1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Schwarz-Linek, U. Werner, J.M. Pickford, A.R. Pilka, E.S. Gurusiddappa, S. Briggs, J.A.G. Hook, M. Campbell, I.D. Potts, J.R. 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 C9 H11 N O3 181.189 y TYROSINE L-peptide linking C5 H11 N O2 117.146 y VALINE L-peptide linking UK Nature NATUAS 0006 0028-0836 423 177 181 10.1038/nature01589 12736686 Pathogenic bacteria attach to human fibronectin through a tandem beta-zipper. 2003 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 10524.674 FIBRONECTIN N-TERMINAL F1 MODULE PAIR, RESIDUES 48-140 1 man polymer 4079.258 FIBRONECTIN BINDING PROTEIN B3 FIBRONECTIN-BINDING REPEAT, RESIDUES 1031-1066 1 syn polymer COLD-INSOLUBLE GLOBULIN, FN, CIG FNBB no no SKPGCYDNGKHYQINQQWERTYLGNALVCTCYGGSRGFNCESKPEAEETCFDKYTGNTYRVGDTYERPKDSMIWDCTCIG AGRGRISCTIANR SKPGCYDNGKHYQINQQWERTYLGNALVCTCYGGSRGFNCESKPEAEETCFDKYTGNTYRVGDTYERPKDSMIWDCTCIG AGRGRISCTIANR A polypeptide(L) no no EESLPTEQGQSGSTTEVEDSKPKLSIHFDNEWPKED EESLPTEQGQSGSTTEVEDSKPKLSIHFDNEWPKED B 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 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 sample 9606 HOMO SAPIENS 4922 PICHIA PASTORIS citation citation_author pdbx_nmr_spectrometer repository Initial release Database references Derived calculations Version format compliance Data collection Database references 1 0 2003-05-08 1 1 2015-04-15 1 2 2018-01-24 _citation.page_last _citation.pdbx_database_id_DOI _citation.title _citation_author.name _pdbx_nmr_spectrometer.manufacturer _pdbx_nmr_spectrometer.type SOLUTION STRUCTURE OF 6F11F22F2, A COMPACT THREE-MODULE FRAGMENT OF THE GELATIN-BINDING DOMAIN OF HUMAN FIBRONECTIN SOLUTION STRUCTURE OF 6F11F22F2, A COMPACT THREE-MODULE FRAGMENT OF THE GELATIN-BINDING DOMAIN OF HUMAN FIBRONECTIN FOURTH AND FIFTH FIBRONECTIN TYPE I MODULE PAIR FIBRONECTIN CELL-ADHESION MODULE TYPE III-10 FRAGMENT OF HUMAN FIBRONECTIN ENCOMPASSING TYPE-III REPEATS 7 THROUGH 10 CRYSTAL STRUCTURE OF HEPARIN AND INTEGRIN BINDING SEGMENT OF HUMAN FIBRONECTIN NMR STRUCTURE OF THE FIBRONECTIN EDA DOMAIN , NMR, 20STRUCTURES SOLUTION STRUCTURE OF THE N-TERMINAL F1 MODULE PAIR FROM HUMAN FIBRONECTIN SOLUTION STRUCTURE OF A PAIR OF MODULES FROM THE GELATIN-BINDING DOMAIN OF FIBRONECTIN FIBRONECTIN (TENTH TYPE III MODULE) (NMR, 36 STRUCTURES) FIBRONECTIN (TENTH TYPE III MODULE) (NMR, RESTRAINED MINIMIZED AVERAGE STRUCTURE) SOLUTION NMR STRUCTURE OF THE GLYCOSYLATED SECOND TYPE TWO