1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Riepl, H. Scharf, B. Maurer, T. Schmitt, R. Kalbitzer, H.R. Structural Proteomics in Europe (SPINE) 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 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 C5 H11 N O2 117.146 y VALINE L-peptide linking US J.Biol.Chem. JBCHA3 0071 0021-9258 338 287 297 10.1016/j.jmb.2004.02.054 15066432 Solution Structures of the Inactive and BeF(3)-activated Response Regulator CheY2 2004 10.2210/pdb1p6u/pdb pdb_00001p6u 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 13725.188 CheY2 1 man polymer no no MSLAEKIKVLIVDDQVTSRLLLGDALQQLGFKQITAAGDGEQGMKIMAQNPHHLVISDFNMPKMDGLGLLQAVRANPATK KAAFIILTAQGDRALVQKAAALGANNVLAKPFTIEKMKAAIEAVFGALK MSLAEKIKVLIVDDQVTSRLLLGDALQQLGFKQITAAGDGEQGMKIMAQNPHHLVISDFNMPKMDGLGLLQAVRANPATK KAAFIILTAQGDRALVQKAAALGANNVLAKPFTIEKMKAAIEAVFGALK A 1 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 Sinorhizobium Escherichia sample 382 Sinorhizobium meliloti 562 Escherichia coli ER2566 Plasmid pTYB1 Structural Proteomics in Europe SPINE database_2 pdbx_nmr_software pdbx_struct_assembly pdbx_struct_oper_list repository Initial release Version format compliance Version format compliance Data collection Database references Derived calculations 1 0 2003-11-04 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 NMR STRUCTURE OF THE RESPONSE REGULATOR CHEY2 FROM SINORHIZOBIUM MELILOTI Y RCSB Y RCSB 2003-04-30 REL TOTAL NUMBER OF NOES USED FOR THE CALCULATION: 1595, NUMBER OF INTRA-RESIDUE NOES USED FOR THE CALCULATION: 815, NUMBER OF SEQUENTIAL NOES USED FOR THE CALCULATION: 406, NUMBER OF MEDIUM RANGE NOES USED FOR THE CALCULATION: 155, NUMBER OF LONG RANGE (I,J, J > I+4) NOES USED FOR THE CALCULATION: 219, NUMBER OF DIHEDRAL ANGLES RESTRAINTS USED FOR THE CALCULATION: 58, NUMBER OF HYDROGEN BOND RESTRAINTS USED FOR THE CALCULATION: 7, MINIMAL TARGET FUNCTION WAS 1.92, MEAN TARGET FUNCTION OF 16 STRUCTURES WAS 1.95 (+-0.2), THE NUMBER OF NOE VIOLATIONS > 0.02 NM WAS 5 (+-2), THE NUMBER OF NOE VIOLATIONS > 0.03 NM WAS 0, THE NUMBER OF DIHEDRAL ANGLES VIOLATIONS > 10 DEGREES WAS 0, RMSDS BACK BONE (6-124): 0.027 (+-0.007) NM, RMSDS ALL HEAVY ATOMS (6-124): 0.083 (+-0.013)NM target function 250 16 2D NOESY 3D_13C-separated_NOESY 3D_15N-separated_NOESY HNCA HNCO HN(CO)CA