1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Johansson, M.U. De Chateau, M. Wikstrom, M. Forsen, S. Drakenberg, T. Bjorck, L. 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 C4 H8 N2 O3 132.118 y ASPARAGINE L-peptide linking C4 H7 N O4 133.103 y ASPARTIC ACID 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 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 J.Mol.Biol. JMOBAK 0070 0022-2836 266 859 865 10.1006/jmbi.1996.0856 9086265 Solution structure of the albumin-binding GA module: a versatile bacterial protein domain. 1997 NE FEBS Lett. FEBLAL 0165 0014-5793 374 257 The Ga Module, a Mobile Albumin-Binding Bacterial Domain, Adopts a Three-Helix-Bundle Structure 1995 10.2210/pdb1gab/pdb pdb_00001gab 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 5939.786 PROTEIN PAB ALBUMIN-BINDING DOMAIN, RESIDUES 213 - 265 1 man polymer GA MODULE no no TIDQWLLKNAKEDAIAELKKAGITSDFYFNAINKAKTVEEVNALKNEILKAHA TIDQWLLKNAKEDAIAELKKAGITSDFYFNAINKAKTVEEVNALKNEILKAHA 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 Finegoldia Finegoldia magna ALB8 Escherichia sample 334413 Finegoldia magna ATCC 29328 562 Escherichia coli BACTERIAL database_2 pdbx_database_status pdbx_nmr_ensemble pdbx_nmr_refine pdbx_nmr_software pdbx_nmr_spectrometer pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations Other Refinement description 1 0 1997-07-07 1 1 2008-03-24 1 2 2011-07-13 1 3 2021-10-27 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_database_status.process_site _pdbx_nmr_ensemble.conformer_selection_criteria _pdbx_nmr_refine.software_ordinal _pdbx_nmr_software.authors _pdbx_nmr_software.classification _pdbx_nmr_software.name _pdbx_nmr_spectrometer.manufacturer _pdbx_nmr_spectrometer.model Y BNL 1996-12-30 REL structures with the least restraint violations 200 20 COSY R-COSY TOCSY 2Q NOESY 6.0 300 K DETAILS OF THE STRUCTURE DETERMINATION AND ALL STRUCTURAL STATISTICS ARE GIVEN IN THE PAPER CITED ON THE JRNL RECORDS ABOVE. THE STRUCTURES ARE BASED ON 649 INTERPROTON DISTANCE CONSTRAINTS AND 26 DIHEDRAL CONSTRAINTS. NO HYDROGEN BOND CONSTRAINTS WERE USED. BRUKER structure calculation X-PLOR 3.1 BRUKER refinement X-PLOR 3.1 500 GE OMEGA 500 Varian UNITY THR 1 n 1 THR 1 A ILE 2 n 2 ILE 2 A ASP 3 n 3 ASP 3 A GLN 4 n 4 GLN 4 A TRP 5 n 5 TRP 5 A LEU 6 n 6 LEU 6 A LEU 7 n 7 LEU 7 A LYS 8 n 8 LYS 8 A ASN 9 n 9 ASN 9 A ALA 10 n 10 ALA 10 A LYS 11 n 11 LYS 11 A GLU 12 n 12 GLU 12 A ASP 13 n 13 ASP 13 A ALA 14 n 14 ALA 14 A ILE 15 n 15 ILE 15 A ALA 16 n 16 ALA 16 A GLU 17 n 17 GLU 17 A LEU 18 n 18 LEU 18 A LYS 19 n 19 LYS 19 A LYS 20 n 20 LYS 20 A ALA 21 n 21 ALA 21 A GLY 22 n 22 GLY 22 A ILE 23 n 23 ILE 23 A THR 24 n 24 THR 24 A SER 25 n 25 SER 25 A ASP 26 