76 -42.16 101.14 19 A THR 79 -36.47 -30.71 19 A ASP 87 -138.24 -87.19 19 A SER 88 166.07 126.38 19 A ASP 94 64.74 86.34 19 A LEU 95 -160.77 -64.69 20 A GLN 5 70.13 -77.25 20 A LYS 6 52.66 -84.20 20 A GLU 12 -100.03 75.86 20 A LYS 20 63.08 86.05 20 A THR 22 54.50 83.47 20 A LYS 41 62.60 71.90 20 A ASN 42 53.04 73.01 20 A GLN 51 71.56 107.49 20 A ASP 59 58.29 71.20 20 A ARG 71 -167.62 -35.29 20 A TYR 76 -51.31 97.51 20 A THR 79 -35.65 -34.16 20 A ASP 87 64.96 -94.14 20 A SER 88 42.47 78.98 Reduced form of ADAP hSH3-N-domain 1 N N A GLU 12 A GLU 12 HELX_P A LYS 20 A LYS 20 1 1 9 A LYS 78 A LYS 78 HELX_P A THR 80 A THR 80 5 2 3 SIGNALING PROTEIN SH3, redox, SIGNALING PROTEIN FYB_HUMAN UNP 1 486 O15117 EKKEQKEKEKKEQEIKKKFKLTGPIQVIHLAKACCDVKGGKNELSFKQGEQIEIIRITDNPEGKWLGRTARGSYGYIKTT AVEIDYDSLKLKKD 486 579 2GTJ 1 94 O15117 A 1 1 94 1 cloning artifact LEU 95 2GTJ A O15117 UNP 95 1 cloning artifact GLU 96 2GTJ A O15117 UNP 96 4 2 anti-parallel anti-parallel anti-parallel anti-parallel A LEU 66 A LEU 66 A ARG 68 A ARG 68 A ILE 52 A ILE 52 A ARG 56 A ARG 56 A HIS 29 A HIS 29 A ALA 33 A ALA 33 A VAL 82 A VAL 82 A ILE 84 A ILE 84 A VAL 37 A VAL 37 A LYS 38 A LYS 38 A SER 45 A SER 45 A PHE 46 A PHE 46