MODULE OF FIBRONECTIN, 20 STRUCTURES SHEET DETERMINATION METHOD: AUTHOR PROVIDED. PDBE Y PDBE 2002-12-11 REL 1334 STREPTOCOCCUS DYSGALACTIAE sample FIBRONECTINS BIND CELL SURFACES AND VARIOUS COMPOUNDS INCLUDING COLLAGEN, FIBRIN, HEPARIN, DNA, AND ACTIN. THEY ARE ALSO INVOLVED IN CELL ADHESION, CELL MOTILITY, OPSONIZATION, WOUND HEALING, AND MAINTENANCE OF CELL SHAPE THE STRUCTURE WAS DETERMINED USING NMR SPECTROSCOPY ON UNLABELLED, 15N-, 2H,15N- AND 15N,13C-LABELLED 1F12F1 IN COMPLEX WITH UNLABELLED B3 LEAST RESTRAINT VIOLATION 100 15 NOESY TOCSY COSY 15N-NOESY-HSQC 15N-TOCSY-HSQC HNCO CCCONH 13C-NOESY-HSQC 5.0 pH 298 K FURTHER REFINEMENT DETAILS CAN BE FOUND IN THE JRNL CITATION ABOVE simulated annealing 1 BRUNGER refinement X-PLOR structure solution XPLOR 3.8 500 Home-built home built incorporating Oxford Instruments Magnet 600 Home-built home built incorporating Oxford Instruments Magnet 750 Home-built home built incorporating Oxford Instruments Magnet SER 17 n 1 SER 17 A LYS 18 n 2 LYS 18 A PRO 19 n 3 PRO 19 A GLY 20 n 4 GLY 20 A CYS 21 n 5 CYS 21 A TYR 22 n 6 TYR 22 A ASP 23 n 7 ASP 23 A ASN 24 n 8 ASN 24 A GLY 25 n 9 GLY 25 A LYS 26 n 10 LYS 26 A HIS 27 n 11 HIS 27 A TYR 28 n 12 TYR 28 A GLN 29 n 13 GLN 29 A ILE 30 n 14 ILE 30 A ASN 31 n 15 ASN 31 A GLN 32 n 16 GLN 32 A GLN 33 n 17 GLN 33 A TRP 34 n 18 TRP 34 A GLU 35 n 19 GLU 35 A ARG 36 n 20 ARG 36 A THR 37 n 21 THR 37 A TYR 38 n 22 TYR 38 A LEU 39 n 23 LEU 39 A GLY 40 n 24 GLY 40 A ASN 41 n 25 ASN 41 A ALA 42 n 26 ALA 42 A LEU 43 n 27 LEU 43 A VAL 44 n 28 VAL 44 A CYS 45 n 29 CYS 45 A THR 46 n 30 THR 46 A CYS 47 n 31 CYS 47 A TYR 48 n 32 TYR 48 A GLY 49 n 33 GLY 49 A GLY 50 n 34 GLY 50 A SER 51 n 35 SER 51 A ARG 52 n 36 ARG 52 A GLY 53 n 37 GLY 53 A PHE 54 n 38 PHE 54 A ASN 55 n 39 ASN 55 A CYS 56 n 40 CYS 56 A GLU 57 n 41 GLU 57 A SER 58 n 42 SER 58 A LYS 59 n 43 LYS 59 A PRO 60 n 44 PRO 60 A GLU 61 n 45 GLU 61 A ALA 62 n 46 ALA 62 A GLU 63 n 47 GLU 63 A GLU 64 n 48 GLU 64 A THR 65 n 49 THR 65 A CYS 66 n 50 CYS 66 A PHE 67 n 51 PHE 67 A ASP 68 n 52 ASP 68 A LYS 69 n 53 LYS 69 A TYR 70 n 54 TYR 70 A THR 71 n 55 THR 71 A GLY 72 n 56 GLY 72 A ASN 73 n 57 ASN 73 A THR 74 n 58 THR 74 A TYR 75 n 59 TYR 75 A ARG 76 n 60 ARG 76 A VAL 77 n 61 VAL 77 A GLY 78 n 62 GLY 78 A ASP 79 n 63 ASP 79 A THR 80 n 64 THR 80 A TYR 81 n 65 TYR 81 A GLU 82 n 66 GLU 82 A ARG 83 n 67 ARG 83 A PRO 84 n 68 PRO 84 A LYS 85 n 69 LYS 85 A ASP 86 n 70 ASP 86 A SER 87 n 71 SER 87 A MET 88 n 72 MET 88 A ILE 89 n 73 