n 26 ASP 26 A PHE 27 n 27 PHE 27 A TYR 28 n 28 TYR 28 A PHE 29 n 29 PHE 29 A ASN 30 n 30 ASN 30 A ALA 31 n 31 ALA 31 A ILE 32 n 32 ILE 32 A ASN 33 n 33 ASN 33 A LYS 34 n 34 LYS 34 A ALA 35 n 35 ALA 35 A LYS 36 n 36 LYS 36 A THR 37 n 37 THR 37 A VAL 38 n 38 VAL 38 A GLU 39 n 39 GLU 39 A GLU 40 n 40 GLU 40 A VAL 41 n 41 VAL 41 A ASN 42 n 42 ASN 42 A ALA 43 n 43 ALA 43 A LEU 44 n 44 LEU 44 A LYS 45 n 45 LYS 45 A ASN 46 n 46 ASN 46 A GLU 47 n 47 GLU 47 A ILE 48 n 48 ILE 48 A LEU 49 n 49 LEU 49 A LYS 50 n 50 LYS 50 A ALA 51 n 51 ALA 51 A HIS 52 n 52 HIS 52 A ALA 53 n 53 ALA 53 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 LEU 6 -30.47 -38.51 1 A LEU 7 69.94 -122.78 1 A ASN 9 -131.28 -49.20 1 A ILE 23 -54.03 107.89 1 A ALA 35 -47.13 155.93 1 A LYS 50 -109.63 -62.24 2 A TRP 5 -52.67 -105.45 2 A LEU 6 41.04 23.92 2 A LEU 7 72.90 -16.11 2 A LYS 8 -61.21 88.96 2 A ASN 9 -143.00 -65.12 2 A ALA 35 -40.39 162.64 2 A ALA 51 -82.67 46.45 2 A HIS 52 170.22 -81.83 3 A TRP 5 -115.48 -135.00 3 A LEU 6 -176.57 91.22 3 A LEU 7 49.77 -128.33 3 A LYS 8 64.19 62.05 3 A ASN 9 -144.97 -55.73 3 A LYS 11 -52.44 -91.81 3 A ALA 35 -44.54 168.99 3 A LYS 36 -106.27 -69.85 3 A VAL 41 -71.09 -73.40 3 A LYS 50 -100.06 -62.61 4 A TRP 5 -40.35 -96.64 4 A LEU 6 38.87 28.11 4 A LEU 7 40.57 74.06 4 A SER 25 -59.43 -168.51 4 A THR 37 -118.82 -163.56 5 A LEU 6 -27.70 -43.76 5 A LEU 7 75.90 -157.98 5 A LYS 8 76.57 -2.94 5 A LYS 11 -50.43 -75.99 5 A LYS 50 -112.31 -71.15 6 A LEU 6 38.99 29.70 6 A LEU 7 96.41 38.21 6 A ASN 9 -142.40 -48.71 6 A ALA 35 -55.20 -158.89 6 A THR 37 -118.79 -168.50 6 A VAL 41 -73.80 -70.04 7 A ILE 2 -147.40 33.68 7 A ASP 3 -90.09 37.64 7 A TRP 5 -104.32 -102.72 7 A LEU 6 -152.54 -19.06 7 A LEU 7 83.17 -135.87 7 A LYS 11 -51.31 -88.38 7 A ASP 13 -69.56 -72.31 7 A THR 24 -155.88 20.13 7 A ALA 35 -36.97 155.17 7 A LYS 36 -95.60 -66.63 7 A LYS 50 -105.84 -74.49 8 A ILE 2 -169.88 41.63 8 A TRP 5 59.75 128.75 8 A LEU 6 -164.75 14.31 8 A LEU 7 83.89 -145.46 8 A ASN 9 -131.18 -50.10 8 A LYS 11 -53.73 -92.26 8 A THR 24 -147.81 15.97 8 A SER 25 -54.72 174.03 8 A ALA 35 -41.54 159.04 8 A LYS 36 -92.04 -61.84 8 A ALA 51 -92.02 44.22 8 A HIS 52 -178.20 -27.86 9 A ILE 2 -114.17 60.34 9 A TRP 5 -129.09 -138.26 9 A LEU 6 93.46 -4.54 9 A LEU 7 40.05 -80.10 9 A LYS 8 -35.91 -28.43 9 A THR 24 -140.42 19.63 9 A ALA 35 -46.75 169.66 10 A ASP 3 -49.17 -18.52 10 A LEU 6 48.07 16.78 10 A ASN 9 -151.57 -82.26 10 A THR 24 -151.17 18.40 10 A SER 25 -62.69 -177.44 10 A ALA 35 -55.17 -164.52 11 A TRP 5 -53.45 -107.30 11 A LEU 6 158.94 19.11 11 A LEU 7 25.97 -134.77 11 A ALA 35 -47.65 -102.54 11 A LYS 36 -171.05 -68.71 11 A THR 37 -123.41 -167.72 12 A ILE 2 -170.10 33.30 12 A LEU 6 -38.68 -28.83 12 