1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Swapna, G.V.T. Huang, J.Y. Acton, T.B. Shastry, R. Chiang, Y.-W. Montelione, G.T. Northeast Structural Genomics Consortium (NESG) 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 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 To be Published 0353 Solution structure of Protein yrbA from Escherichia Coli: Northeast Structural Genomics Consortium target ER115 10.2210/pdb1ny8/pdb pdb_00001ny8 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 11119.541 Protein yrbA 1 man polymer no no MIEDPMENNEIQSVLMNALSLQEVHVSGDGSHFQVIAVGELFDGMSRVKKQQTVYGPLMEYIADNRIHAVSIKAYTPAEW ARDRKLNGFLEHHHHHH MIEDPMENNEIQSVLMNALSLQEVHVSGDGSHFQVIAVGELFDGMSRVKKQQTVYGPLMEYIADNRIHAVSIKAYTPAEW ARDRKLNGFLEHHHHHH A ER115 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 Escherichia Escherichia sample YRBA 562 Escherichia coli 562 Escherichia coli BL21MGK plasmid pET21 Northeast Structural Genomics Consortium NESG PSI, Protein Structure Initiative database_2 pdbx_nmr_software 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 2004-06-15 1 1 2008-04-29 1 2 2011-07-13 1 3 2022-02-23 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name _struct_ref_seq_dif.details Y RCSB Y RCSB 2003-02-11 REL REL The Structure was determined using Triple resonance NMR. Automated resonance assignments of backbone resonances using AUTOASSIGN. Manual sidechain assignments. Automated 3D 13C-NOESY and 15N-NOESY analysis for structure determination using AUTOSTRUCTURE target function 100 16 3D_13C-separated_NOESY 3D_15N-separated_NOESY 100 mM NaCl 5.5 1 atm 298 K The structures are based on a total of 1005 conformationally-restricting NOE-derived distance constraints. 74 dihedral angle restriants from Talos and 64 hydrogen-bond restraints. torsion angle dynamics 1 lowest target function 13C,15N-ER115 0.8mM in 20mM NH4OAc, 100mM NaCl, 5mM CaCl2, 10mM DTT, 0.02% azide 95% H2O/5% D2O Varian collection VNMR 6.1B Delaglio processing NMRPipe 2.1 Goddard data analysis Sparky 3.106 Zimmerman, Moseley, Montelione data analysis AutoAssign 1.9 Huang, Montelione data analysis AutoStructure 1.1.2 Tejero, Montelione structure solution HYPER 3.2 Guntert refinement DYANA 1.5 600 Varian INOVA MET 1 n 1 MET 1 A ILE 2 n 2 ILE 2 A GLU 3 n 3 GLU 3 A ASP 4 n 4 ASP 4 A PRO 5 n 5 PRO 5 A MET 6 n 6 MET 6 A GLU 