ILE 89 A TRP 90 n 74 TRP 90 A ASP 91 n 75 ASP 91 A CYS 92 n 76 CYS 92 A THR 93 n 77 THR 93 A CYS 94 n 78 CYS 94 A ILE 95 n 79 ILE 95 A GLY 96 n 80 GLY 96 A ALA 97 n 81 ALA 97 A GLY 98 n 82 GLY 98 A ARG 99 n 83 ARG 99 A GLY 100 n 84 GLY 100 A ARG 101 n 85 ARG 101 A ILE 102 n 86 ILE 102 A SER 103 n 87 SER 103 A CYS 104 n 88 CYS 104 A THR 105 n 89 THR 105 A ILE 106 n 90 ILE 106 A ALA 107 n 91 ALA 107 A ASN 108 n 92 ASN 108 A ARG 109 n 93 ARG 109 A n 1 1 B n 2 2 B n 3 3 B n 4 4 B n 5 5 B n 6 6 B n 7 7 B n 8 8 B n 9 9 B n 10 10 B n 11 11 B n 12 12 B SER 13 n 13 SER 13 B THR 14 n 14 THR 14 B THR 15 n 15 THR 15 B GLU 16 n 16 GLU 16 B VAL 17 n 17 VAL 17 B GLU 18 n 18 GLU 18 B ASP 19 n 19 ASP 19 B SER 20 n 20 SER 20 B LYS 21 n 21 LYS 21 B PRO 22 n 22 PRO 22 B LYS 23 n 23 LYS 23 B LEU 24 n 24 LEU 24 B SER 25 n 25 SER 25 B ILE 26 n 26 ILE 26 B HIS 27 n 27 HIS 27 B PHE 28 n 28 PHE 28 B ASP 29 n 29 ASP 29 B ASN 30 n 30 ASN 30 B GLU 31 n 31 GLU 31 B TRP 32 n 32 TRP 32 B PRO 33 n 33 PRO 33 B LYS 34 n 34 LYS 34 B GLU 35 n 35 GLU 35 B ASP 36 n 36 ASP 36 B software_defined_assembly PISA 2 dimeric 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 ASP 23 A N ASP 7 A O LYS 26 A O LYS 10 A N ARG 36 A N ARG 20 A O LEU 43 A O LEU 27 A N THR 46 A N THR 30 A O ASN 55 A O ASN 39 A N SER 58 A N SER 42 B O LEU 24 B O LEU 24 A N ASP 68 A N ASP 52 A O ASN 73 A O ASN 57 A N ARG 83 A N ARG 67 A O TRP 90 A O TRP 74 A N THR 93 A N THR 77 A O SER 103 A O SER 87 A N ILE 106 A N ILE 90 B O THR 14 B O THR 14 1 B GLU 1 B GLU 1 1 Y 1 B GLU 2 B GLU 2 1 Y 1 B SER 3 B SER 3 1 Y 1 B LEU 4 B LEU 4 1 Y 1 B PRO 5 B PRO 5 1 Y 1 B THR 6 B THR 6 1 Y 1 B GLU 7 B GLU 7 1 Y 1 B GLN 8 B GLN 8 1 Y 1 B GLY 9 B GLY 9 1 Y 1 B GLN 10 B GLN 10 1 Y 1 B SER 11 B SER 11 1 Y 1 B GLY 12 B GLY 12 1 Y 2 B GLU 1 B GLU 1 1 Y 2 B GLU 2 B GLU 2 1 Y 2 B SER 3 B SER 3 1 Y 2 B LEU 4 B LEU 4 1 Y 2 B PRO 5 B PRO 5 1 Y 2 B THR 6 B THR 6 1 Y 2 B GLU 7 B GLU 7 1 Y 2 B GLN 8 B GLN 8 1 Y 2 B GLY 9 B GLY 9 1 Y 2 B GLN 10 B GLN 10 1 Y 2 B SER 11 B SER 11 1 Y 2 B GLY 12 B GLY 12 1 Y 3 B GLU 1 B GLU 1 1 Y 3 B GLU 2 B GLU 2 1 Y 3 B SER 3 B SER 3 1 Y 3 B LEU 4 B LEU 4 1 Y 3 B PRO 5 B PRO 5 1 Y 3 B THR 6 B THR 6 1 Y 3 B GLU 7 B GLU 7 1 Y 3 B GLN 8 B GLN 8 1 Y 3 B GLY 9 B GLY 9 1 Y 3 B GLN 10 B GLN 10 1 Y 3 B SER 11 B SER 11 1 Y 3 B GLY 12 B GLY 12 1 Y 4 B GLU 1 B GLU 1 1 Y 4 B GLU 2 B GLU 2 1 Y 4 B SER 3 B SER 3 1 Y 4 B LEU 4 B LEU 4 1 Y 4 B PRO 5 B PRO 5 1 Y 4 B THR 6 B THR 6 1 Y 4 B GLU 7 B GLU 7 1 Y 4 B GLN 8 B GLN 8 1 