CBCA(CO)CA HBHA(CO)NH HCCH-TOCSY CC(CO)NH 6.83 ambient 298 K torsion angle dynamics 1 lowest energy 1mM CheY2, 1MM TRIS-HCL, 5MM MGCL2, 5MM BECL2, 50MM NAF 5mM MgCl2, 20mM Tris/HCl Bruker collection XwinNMR 2.5 Bruker data analysis AURELIA 2.7.9 Guentert structure solution DIANA 1.5 Guentert refinement DIANA 1.5 600 Bruker DRX 800 Bruker DRX MET 1 n 1 MET 1 A SER 2 n 2 SER 2 A LEU 3 n 3 LEU 3 A ALA 4 n 4 ALA 4 A GLU 5 n 5 GLU 5 A LYS 6 n 6 LYS 6 A ILE 7 n 7 ILE 7 A LYS 8 n 8 LYS 8 A VAL 9 n 9 VAL 9 A LEU 10 n 10 LEU 10 A ILE 11 n 11 ILE 11 A VAL 12 n 12 VAL 12 A ASP 13 n 13 ASP 13 A ASP 14 n 14 ASP 14 A GLN 15 n 15 GLN 15 A VAL 16 n 16 VAL 16 A THR 17 n 17 THR 17 A SER 18 n 18 SER 18 A ARG 19 n 19 ARG 19 A LEU 20 n 20 LEU 20 A LEU 21 n 21 LEU 21 A LEU 22 n 22 LEU 22 A GLY 23 n 23 GLY 23 A ASP 24 n 24 ASP 24 A ALA 25 n 25 ALA 25 A LEU 26 n 26 LEU 26 A GLN 27 n 27 GLN 27 A GLN 28 n 28 GLN 28 A LEU 29 n 29 LEU 29 A GLY 30 n 30 GLY 30 A PHE 31 n 31 PHE 31 A LYS 32 n 32 LYS 32 A GLN 33 n 33 GLN 33 A ILE 34 n 34 ILE 34 A THR 35 n 35 THR 35 A ALA 36 n 36 ALA 36 A ALA 37 n 37 ALA 37 A GLY 38 n 38 GLY 38 A ASP 39 n 39 ASP 39 A GLY 40 n 40 GLY 40 A GLU 41 n 41 GLU 41 A GLN 42 n 42 GLN 42 A GLY 43 n 43 GLY 43 A MET 44 n 44 MET 44 A LYS 45 n 45 LYS 45 A ILE 46 n 46 ILE 46 A MET 47 n 47 MET 47 A ALA 48 n 48 ALA 48 A GLN 49 n 49 GLN 49 A ASN 50 n 50 ASN 50 A PRO 51 n 51 PRO 51 A HIS 52 n 52 HIS 52 A HIS 53 n 53 HIS 53 A LEU 54 n 54 LEU 54 A VAL 55 n 55 VAL 55 A ILE 56 n 56 ILE 56 A SER 57 n 57 SER 57 A ASP 58 n 58 ASP 58 A PHE 59 n 59 PHE 59 A ASN 60 n 60 ASN 60 A MET 61 n 61 MET 61 A PRO 62 n 62 PRO 62 A LYS 63 n 63 LYS 63 A MET 64 n 64 MET 64 A ASP 65 n 65 ASP 65 A GLY 66 n 66 GLY 66 A LEU 67 n 67 LEU 67 A GLY 68 n 68 GLY 68 A LEU 69 n 69 LEU 69 A LEU 70 n 70 LEU 70 A GLN 71 n 71 GLN 71 A ALA 72 n 72 ALA 72 A VAL 73 n 73 VAL 73 A ARG 74 n 74 ARG 74 A ALA 75 n 75 ALA 75 A ASN 76 n 76 ASN 76 A PRO 77 n 77 PRO 77 A ALA 78 n 78 ALA 78 A THR 79 n 79 THR 79 A LYS 80 n 80 LYS 80 A LYS 81 n 81 LYS 81 A ALA 82 n 82 ALA 82 A ALA 83 n 83 ALA 83 A PHE 84 n 84 PHE 84 A ILE 85 n 85 ILE 85 A ILE 86 n 86 ILE 86 A LEU 87 n 87 LEU 87 A THR 88 n 88 THR 88 A ALA 89 n 89 ALA 89 A GLN 90 n 90 GLN 90 A GLY 91 n 91 GLY 91 A ASP 92 n 92 ASP 92 A ARG 93 n 93 ARG 93 A ALA 94 n 94 ALA 94 A LEU 95 n 95 LEU 95 