7 n 7 GLU 7 A ASN 8 n 8 ASN 8 A ASN 9 n 9 ASN 9 A GLU 10 n 10 GLU 10 A ILE 11 n 11 ILE 11 A GLN 12 n 12 GLN 12 A SER 13 n 13 SER 13 A VAL 14 n 14 VAL 14 A LEU 15 n 15 LEU 15 A MET 16 n 16 MET 16 A ASN 17 n 17 ASN 17 A ALA 18 n 18 ALA 18 A LEU 19 n 19 LEU 19 A SER 20 n 20 SER 20 A LEU 21 n 21 LEU 21 A GLN 22 n 22 GLN 22 A GLU 23 n 23 GLU 23 A VAL 24 n 24 VAL 24 A HIS 25 n 25 HIS 25 A VAL 26 n 26 VAL 26 A SER 27 n 27 SER 27 A GLY 28 n 28 GLY 28 A ASP 29 n 29 ASP 29 A GLY 30 n 30 GLY 30 A SER 31 n 31 SER 31 A HIS 32 n 32 HIS 32 A PHE 33 n 33 PHE 33 A GLN 34 n 34 GLN 34 A VAL 35 n 35 VAL 35 A ILE 36 n 36 ILE 36 A ALA 37 n 37 ALA 37 A VAL 38 n 38 VAL 38 A GLY 39 n 39 GLY 39 A GLU 40 n 40 GLU 40 A LEU 41 n 41 LEU 41 A PHE 42 n 42 PHE 42 A ASP 43 n 43 ASP 43 A GLY 44 n 44 GLY 44 A MET 45 n 45 MET 45 A SER 46 n 46 SER 46 A ARG 47 n 47 ARG 47 A VAL 48 n 48 VAL 48 A LYS 49 n 49 LYS 49 A LYS 50 n 50 LYS 50 A GLN 51 n 51 GLN 51 A GLN 52 n 52 GLN 52 A THR 53 n 53 THR 53 A VAL 54 n 54 VAL 54 A TYR 55 n 55 TYR 55 A GLY 56 n 56 GLY 56 A PRO 57 n 57 PRO 57 A LEU 58 n 58 LEU 58 A MET 59 n 59 MET 59 A GLU 60 n 60 GLU 60 A TYR 61 n 61 TYR 61 A ILE 62 n 62 ILE 62 A ALA 63 n 63 ALA 63 A ASP 64 n 64 ASP 64 A ASN 65 n 65 ASN 65 A ARG 66 n 66 ARG 66 A ILE 67 n 67 ILE 67 A HIS 68 n 68 HIS 68 A ALA 69 n 69 ALA 69 A VAL 70 n 70 VAL 70 A SER 71 n 71 SER 71 A ILE 72 n 72 ILE 72 A LYS 73 n 73 LYS 73 A ALA 74 n 74 ALA 74 A TYR 75 n 75 TYR 75 A THR 76 n 76 THR 76 A PRO 77 n 77 PRO 77 A ALA 78 n 78 ALA 78 A GLU 79 n 79 GLU 79 A TRP 80 n 80 TRP 80 A ALA 81 n 81 ALA 81 A ARG 82 n 82 ARG 82 A ASP 83 n 83 ASP 83 A ARG 84 n 84 ARG 84 A LYS 85 n 85 LYS 85 A LEU 86 n 86 LEU 86 A ASN 87 n 87 ASN 87 A GLY 88 n 88 GLY 88 A PHE 89 n 89 PHE 89 A LEU 90 n 90 LEU 90 A GLU 91 n 91 GLU 91 A HIS 92 n 92 HIS 92 A HIS 93 n 93 HIS 93 A HIS 94 n 94 HIS 94 A HIS 95 n 95 HIS 95 A HIS 96 n 96 HIS 96 A HIS 97 n 97 HIS 97 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 HIS 25 A N HIS 25 A O ILE 36 A O ILE 36 A N VAL 35 A N VAL 35 A O SER 71 A O SER 71 1 A A O H ASN HIS 65 68 1.48 1 A A O H SER LYS 46 50 1.55 1 A A O H TRP ARG 80 84 1.60 2 A A O H SER LYS 46 50 1.50 2 A A O H ASN HIS 65 68 1.52 3 A A O H ASN HIS 65 68 1.51 4 A A O H SER LYS 46 50 1.50 4 A A O H ASN HIS 65 68 1.56 4 A A O H TRP ARG 80 84 1.59 5 A A O H ASN HIS 65 68 1.51 5 A A O H GLU ASP 