Y 4 B GLY 9 B GLY 9 1 Y 4 B GLN 10 B GLN 10 1 Y 4 B SER 11 B SER 11 1 Y 4 B GLY 12 B GLY 12 1 Y 5 B GLU 1 B GLU 1 1 Y 5 B GLU 2 B GLU 2 1 Y 5 B SER 3 B SER 3 1 Y 5 B LEU 4 B LEU 4 1 Y 5 B PRO 5 B PRO 5 1 Y 5 B THR 6 B THR 6 1 Y 5 B GLU 7 B GLU 7 1 Y 5 B GLN 8 B GLN 8 1 Y 5 B GLY 9 B GLY 9 1 Y 5 B GLN 10 B GLN 10 1 Y 5 B SER 11 B SER 11 1 Y 5 B GLY 12 B GLY 12 1 Y 6 B GLU 1 B GLU 1 1 Y 6 B GLU 2 B GLU 2 1 Y 6 B SER 3 B SER 3 1 Y 6 B LEU 4 B LEU 4 1 Y 6 B PRO 5 B PRO 5 1 Y 6 B THR 6 B THR 6 1 Y 6 B GLU 7 B GLU 7 1 Y 6 B GLN 8 B GLN 8 1 Y 6 B GLY 9 B GLY 9 1 Y 6 B GLN 10 B GLN 10 1 Y 6 B SER 11 B SER 11 1 Y 6 B GLY 12 B GLY 12 1 Y 7 B GLU 1 B GLU 1 1 Y 7 B GLU 2 B GLU 2 1 Y 7 B SER 3 B SER 3 1 Y 7 B LEU 4 B LEU 4 1 Y 7 B PRO 5 B PRO 5 1 Y 7 B THR 6 B THR 6 1 Y 7 B GLU 7 B GLU 7 1 Y 7 B GLN 8 B GLN 8 1 Y 7 B GLY 9 B GLY 9 1 Y 7 B GLN 10 B GLN 10 1 Y 7 B SER 11 B SER 11 1 Y 7 B GLY 12 B GLY 12 1 Y 8 B GLU 1 B GLU 1 1 Y 8 B GLU 2 B GLU 2 1 Y 8 B SER 3 B SER 3 1 Y 8 B LEU 4 B LEU 4 1 Y 8 B PRO 5 B PRO 5 1 Y 8 B THR 6 B THR 6 1 Y 8 B GLU 7 B GLU 7 1 Y 8 B GLN 8 B GLN 8 1 Y 8 B GLY 9 B GLY 9 1 Y 8 B GLN 10 B GLN 10 1 Y 8 B SER 11 B SER 11 1 Y 8 B GLY 12 B GLY 12 1 Y 9 B GLU 1 B GLU 1 1 Y 9 B GLU 2 B GLU 2 1 Y 9 B SER 3 B SER 3 1 Y 9 B LEU 4 B LEU 4 1 Y 9 B PRO 5 B PRO 5 1 Y 9 B THR 6 B THR 6 1 Y 9 B GLU 7 B GLU 7 1 Y 9 B GLN 8 B GLN 8 1 Y 9 B GLY 9 B GLY 9 1 Y 9 B GLN 10 B GLN 10 1 Y 9 B SER 11 B SER 11 1 Y 9 B GLY 12 B GLY 12 1 Y 10 B GLU 1 B GLU 1 1 Y 10 B GLU 2 B GLU 2 1 Y 10 B SER 3 B SER 3 1 Y 10 B LEU 4 B LEU 4 1 Y 10 B PRO 5 B PRO 5 1 Y 10 B THR 6 B THR 6 1 Y 10 B GLU 7 B GLU 7 1 Y 10 B GLN 8 B GLN 8 1 Y 10 B GLY 9 B GLY 9 1 Y 10 B GLN 10 B GLN 10 1 Y 10 B SER 11 B SER 11 1 Y 10 B GLY 12 B GLY 12 1 Y 11 B GLU 1 B GLU 1 1 Y 11 B GLU 2 B GLU 2 1 Y 11 B SER 3 B SER 3 1 Y 11 B LEU 4 B LEU 4 1 Y 11 B PRO 5 B PRO 5 1 Y 11 B THR 6 B THR 6 1 Y 11 B GLU 7 B GLU 7 1 Y 11 B GLN 8 B GLN 8 1 Y 11 B GLY 9 B GLY 9 1 Y 11 B GLN 10 B GLN 10 1 Y 11 B SER 11 B SER 11 1 Y 11 B GLY 12 B GLY 12 1 Y 12 B GLU 1 B GLU 1 1 Y 12 B GLU 2 B GLU 2 1 Y 12 B SER 3 B SER 3 1 Y 12 B LEU 4 B LEU 4 1 Y 12 B PRO 5 B PRO 5 1 Y 12 B THR 6 B THR 6 1 Y 12 B GLU 7 B GLU 7 1 Y 12 B GLN 8 B GLN 8 1 Y 12 B GLY 9 B GLY 9 1 Y 12 B GLN 10 B GLN 10 1 Y 12 B SER 11 B SER 11 1 Y 12 B GLY 12 B GLY 12 1 Y 13 B GLU 1 B GLU 1 1 Y 13 B GLU 2 B GLU 2 1 Y 13 B SER 3 B SER 3 1 Y 13 B LEU 4 B LEU 4 1 Y 13 B PRO 5 B PRO 5 1 Y 13 B THR 6 B THR 6 1 Y 13 B GLU 7 B GLU 7 1 Y 13 B GLN 8 B GLN 8 1 Y 13 B GLY 