A VAL 96 n 96 VAL 96 A GLN 97 n 97 GLN 97 A LYS 98 n 98 LYS 98 A ALA 99 n 99 ALA 99 A ALA 100 n 100 ALA 100 A ALA 101 n 101 ALA 101 A LEU 102 n 102 LEU 102 A GLY 103 n 103 GLY 103 A ALA 104 n 104 ALA 104 A ASN 105 n 105 ASN 105 A ASN 106 n 106 ASN 106 A VAL 107 n 107 VAL 107 A LEU 108 n 108 LEU 108 A ALA 109 n 109 ALA 109 A LYS 110 n 110 LYS 110 A PRO 111 n 111 PRO 111 A PHE 112 n 112 PHE 112 A THR 113 n 113 THR 113 A ILE 114 n 114 ILE 114 A GLU 115 n 115 GLU 115 A LYS 116 n 116 LYS 116 A MET 117 n 117 MET 117 A LYS 118 n 118 LYS 118 A ALA 119 n 119 ALA 119 A ALA 120 n 120 ALA 120 A ILE 121 n 121 ILE 121 A GLU 122 n 122 GLU 122 A ALA 123 n 123 ALA 123 A VAL 124 n 124 VAL 124 A PHE 125 n 125 PHE 125 A GLY 126 n 126 GLY 126 A ALA 127 n 127 ALA 127 A LEU 128 n 128 LEU 128 A LYS 129 n 129 LYS 129 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 THR 35 A O THR 35 A N ILE 11 A N ILE 11 A N LEU 10 A N LEU 10 A O ILE 56 A O ILE 56 A N SER 57 A N SER 57 A O ILE 85 A O ILE 85 A N PHE 84 A N PHE 84 A O LEU 108 A O LEU 108 1 A A O H LEU LEU 22 26 1.47 1 A A O H ASP LEU 65 69 1.47 1 A A O H GLY MET 40 44 1.50 1 A A O H LYS LEU 98 102 1.50 1 A A H OD2 ASP ASP 14 58 1.51 1 A A OD2 HD21 ASP ASN 58 60 1.59 1 A A O H LYS ALA 116 120 1.60 2 A A O H LEU LEU 22 26 1.47 2 A A O H ASP LEU 65 69 1.48 2 A A O H LYS LEU 98 102 1.50 2 A A O H GLY MET 40 44 1.52 2 A A H OD2 ASP ASP 14 58 1.54 2 A A O H LYS ALA 116 120 1.59 3 A A O H LEU LEU 22 26 1.46 3 A A O H ASP LEU 65 69 1.49 3 A A O H GLY MET 40 44 1.49 3 A A O H ALA ILE 4 7 1.50 3 A A O H LYS LEU 98 102 1.54 3 A A O H ARG GLY 19 23 1.58 3 A A O H THR ALA 79 82 1.60 4 A A O H ALA ILE 4 7 1.45 4 A A O H LEU LEU 22 26 1.46 4 A A O H ASP LEU 65 69 1.49 4 A A O H GLY MET 40 44 1.52 4 A A H OD2 ASP ASP 14 58 1.53 4 A A O H LYS LEU 98 102 1.54 4 A A O H LYS ALA 116 120 1.59 4 A A H O PHE LEU 59 87 1.59 5 A A H OD2 ASP ASP 14 58 1.43 5 A A O H LEU LEU 22 26 1.47 5 A A O H GLY MET 40 44 1.47 5 A A O H ASP LEU 65 69 1.49 5 A A O H ALA ILE 4 7 1.52 5 A A HD22 O ASN ALA 106 127 1.54 5 A A OD2 HD21 ASP ASN 58 60 1.56 5 A A O H LYS ALA 116 120 1.59 5 A A O H LYS LEU 98 102 1.60 6 A A O H LEU LEU 22 26 1.45 6 A A O H ASP LEU 65 69 1.49 6 A A O H GLY MET 40 44 1.51 6 A A O H LYS LEU 98 102 1.53 6 A A O HD21 ASN ASN 105 106 1.58 6 A A O H ARG GLY 19 23 1.58 