40 43 1.56 6 A A O H ASN HIS 65 68 1.49 6 A A O H SER LYS 46 50 1.50 7 A A O H ASN HIS 65 68 1.54 8 A A O H ASN HIS 65 68 1.51 8 A A O H SER LYS 46 50 1.54 8 A A HE21 O GLN SER 34 71 1.59 9 A A O H SER LYS 46 50 1.44 9 A A O H ASN HIS 65 68 1.53 10 A A O H SER LYS 46 50 1.49 10 A A O H ASN HIS 65 68 1.49 10 A A O H ALA LYS 81 85 1.58 10 A A O H TRP ARG 80 84 1.60 11 A A O H ASN HIS 65 68 1.54 11 A A O H SER LYS 46 50 1.55 11 A A HE21 O GLN ILE 51 72 1.57 12 A A O H SER LYS 46 50 1.56 12 A A HE22 O GLN ILE 51 72 1.58 12 A A O H ASN HIS 65 68 1.59 13 A A O H ASN HIS 65 68 1.49 13 A A O H SER LYS 46 50 1.49 14 A A O H SER LYS 46 50 1.50 14 A A O H ASN HIS 65 68 1.51 15 A A O H ASN HIS 65 68 1.48 15 A A HE22 O GLN ILE 51 72 1.54 16 A A O H SER LYS 46 50 1.51 16 A A O H GLU ASN 7 9 1.52 16 A A O H ASN HIS 65 68 1.56 16 A A O H ALA LYS 81 85 1.57 1 A ILE 2 -171.65 122.48 1 A ASP 4 -179.79 108.69 1 A MET 6 173.43 95.89 1 A GLU 7 -60.33 -146.86 1 A ASN 8 81.23 -0.74 1 A LEU 19 -176.72 112.15 1 A SER 20 -75.43 -152.16 1 A LEU 21 172.74 -49.83 1 A GLN 22 173.67 -62.81 1 A ASP 29 -121.73 -59.50 1 A GLU 40 178.24 -32.40 1 A PHE 42 -84.85 38.37 1 A LYS 50 -70.08 -76.27 1 A GLN 52 -66.01 -75.04 1 A LEU 58 -86.80 39.15 1 A ARG 66 -32.17 -37.93 1 A ILE 67 -37.67 -32.83 1 A HIS 68 -122.23 -147.38 1 A TRP 80 -66.16 -75.99 1 A LEU 86 -73.27 -165.02 1 A GLU 91 -179.84 42.71 1 A HIS 93 69.32 77.97 1 A HIS 95 62.60 120.84 2 A ILE 2 76.32 87.53 2 A GLU 3 -164.49 115.10 2 A ASP 4 171.94 83.74 2 A MET 6 -164.31 -70.12 2 A GLU 7 166.54 45.58 2 A GLU 10 -39.40 -74.61 2 A LEU 19 -165.03 -125.68 2 A SER 20 176.61 -161.26 2 A LEU 21 176.10 -44.75 2 A GLN 22 154.93 -70.32 2 A ASP 29 -122.67 -65.32 2 A GLU 40 -159.11 19.08 2 A PHE 42 -87.74 38.93 2 A ARG 47 -37.18 -31.75 2 A LYS 50 -70.70 -76.09 2 A GLN 52 -64.87 -73.78 2 A LEU 58 -86.76 38.93 2 A ARG 66 -34.04 -35.41 2 A ILE 67 -39.45 -37.80 2 A HIS 68 -107.86 -146.33 2 A ALA 69 -150.66 78.23 2 A TRP 80 -60.33 -75.04 2 A LEU 86 -75.08 -164.92 2 A GLU 91 -178.52 -172.75 2 A HIS 92 -166.93 100.42 2 A HIS 94 63.62 -179.76 2 A HIS 95 68.09 80.40 3 A ILE 2 -162.44 -62.23 3 A GLU 3 65.92 130.31 3 A ASP 4 64.74 117.00 3 A MET 6 -162.09 -72.39 3 A GLU 7 -150.93 -74.62 3 A ASN 8 62.88 -73.71 3 A GLU 10 -61.36 -75.30 3 A LEU 19 -175.10 115.43 3 A SER 20 -87.91 -148.03 3 A LEU 21 178.78 -44.13 