9 B GLY 9 1 Y 13 B GLN 10 B GLN 10 1 Y 13 B SER 11 B SER 11 1 Y 13 B GLY 12 B GLY 12 1 Y 14 B GLU 1 B GLU 1 1 Y 14 B GLU 2 B GLU 2 1 Y 14 B SER 3 B SER 3 1 Y 14 B LEU 4 B LEU 4 1 Y 14 B PRO 5 B PRO 5 1 Y 14 B THR 6 B THR 6 1 Y 14 B GLU 7 B GLU 7 1 Y 14 B GLN 8 B GLN 8 1 Y 14 B GLY 9 B GLY 9 1 Y 14 B GLN 10 B GLN 10 1 Y 14 B SER 11 B SER 11 1 Y 14 B GLY 12 B GLY 12 1 Y 15 B GLU 1 B GLU 1 1 Y 15 B GLU 2 B GLU 2 1 Y 15 B SER 3 B SER 3 1 Y 15 B LEU 4 B LEU 4 1 Y 15 B PRO 5 B PRO 5 1 Y 15 B THR 6 B THR 6 1 Y 15 B GLU 7 B GLU 7 1 Y 15 B GLN 8 B GLN 8 1 Y 15 B GLY 9 B GLY 9 1 Y 15 B GLN 10 B GLN 10 1 Y 15 B SER 11 B SER 11 1 Y 15 B GLY 12 B GLY 12 1 Y 3 A B HA HB SER VAL 103 17 1.34 7 A B HA HB SER VAL 103 17 1.34 9 A B HA HB SER VAL 103 17 1.28 12 A B HE H ARG GLU 101 18 1.32 1 A PRO 19 -57.07 102.28 1 A ASN 24 -59.07 -1.81 1 A LEU 39 72.02 -36.95 1 A GLU 61 -75.35 -168.40 1 A GLU 63 -102.11 64.40 1 A LYS 85 -174.21 133.87 1 A SER 87 55.44 9.68 1 A MET 88 -124.34 -165.51 1 A ARG 99 -145.24 -83.15 1 A ALA 107 -167.15 68.44 1 B GLU 16 -141.27 -62.13 1 B VAL 17 62.03 109.71 1 B ASP 19 55.99 -163.28 1 B SER 20 -146.36 -72.81 1 B LYS 21 -150.26 70.29 1 B PRO 22 -58.53 93.08 1 B LYS 23 58.32 -174.91 1 B LEU 24 -174.15 120.48 1 B ILE 26 -104.84 -168.69 1 B HIS 27 -164.12 51.34 1 B GLU 35 56.69 84.18 2 A ASN 24 -45.68 86.04 2 A LEU 39 60.17 -4.91 2 A TYR 48 -105.14 -76.20 2 A PRO 60 -72.00 -169.13 2 A ALA 62 -175.44 -38.64 2 A GLU 64 51.91 -167.89 2 A THR 65 53.19 167.84 2 A THR 71 -143.20 -9.75 2 A VAL 77 -58.86 109.53 2 A ASP 86 74.66 -62.39 2 A SER 87 -172.83 4.42 2 A MET 88 -125.48 -163.11 2 A ARG 99 -160.48 49.91 2 A ALA 107 -169.12 69.43 2 B GLU 16 -155.31 63.28 2 B ASP 19 54.74 79.46 2 B PRO 22 -59.25 173.27 2 B SER 25 -162.23 112.75 2 B HIS 27 -110.04 51.36 2 B ASN 30 -143.63 -49.75 2 B TRP 32 57.41 96.08 2 B GLU 35 57.41 -165.50 3 A ASN 24 -46.41 86.29 3 A LEU 39 72.40 -33.71 3 A THR 46 -106.92 -164.46 3 A TYR 48 -131.22 -31.49 3 A GLU 61 -67.64 -174.05 3 A ALA 62 -133.59 -47.96 3 A GLU 63 -104.29 60.42 3 A LYS 85 -175.56 130.69 3 A ASP 86 74.61 -62.11 3 A SER 87 -172.58 -2.52 3 A MET 88 -119.36 -164.12 3 A ARG 99 -171.17 33.99 3 A ALA 107 -169.16 69.68 3 B GLU 16 -162.47 4.60 3 B ASP 19 66.78 -75.53 3 B SER 20 68.46 135.31 3 B LYS 23 56.70 -159.10 3 B LEU 24 -141.47 -62.52 3 B HIS 27 -117.34 53.24 3 B PRO 33 -55.75 -74.28 4 A ASN 24 -72.07 49.22 4 A ASN 31 58.37 12.37 4 A LEU 39 67.54 -16.03 4 A THR 46 -103.12 -168.47 4 A GLU 61 -74.96 -165.24 