6 A A O H LYS ALA 116 120 1.59 7 A A O H LEU LEU 22 26 1.42 7 A A O H ASP LEU 65 69 1.47 7 A A O H LYS LEU 98 102 1.48 7 A A O H GLY MET 40 44 1.49 7 A A H OD2 ASP ASP 14 58 1.51 7 A A OD2 HD21 ASP ASN 58 60 1.58 7 A A O H LYS ALA 116 120 1.60 8 A A O H LEU LEU 22 26 1.46 8 A A O H ALA ILE 4 7 1.48 8 A A O H ASP LEU 65 69 1.50 8 A A O H GLY MET 40 44 1.50 8 A A O H LYS LEU 98 102 1.53 8 A A H OD2 ASP ASP 14 58 1.55 8 A A H O PHE LEU 59 87 1.57 8 A A O H LYS ALA 116 120 1.59 8 A A O H ARG GLY 19 23 1.59 9 A A O H LEU LEU 22 26 1.45 9 A A O H ASP LEU 65 69 1.47 9 A A O H GLY MET 40 44 1.51 9 A A O H LYS LEU 98 102 1.51 9 A A OD2 HD21 ASP ASN 58 60 1.52 9 A A H OD2 ASP ASP 14 58 1.55 9 A A O HD21 ASN ASN 105 106 1.55 9 A A O H ARG GLY 19 23 1.58 9 A A H O PHE LEU 59 87 1.59 9 A A O H LYS ALA 116 120 1.59 10 A A O H LEU LEU 22 26 1.46 10 A A O H ASP LEU 65 69 1.47 10 A A O H GLY MET 40 44 1.49 10 A A O H LYS LEU 98 102 1.50 10 A A H OD2 ASP ASP 14 58 1.53 10 A A O H ARG GLY 19 23 1.57 10 A A H O PHE LEU 59 87 1.59 11 A A O H LEU LEU 22 26 1.45 11 A A O H GLY MET 40 44 1.48 11 A A O H ASP LEU 65 69 1.48 11 A A O H LYS LEU 98 102 1.51 11 A A H OD2 ASP ASP 14 58 1.52 11 A A O H ARG GLY 19 23 1.59 12 A A O H LEU LEU 22 26 1.47 12 A A O H GLY MET 40 44 1.51 12 A A O H ASP LEU 65 69 1.52 12 A A O H LYS LEU 98 102 1.53 12 A A O H ALA ILE 4 7 1.55 12 A A H OD2 ASP ASP 14 58 1.57 12 A A O H LYS ALA 116 120 1.59 12 A A H O PHE LEU 59 87 1.60 13 A A O H LEU LEU 22 26 1.45 13 A A H OD2 ASP ASP 14 58 1.46 13 A A O H ASP LEU 65 69 1.48 13 A A OD2 HD21 ASP ASN 58 60 1.49 13 A A O H GLY MET 40 44 1.50 13 A A O H ARG GLY 19 23 1.58 13 A A O H LYS LEU 98 102 1.59 14 A A O H LEU LEU 22 26 1.45 14 A A O H ASP LEU 65 69 1.47 14 A A O H GLY MET 40 44 1.48 14 A A O H LYS LEU 98 102 1.52 14 A A H OD2 ASP ASP 14 58 1.55 14 A A O H ARG GLY 19 23 1.58 14 A A O H LYS ALA 116 120 1.59 15 A A O H LEU LEU 22 26 1.46 15 A A O H GLY MET 40 44 1.47 15 A A O H ASP LEU 65 69 1.48 15 A A O H LYS LEU 98 102 1.50 15 A A H OD2 ASP ASP 14 58 1.52 15 A A O H THR ALA 79 82 1.56 15 A A O H ARG GLY 19 23 1.58 15 A A O H LYS ALA 116 120 1.60 16 A A O H LEU LEU 22 26 1.46 16 A A O H ASP LEU 65 69 1.48 16 A A O H GLY MET 40 44 1.49 16 A A O H LYS LEU 98 102 1.49 16 A A H OD2 ASP ASP 14 58 1.53 16 A A O H ARG GLY 19 23 1.59 