3 A GLN 22 170.98 -62.00 3 A GLU 40 -154.35 16.11 3 A ARG 47 -36.41 -34.77 3 A VAL 48 -76.73 -71.27 3 A LEU 58 -85.66 40.53 3 A ARG 66 -32.87 -35.52 3 A ILE 67 -38.60 -31.14 3 A HIS 68 -118.04 -146.78 3 A TRP 80 -66.41 -74.42 3 A LEU 86 -70.41 -160.56 3 A GLU 91 64.48 -76.28 3 A HIS 92 62.42 179.73 4 A GLU 3 165.21 158.18 4 A MET 6 168.62 93.62 4 A GLU 7 -51.47 -97.86 4 A GLU 10 -61.29 -73.48 4 A LEU 19 -172.24 108.39 4 A SER 20 -73.57 -149.24 4 A LEU 21 172.59 -46.41 4 A GLN 22 173.26 -62.60 4 A ASP 29 -148.07 -62.60 4 A SER 31 89.01 -29.18 4 A GLU 40 -172.14 -37.23 4 A PHE 42 -85.58 42.23 4 A ARG 47 -38.53 -32.49 4 A LYS 50 -66.87 -75.31 4 A GLN 52 -63.00 -75.15 4 A LEU 58 -84.60 39.83 4 A ARG 66 -32.34 -35.87 4 A HIS 68 -116.22 -145.01 4 A TRP 80 -64.05 -74.79 4 A LEU 86 -71.10 -163.82 4 A GLU 91 33.64 89.91 4 A HIS 93 -172.08 -43.04 4 A HIS 94 67.77 100.64 4 A HIS 95 -168.60 82.59 5 A ILE 2 -167.98 -43.45 5 A ASP 4 53.72 71.09 5 A MET 6 167.37 -31.45 5 A GLU 7 60.78 76.67 5 A LEU 19 171.82 121.47 5 A SER 20 -79.46 -152.60 5 A LEU 21 175.48 -36.23 5 A GLN 22 156.80 -63.30 5 A ASP 29 173.14 83.09 5 A SER 31 165.60 -28.89 5 A GLU 40 164.86 -22.57 5 A LEU 58 -86.34 39.93 5 A ARG 66 -31.69 -37.33 5 A ILE 67 -36.62 -34.71 5 A HIS 68 -119.78 -145.98 5 A LYS 73 -164.90 118.40 5 A TRP 80 -60.27 -76.07 5 A LEU 86 -76.39 -167.55 5 A GLU 91 178.08 45.84 5 A HIS 92 -58.94 -174.24 5 A HIS 93 -141.32 -65.98 5 A HIS 94 41.21 73.62 6 A ILE 2 -174.36 -48.29 6 A GLU 3 69.56 134.21 6 A ASP 4 165.41 153.71 6 A GLU 7 70.17 82.49 6 A LEU 19 -147.49 -119.86 6 A SER 20 158.42 -171.74 6 A LEU 21 -169.68 -42.55 6 A GLN 22 157.24 -72.02 6 A ASP 29 -124.63 -88.45 6 A SER 31 167.55 -62.91 6 A GLU 40 163.14 -23.44 6 A PHE 42 -88.62 42.25 6 A ARG 47 -36.45 -33.26 6 A VAL 48 -75.69 -72.24 6 A LEU 58 -86.79 38.06 6 A ARG 66 -31.34 -37.33 6 A ILE 67 -37.57 -32.13 6 A HIS 68 -124.42 -166.30 6 A LEU 86 -72.64 -162.96 6 A GLU 91 -173.39 -173.75 6 A HIS 92 177.77 71.51 6 A HIS 94 66.05 119.42 6 A HIS 96 -150.58 74.17 7 A ILE 2 -173.77 -148.22 7 A PRO 5 -75.00 -164.49 7 A MET 6 -136.19 -44.08 7 A GLU 7 -156.40 -143.58 7 A ASN 8 83.01 -3.71 7 A LEU 19 177.83 110.07 7 A SER 20 -75.15 -151.81 7 A LEU 21 175.63 -41.02 7 A GLN 22 158.60 -66.74 7 A ASP 29 178.80 152.66 7 A SER 31 157.24 -24.86 7 A GLU 40 178.12 -31.46 7 A PHE 42 -85.19 