4 A LYS 85 -177.63 128.31 4 A ASP 86 73.45 -63.26 4 A SER 87 -172.55 -2.02 4 A ILE 95 -120.30 -160.68 4 A ARG 99 -167.64 -68.83 4 A ALA 107 -167.22 68.79 4 B GLU 16 -156.60 87.97 4 B ASP 19 59.37 -172.21 4 B SER 20 -105.42 -76.45 4 B SER 25 -170.31 133.90 4 B HIS 27 -119.94 59.06 4 B ASN 30 57.43 -167.21 4 B LYS 34 60.73 106.50 5 A ASN 24 -45.93 85.81 5 A ASN 31 72.58 -10.78 5 A LEU 39 74.50 -42.74 5 A CYS 47 78.98 127.66 5 A GLU 61 -68.51 -174.99 5 A GLU 63 -106.01 66.38 5 A LYS 85 177.70 144.98 5 A SER 87 67.50 -0.71 5 A MET 88 -117.75 -161.96 5 A ILE 95 -120.88 -158.76 5 A ARG 99 -152.06 3.27 5 A ALA 107 -168.68 68.02 5 B THR 14 -124.18 -158.40 5 B GLU 16 -162.35 65.63 5 B ASP 19 61.68 -84.30 5 B SER 20 66.58 127.03 5 B LYS 23 59.61 -174.51 5 B HIS 27 -170.08 52.82 5 B ASP 29 -142.10 -62.44 5 B ASN 30 54.47 -164.07 5 B GLU 35 57.71 -167.38 6 A ASN 24 -58.85 3.58 6 A LEU 39 60.59 -11.05 6 A GLU 61 -68.87 -179.47 6 A GLU 63 -115.20 71.33 6 A LYS 85 -170.48 130.58 6 A ASP 86 74.43 -62.66 6 A SER 87 -172.88 3.64 6 A MET 88 -122.50 -167.66 6 A ARG 99 72.89 57.61 6 A ALA 107 -164.07 68.15 6 B THR 14 -162.27 102.59 6 B GLU 16 -159.13 29.50 6 B PRO 22 -63.56 -169.72 6 B PHE 28 -66.87 98.49 6 B ASN 30 -148.04 34.65 6 B GLU 31 58.81 -173.67 6 B PRO 33 -69.50 98.41 7 A ASN 24 -68.40 32.74 7 A ASN 31 65.86 -0.65 7 A LEU 39 72.19 -35.18 7 A PRO 60 -50.47 104.06 7 A GLU 61 -65.40 -175.72 7 A ALA 62 -136.08 -37.78 7 A GLU 63 -104.57 66.26 7 A LYS 85 -179.25 141.75 7 A SER 87 63.97 -0.91 7 A MET 88 -118.41 -163.46 7 A ILE 95 -126.84 -158.54 7 A ARG 99 -148.11 24.34 7 A ALA 107 -166.07 68.98 7 B GLU 16 -158.62 88.44 7 B ASP 19 -80.23 43.19 7 B PRO 22 -79.56 -155.84 7 B LEU 24 -77.55 -80.30 7 B SER 25 65.73 122.33 7 B PHE 28 -54.89 103.19 7 B ASP 29 -122.80 -52.11 7 B ASN 30 57.68 -166.37 7 B TRP 32 58.85 95.88 7 B PRO 33 -55.58 107.66 8 A CYS 21 -52.29 100.60 8 A ASN 24 -63.44 9.33 8 A LEU 39 70.71 -27.53 8 A THR 46 -106.01 -162.56 8 A SER 58 -39.80 131.35 8 A GLU 61 -69.39 -173.45 8 A ALA 62 -168.86 -25.11 8 A GLU 63 -79.21 40.56 8 A GLU 64 49.04 -159.98 8 A THR 65 52.43 177.19 8 A VAL 77 -50.66 109.66 8 A LYS 85 -174.50 129.14 8 A SER 87 64.41 -0.98 8 A MET 88 -121.65 -160.53 8 A ALA 97 42.82 27.84 8 A ALA 107 -165.98 69.14 8 B GLU 16 -157.06 78.12 8 B LYS 23 -69.08 87.20 8 B SER 25 -164.01 113.75 8 B ILE 26 -107.31 -169.68 8 B HIS 27 -165.60 61.32 8 B ASP 29 -156.02 -73.54 8 B GLU 31 56.96 -164.64 8 B LYS 34 58.48 -169.08 9 A CYS 21 -31.31 134.62 9 A