A LEU 7 62.38 113.74 12 A LYS 8 179.26 40.37 12 A LYS 11 -50.98 -78.15 12 A ILE 23 -52.01 94.20 12 A ALA 35 -39.61 -98.91 12 A LYS 36 -171.15 -69.28 12 A HIS 52 -165.53 -44.26 13 A ILE 2 -147.37 26.32 13 A GLN 4 -94.04 55.39 13 A LEU 6 38.34 25.42 13 A LEU 7 67.09 -10.09 13 A ASN 9 -161.93 -87.82 13 A LYS 11 -57.82 -71.46 13 A ALA 16 -77.15 29.26 13 A GLU 17 -151.66 -36.62 13 A ALA 35 -51.53 -175.47 13 A ALA 51 -84.71 43.15 13 A HIS 52 163.14 157.03 14 A GLN 4 -91.56 57.45 14 A TRP 5 -56.32 -87.61 14 A LEU 6 179.23 -44.94 14 A LEU 7 -139.09 -106.12 14 A ASN 9 -87.36 -75.08 14 A SER 25 -44.75 157.44 14 A ALA 35 -44.99 169.27 14 A THR 37 -126.73 -163.08 14 A HIS 52 173.47 155.21 15 A GLN 4 -99.88 53.40 15 A TRP 5 -114.49 -133.25 15 A LEU 6 101.11 -14.21 15 A LEU 7 74.88 -68.75 15 A SER 25 -44.22 161.20 15 A ALA 35 -40.12 155.96 15 A LYS 36 -86.39 -70.85 16 A ILE 2 39.90 34.40 16 A GLN 4 -100.46 76.61 16 A LEU 6 61.92 86.46 16 A LEU 7 -85.16 47.11 16 A ASN 9 -38.02 -91.36 16 A ALA 10 -69.80 0.20 16 A LYS 11 -44.63 -74.05 16 A ALA 35 -40.29 164.09 16 A LYS 36 -51.40 -78.93 16 A THR 37 -128.76 -154.09 16 A LYS 50 -80.40 -73.14 17 A TRP 5 -32.96 -88.17 17 A LEU 6 36.59 28.53 17 A LEU 7 61.71 99.01 17 A LYS 8 -151.58 58.57 17 A LYS 11 -62.52 -88.01 17 A ASP 13 -59.94 -73.61 17 A ALA 35 -38.45 154.82 17 A LYS 36 -87.74 -73.09 17 A HIS 52 -160.89 -164.97 18 A LEU 6 -38.88 -25.80 18 A LEU 7 85.66 -134.72 18 A LYS 8 53.23 17.59 18 A ALA 35 -43.14 154.54 18 A THR 37 -124.01 -167.00 18 A LYS 50 -90.53 -80.78 18 A HIS 52 64.95 165.70 19 A TRP 5 -46.58 -99.40 19 A LEU 6 43.36 27.53 19 A ASN 9 -59.60 -99.10 19 A ALA 35 -43.61 168.68 19 A LYS 36 -77.30 -78.73 20 A ILE 2 -103.64 48.91 20 A TRP 5 -64.11 -123.02 20 A LEU 6 39.08 36.84 20 A LEU 7 -38.42 115.94 20 A LYS 8 -168.07 -34.01 20 A ASN 9 -36.08 -93.48 20 A ALA 35 -55.09 -160.74 20 A LYS 36 -101.79 -62.87 model building X-PLOR refinement X-PLOR phasing X-PLOR STRUCTURE OF AN ALBUMIN-BINDING DOMAIN, NMR, 20 STRUCTURES 1 Y N A ALA 10 A ALA 10 HELX_P A LEU 18 A LEU 18 1 H1 9 A ASP 26 A ASP 26 HELX_P A LYS 34 A LYS 34 1 H2 9 A VAL 38 A VAL 38 HELX_P A ALA 51 A ALA 51 1 H3 14 ALBUMIN-BINDING PROTEIN ALBUMIN-BINDING PROTEIN, BACTERIAL SURFACE PROTEINS, EVOLUTION, MODULE SHUFFLING PAB_PEPMA UNP 1 1 Q51911 MKLNKKLLMAALAGAIVVGGGVNTFAADEPGAIKVDKAPEAPSQELKLTKEEAEKALKKEKPIAKERLRRLGITSEFILN QIDKATSREGLESLVQTIKQSYLKDHPIKEEKTEETPKYNNLFDKHELGGLGKDKGPGRFDENGWENNEHGYETRENAEK AAVKALGDKEINKSYTISQGVDGRYYYVLSREEAETPKKPEEKKPEDKRPKMTIDQWLLKNAKEDAIAELKKAGITSDFY FNAINKAKTVEEVNALKNEILKAHAGKEVNPSTPEVTPSVPQNHYHENDYANIGAGEGTKEDGKKENSKEGIKRKTAREE KPGKEEKPAKEDKKENKKKENTDSPNKKKKEKAALPEAGRRKAEILTLAAASLSSVAGAFISLKKRK 213 265 1GAB 1 53 Q51911 A 1 1 53 1 P 1