35.08 7 A ARG 47 -37.28 -33.47 7 A VAL 48 -75.26 -70.34 7 A LYS 50 -69.43 -75.94 7 A GLN 51 -38.54 -34.52 7 A GLN 52 -65.39 -72.95 7 A LEU 58 -84.23 40.19 7 A ARG 66 -35.99 -32.61 7 A HIS 68 -113.51 -147.37 7 A LEU 86 -86.76 -146.16 7 A GLU 91 83.35 -177.90 7 A HIS 92 73.12 -177.00 7 A HIS 95 -150.46 58.99 7 A HIS 96 41.94 86.17 8 A ASP 4 179.77 144.50 8 A MET 6 161.33 92.42 8 A GLU 7 -60.10 -146.15 8 A LEU 19 -154.38 -110.09 8 A SER 20 145.71 154.06 8 A LEU 21 -133.75 -44.30 8 A GLN 22 163.53 -72.37 8 A ASP 29 -118.80 -155.30 8 A SER 31 159.00 -75.10 8 A GLU 40 164.06 -23.44 8 A PHE 42 -90.56 39.27 8 A ARG 47 -38.37 -30.76 8 A LEU 58 -84.31 40.23 8 A ARG 66 -33.61 -35.05 8 A ILE 67 -39.13 -30.64 8 A HIS 68 -119.43 -146.46 8 A LEU 86 -71.85 -162.45 8 A GLU 91 170.91 -179.35 8 A HIS 94 -41.33 -70.41 8 A HIS 95 -145.96 -57.45 8 A HIS 96 41.95 78.44 9 A MET 6 166.57 104.34 9 A GLU 7 -61.20 -141.24 9 A ASN 8 84.05 -6.81 9 A LEU 19 -156.97 -108.63 9 A SER 20 162.32 -165.42 9 A LEU 21 178.60 -45.04 9 A GLN 22 155.65 -71.03 9 A ASP 29 -125.77 -65.12 9 A GLU 40 178.89 -32.42 9 A PHE 42 -83.52 45.45 9 A ASP 43 -100.99 72.41 9 A ARG 47 -38.27 -29.66 9 A LEU 58 -84.30 40.57 9 A ARG 66 -34.52 -33.39 9 A HIS 68 -112.19 -144.85 9 A TRP 80 -60.68 -75.98 9 A LEU 86 -71.32 -164.20 9 A GLU 91 87.65 -170.49 9 A HIS 92 -150.00 44.63 9 A HIS 93 76.53 -174.72 9 A HIS 94 59.25 168.95 9 A HIS 96 72.34 -64.62 10 A ILE 2 -176.38 -164.22 10 A GLU 3 -142.38 -149.97 10 A PRO 5 -75.01 -163.55 10 A MET 6 -138.03 -60.51 10 A GLU 7 179.51 37.15 10 A LEU 19 177.39 109.55 10 A SER 20 -84.75 -151.44 10 A LEU 21 174.52 -36.91 10 A GLN 22 156.80 -67.07 10 A ASP 29 -109.55 -61.90 10 A GLU 40 -173.57 -34.37 10 A PHE 42 -86.71 38.70 10 A ASP 43 -104.24 72.84 10 A ARG 47 -39.24 -29.57 10 A LEU 58 -87.75 39.03 10 A ARG 66 -31.57 -37.52 10 A ILE 67 -37.28 -33.07 10 A HIS 68 -125.86 -164.70 10 A TRP 80 -55.16 -72.08 10 A LEU 86 -75.27 -159.22 10 A GLU 91 -165.12 -158.68 10 A HIS 92 85.90 178.45 10 A HIS 94 166.80 -72.95 11 A ILE 2 -173.85 -162.95 11 A PRO 5 -75.02 -163.67 11 A MET 6 -142.91 -52.67 11 A GLU 7 -172.42 -169.33 11 A ASN 8 84.66 -1.25 11 A GLU 10 -62.83 -74.18 11 A LEU 19 -175.45 105.58 11 A SER 20 -68.75 -146.88 11 A LEU 21 173.98 -43.44 11 A GLN 22 172.32 -69.86 11 A ASP 29 -120.17 -91.47 11 A SER 31 158.11 -60.56 11 A GLU 40 -154.29 