ASN 24 -60.91 4.55 9 A GLN 29 -44.62 162.90 9 A ASN 31 -153.90 34.78 9 A LEU 39 71.60 -35.76 9 A TYR 48 -134.22 -34.87 9 A SER 58 -38.38 131.32 9 A GLU 61 -88.21 -137.34 9 A ALA 62 -152.37 -28.45 9 A ASP 86 75.46 -62.31 9 A SER 87 -177.57 4.89 9 A CYS 92 -62.29 96.29 9 A ILE 95 -111.17 -154.95 9 A ARG 99 -173.23 71.04 9 A ALA 107 -167.71 68.94 9 B GLU 18 -92.60 -73.66 9 B ASP 19 -175.44 -171.44 9 B SER 20 -167.36 -42.79 9 B PRO 22 -78.67 46.28 9 B LYS 23 57.50 -166.40 9 B HIS 27 -118.53 61.81 9 B PHE 28 -54.81 109.21 9 B ASP 29 -166.05 98.22 9 B ASN 30 -129.36 -76.33 10 A ASN 24 -46.84 86.87 10 A ASN 31 71.24 -11.55 10 A LEU 39 72.87 -43.49 10 A CYS 47 70.55 127.13 10 A ALA 62 -165.10 -72.17 10 A GLU 64 -58.84 172.35 10 A ASP 86 76.02 -61.73 10 A SER 87 -177.51 7.44 10 A CYS 92 -57.37 103.57 10 A ILE 95 -111.82 -164.72 10 A ARG 99 -147.50 -32.03 10 A ARG 101 178.40 -170.43 10 A ALA 107 -164.05 67.81 10 B GLU 16 -164.73 9.75 10 B GLU 18 -58.45 -77.36 10 B SER 20 -160.30 79.87 10 B LEU 24 -165.80 106.17 11 A ASN 24 -46.20 83.88 11 A ASN 31 65.94 -2.89 11 A LEU 39 74.35 -53.00 11 A THR 46 -108.48 -154.40 11 A GLU 61 -71.63 -166.11 11 A ALA 62 -150.36 -27.02 11 A LYS 85 -170.55 133.42 11 A SER 87 56.14 10.13 11 A MET 88 -121.64 -165.63 11 A ASP 91 -93.44 59.88 11 A ILE 95 -101.57 -163.41 11 A ARG 99 -156.38 -22.71 11 A ARG 101 175.64 -165.24 11 A ALA 107 -163.12 66.95 11 B GLU 16 -159.27 47.47 11 B ASP 19 -177.59 -162.30 11 B SER 20 -169.05 56.94 11 B LYS 23 56.13 -167.20 11 B LEU 24 -168.72 108.91 11 B PRO 33 -58.83 95.81 12 A ASN 24 -46.96 88.39 12 A LEU 39 73.97 -45.46 12 A THR 46 -105.73 -153.64 12 A GLU 61 -55.86 -174.93 12 A ALA 62 -122.11 -65.73 12 A GLU 63 -118.35 72.27 12 A LYS 85 179.99 145.58 12 A SER 87 59.84 1.58 12 A MET 88 -116.07 -162.53 12 A ARG 99 -156.92 -47.26 12 A ARG 101 160.38 -150.48 12 A ALA 107 -170.04 69.74 12 B GLU 16 -148.21 56.98 12 B ASP 19 70.93 149.68 12 B SER 20 -105.93 66.55 12 B PRO 22 -66.21 -144.40 12 B HIS 27 -160.73 63.69 12 B PHE 28 -59.92 109.57 12 B TRP 32 64.55 154.02 12 B LYS 34 59.11 -170.56 13 A ASN 24 -46.67 91.55 13 A LEU 39 73.52 -43.62 13 A SER 58 -35.86 132.06 13 A GLU 61 -89.61 -138.38 13 A ALA 62 -145.50 -74.85 13 A LYS 85 -171.51 132.30 13 A ASP 86 74.01 -62.55 13 A SER 87 -172.29 0.62 13 A MET 88 -119.32 -166.22 13 A ILE 95 -124.44 -164.64 13 A ARG 99 -131.15 -78.93 13 A ALA 107 -164.04 67.16 13 B THR 14 -162.17 99.18 13 B GLU 16 -153.20 -59.77 13 B VAL 17 61.30 108.55 13 B ASP 19 56.70 