16.85 11 A PHE 42 -91.69 35.45 11 A ARG 47 -38.06 -35.02 11 A LYS 50 -72.77 -75.95 11 A LEU 58 -79.84 38.50 11 A ARG 66 -31.15 -38.37 11 A HIS 68 -113.51 -167.08 11 A TRP 80 -61.66 -74.85 11 A LEU 86 -76.22 -164.44 11 A GLU 91 -177.43 -175.73 11 A HIS 92 -153.44 87.79 11 A HIS 94 60.61 158.11 11 A HIS 95 -173.90 132.38 12 A PRO 5 -74.95 -162.64 12 A MET 6 170.05 -70.66 12 A GLU 7 -151.61 57.57 12 A LEU 19 -145.57 -121.67 12 A SER 20 160.09 -168.34 12 A LEU 21 175.96 -40.72 12 A GLN 22 157.59 -72.79 12 A HIS 25 -154.71 84.99 12 A ASP 29 160.88 149.85 12 A SER 31 153.13 -20.81 12 A GLU 40 156.94 -18.95 12 A PHE 42 -87.12 36.88 12 A ARG 47 -38.34 -30.09 12 A LEU 58 -85.44 39.94 12 A ARG 66 -34.32 -33.63 12 A ILE 67 -38.24 -39.79 12 A HIS 68 -102.07 -143.52 12 A TRP 80 -61.64 -72.67 12 A LEU 90 -140.18 13.60 12 A GLU 91 13.67 93.30 12 A HIS 96 -43.47 107.45 13 A ILE 2 -174.79 -179.34 13 A GLU 3 174.77 134.70 13 A ASP 4 173.13 108.52 13 A MET 6 171.46 84.31 13 A GLU 7 -83.83 -141.35 13 A LEU 19 -177.49 111.53 13 A SER 20 -72.82 -150.18 13 A LEU 21 175.00 -45.85 13 A GLN 22 170.43 -62.35 13 A VAL 26 -104.64 74.11 13 A ASP 29 -127.45 -62.62 13 A GLU 40 -178.74 -34.39 13 A PHE 42 -90.26 36.08 13 A ARG 47 -36.82 -32.76 13 A LYS 50 -62.83 -72.73 13 A LEU 58 -87.65 38.07 13 A ARG 66 -31.06 -37.87 13 A ILE 67 -36.96 -33.26 13 A HIS 68 -121.50 -146.33 13 A TRP 80 -63.67 -76.19 13 A LEU 86 -106.93 -167.53 13 A GLU 91 33.17 57.56 13 A HIS 92 -91.13 45.72 13 A HIS 95 66.13 155.68 14 A GLU 3 72.57 130.23 14 A MET 6 179.52 67.23 14 A GLU 7 -88.62 -151.34 14 A ASN 8 168.01 -34.30 14 A LEU 19 174.42 118.65 14 A SER 20 -84.96 -149.90 14 A LEU 21 176.88 -45.63 14 A GLN 22 170.73 -60.54 14 A ASP 29 -129.82 -59.70 14 A GLU 40 -178.02 -33.12 14 A PHE 42 -90.10 33.13 14 A MET 45 -48.96 150.29 14 A ARG 47 -37.94 -37.84 14 A LYS 50 -63.47 -73.56 14 A LEU 58 -87.62 39.32 14 A ARG 66 -33.33 -35.60 14 A ILE 67 -38.85 -30.96 14 A HIS 68 -118.64 -145.61 14 A LEU 86 -76.92 -160.90 14 A LEU 90 -140.80 14.24 14 A GLU 91 47.19 -175.90 14 A HIS 92 -175.54 -75.95 14 A HIS 93 177.41 95.09 14 A HIS 94 57.14 -167.84 14 A HIS 95 64.32 125.85 15 A ILE 2 -172.56 -63.82 15 A GLU 3 -156.81 -145.52 15 A ASP 4 -162.38 94.12 15 A MET 6 172.73 39.83 15 A GLU 7 59.09 -83.68 15 A ASN 8 42.72 27.45 15 A ASN 9 -87.95 -74.86 15 A ILE 11 -36.98 -33.21 15 A LEU 19 -172.24 119.64 15 A SER 20 -87.95 -151.56 15 A LEU 21 175.26 -47.44 15 A GLN 22 171.56 -67.39 15 A ASP 29 -127.08 -90.65 15 A SER 31 155.14 -57.92 15 A GLU 40 -176.64 -33.38 15 A PHE 42 -89.29 39.90 15 A VAL 48 -48.10 -73.38 15 A LYS 49 -38.10 -32.18 15 A LYS 50 -71.39 -75.40 15 A PRO 57 -74.99 -73.44 15 A LEU 58 -69.57 38.73 15 A ALA 63 -39.95 -37.22 15 A ASN 65 -39.58 -32.47 15 A HIS 68 -113.05 -144.45 15 A ALA 69 -153.68 70.35 15 A LEU 86 -76.65 -163.13 15 A GLU 91 177.39 55.81 15 A HIS 93 -164.22 115.48 15 A HIS 94 -174.23 -62.96 16 A ILE 2 67.75 150.65 16 A GLU 3 176.02 132.21 16 A MET 6 -179.60 47.47 16 A GLU 7 65.71 -71.92 16 A ASN 8 66.75 -58.93 16 A ASN 9 -36.14 -35.48 16 A LEU 19 177.18 121.55 16 A GLN 22 157.40 -69.32 16 A ASP 29 166.11 113.56 16 A SER 31 176.41 -38.16 16 A GLU 40 164.71 -24.39 16 A PHE 42 -87.46 40.71 16 A ARG 47 -34.43 -32.39 16 A VAL 48 -75.46 -75.08 16 A LEU 58 -84.51 39.26 16 A ARG 66 -33.80 -33.16 16 A ILE 67 -38.69 -32.88 16 A HIS 68 -114.54 -147.19 16 A TRP 80 -53.60 -72.98 16 A LEU 86 -75.18 -158.90 16 A LEU 90 -142.91 15.80 16 A GLU 91 50.57 176.62 16 A HIS 93 64.64 149.22 16 A HIS 94 -63.96 99.68 16 A HIS 96 -68.49 91.52 Solution structure of Protein yrbA from Escherichia Coli: Northeast Structural Genomics Consortium target ER115 1 N N A ASN 8 A ASN 8 HELX_P A SER 20 A SER 20 1 1 13 A SER 46 A SER 46 HELX_P A GLY 56 A GLY 56 1 2 11 A LEU 58 A LEU 58 HELX_P A ARG 66 A ARG 66 1 3 9 A THR 76 A THR 76 HELX_P A LEU 86 A LEU 86 1 4 11 Structural genomics, UNKNOWN FUNCTION ER115, YRBA, AUTOASSIGN, AUTOSTRUCTURE, NESG, Structural Genomics, PSI, Protein Structure Initiative, Northeast Structural Genomics Consortium, UNKNOWN FUNCTION YRBA_ECOLI UNP 1 1 P0A9W6 MIEDPMENNEIQSVLMNALSLQEVHVSGDGSHFQVIAVGELFDGMSRVKKQQTVYGPLMEYIADNRIHAVSIKAYTPAEW ARDRKLNGF 1 89 1NY8 1 89 P0A9W6 A 1 1 89 1 expression tag LEU 90 1NY8 A P0A9W6 UNP 90 1 expression tag GLU 91 1NY8 A P0A9W6 UNP 91 1 expression tag HIS 92 1NY8 A P0A9W6 UNP 92 1 expression tag HIS 93 1NY8 A P0A9W6 UNP 93 1 expression tag HIS 94 1NY8 A P0A9W6 UNP 94 1 expression tag HIS 95 1NY8 A P0A9W6 UNP 95 1 expression tag HIS 96 1NY8 A P0A9W6 UNP 96 1 expression tag HIS 97 1NY8 A P0A9W6 UNP 97 3 anti-parallel parallel A GLU 23 A GLU 23 A GLY 28 A GLY 28 A HIS 32 A HIS 32 A VAL 38 A VAL 38 A ALA 69 A ALA 69 A ALA 74 A ALA 74