93.63 13 B SER 20 -59.19 -83.80 13 B PRO 22 -65.45 -167.94 13 B HIS 27 -174.52 66.53 13 B ASN 30 -174.08 78.81 13 B TRP 32 -178.02 -57.69 13 B LYS 34 -105.14 -159.24 13 B GLU 35 63.50 179.96 14 A ASN 24 -45.18 89.41 14 A LEU 39 75.29 -49.95 14 A THR 46 -104.16 -167.51 14 A GLU 61 -75.87 -162.90 14 A GLU 63 -116.71 -114.03 14 A VAL 77 -47.84 -16.14 14 A LYS 85 -176.01 139.71 14 A SER 87 66.57 -1.31 14 A MET 88 -113.62 -162.22 14 A ILE 95 -108.85 -162.06 14 A ARG 99 -171.69 -43.39 14 A ALA 107 -168.50 69.29 14 B THR 14 -47.53 109.10 14 B GLU 16 -172.37 147.32 14 B GLU 18 -106.92 70.61 14 B ASP 19 -39.61 105.36 14 B LEU 24 -66.88 97.42 14 B ILE 26 -134.43 -57.45 14 B HIS 27 60.59 62.10 14 B ASN 30 -177.17 -145.21 14 B TRP 32 -176.45 -54.02 14 B LYS 34 -76.68 -165.29 15 A ASN 24 -62.55 11.41 15 A LEU 39 73.10 -40.61 15 A SER 58 -36.29 143.31 15 A GLU 61 -57.53 -154.49 15 A ALA 62 -154.32 -26.30 15 A VAL 77 -32.24 -29.58 15 A LYS 85 -171.18 130.15 15 A SER 87 65.95 -0.94 15 A MET 88 -114.36 -166.05 15 A ASP 91 -86.78 31.69 15 A CYS 92 -16.55 135.03 15 A ARG 99 -168.38 1.20 15 A ARG 101 170.42 -155.47 15 A ALA 107 -165.44 67.96 15 B GLU 16 -159.04 36.59 15 B ASP 19 -174.79 -170.11 15 B SER 20 -172.57 110.38 15 B PRO 22 -65.94 -143.91 15 B LYS 23 67.72 116.75 15 B LEU 24 -61.87 88.03 FIBRONECTIN, FIBRONECTIN BINDING PROTEIN Solution structure of the complex of 1F12F1 from fibronectin with B3 from FnBB from S. dysgalactiae 1 N N 2 N N disulf 2.032 A CYS 21 A SG CYS 5 1_555 A CYS 47 A SG CYS 31 1_555 disulf 2.029 A CYS 45 A SG CYS 29 1_555 A CYS 56 A SG CYS 40 1_555 disulf 2.030 A CYS 66 A SG CYS 50 1_555 A CYS 94 A SG CYS 78 1_555 disulf 2.030 A CYS 92 A SG CYS 76 1_555 A CYS 104 A SG CYS 88 1_555 CELL ADHESION CELL ADHESION-COMPLEX, HOST-PATHOGEN PROTEIN COMPLEX, CELL ADHESION, FIBRONECTIN FINC_HUMAN UNP 1 P02751 Q53971 UNP 2 Q53971 48 140 1O9A 17 109 P02751 A 1 1 93 1031 1066 1O9A 1 36 Q53971 B 2 1 36 2 4 2 4 anti-parallel anti-parallel anti-parallel anti-parallel anti-parallel anti-parallel anti-parallel anti-parallel A CYS 21 A CYS 5 A ASP 23 A ASP 7 A LYS 26 A LYS 10 A TYR 28 A TYR 12 A GLN 33 A GLN 17 A THR 37 A THR 21 A ALA 42 A ALA 26 A CYS 47 A CYS 31 A PHE 54 A PHE 38 A SER 58 A SER 42 B LEU 24 B LEU 24 B HIS 27 B HIS 27 A CYS 66 A CYS 50 A ASP 68 A ASP 52 A ASN 73 A ASN 57 A TYR 75 A TYR 59 A THR 80 A THR 64 A PRO 84 A PRO 68 A TRP 90 A TRP 74 A ILE 95 A ILE 79 A ILE 102 A ILE 86 A ILE 106 A ILE 90 B THR 14 B THR 14 B VAL 17 B VAL 17 1 P 1