16 A A O H LYS ALA 116 120 1.60 1 A ARG 19 -63.94 -71.27 1 A LEU 20 -39.16 -31.91 1 A ASP 39 178.72 168.36 1 A GLN 42 -37.54 -29.12 1 A HIS 53 -140.37 -40.34 1 A ASN 60 -43.71 174.47 1 A MET 61 -108.35 67.53 1 A PRO 62 -74.91 -159.33 1 A ARG 74 -37.66 -30.18 1 A GLN 90 -118.71 -86.78 1 A ASN 106 -165.72 115.36 1 A PRO 111 -75.03 -160.45 1 A LEU 128 -61.10 -71.11 2 A LYS 6 -81.94 -80.09 2 A ARG 19 -63.73 -71.13 2 A ASP 39 177.03 168.26 2 A GLN 42 -37.64 -28.97 2 A HIS 53 -132.81 -39.03 2 A ASN 60 -45.77 176.33 2 A MET 61 -108.07 68.13 2 A PRO 62 -75.01 -159.54 2 A ARG 74 -37.83 -30.32 2 A GLN 90 -115.71 -87.54 2 A ASN 106 -164.95 115.44 2 A PRO 111 -75.06 -160.86 2 A ALA 127 -74.79 -167.78 2 A LEU 128 -85.87 -78.98 3 A LYS 6 -36.43 -36.50 3 A ARG 19 -64.53 -71.21 3 A LEU 20 -39.29 -31.86 3 A ASP 39 178.32 168.06 3 A GLN 42 -38.10 -28.82 3 A HIS 53 -137.21 -38.30 3 A ASN 60 -42.21 172.94 3 A MET 61 -108.03 68.74 3 A PRO 62 -74.99 -159.38 3 A LEU 70 -58.24 -70.10 3 A ARG 74 -38.12 -30.15 3 A GLN 90 -123.21 -86.92 3 A ASN 106 -166.43 116.67 3 A PRO 111 -74.99 -160.10 3 A LEU 128 -63.57 -72.18 4 A LYS 6 -38.78 -36.89 4 A ARG 19 -63.75 -70.63 4 A ASP 39 179.22 168.18 4 A GLN 42 -38.09 -28.41 4 A HIS 53 -141.13 -40.41 4 A ASN 60 -46.03 176.55 4 A MET 61 -108.40 68.55 4 A PRO 62 -75.10 -158.58 4 A ARG 74 -38.01 -29.95 4 A GLN 90 -116.94 -85.22 4 A ASN 106 -165.34 115.44 4 A PRO 111 -74.97 -160.74 5 A ARG 19 -64.01 -71.18 5 A LEU 20 -39.75 -30.73 5 A ASP 39 178.58 168.45 5 A GLN 42 -38.15 -28.65 5 A HIS 53 -139.35 -42.23 5 A ASN 60 -41.38 172.77 5 A MET 61 -108.38 66.61 5 A PRO 62 -75.00 -159.15 5 A LEU 70 -57.95 -70.08 5 A ARG 74 -37.59 -30.41 5 A GLN 90 -120.63 -88.86 5 A ASN 106 -165.99 114.39 5 A PRO 111 -74.94 -160.54 6 A ARG 19 -64.53 -71.52 6 A LEU 20 -39.40 -31.61 6 A ASP 39 178.86 167.97 6 A GLN 42 -39.12 -27.84 6 A HIS 53 -134.55 -37.22 6 A ASN 60 -40.56 170.85 6 A MET 61 -109.28 68.26 6 A PRO 62 -74.99 -160.15 6 A ARG 74 -38.22 -30.12 6 A GLN 90 -120.88 -86.93 6 A ASN 106 -165.02 115.24 6 A PRO 111 -74.99 -161.83 6 A LEU 128 -56.64 -70.10 7 A LEU 3 -109.40 -167.89 7 A ARG 19 -64.75 -72.11 7 A LEU 20 -38.56 -31.25 7 A ASP 39 177.61 169.24 7 A GLN 42 -37.87 -29.14 7 A HIS 53 -137.01 -38.45 7 A ASN 60 -42.48 172.81 7 A MET 61 -108.58 67.56 7 A PRO 62 -74.98 -159.05 7 A ARG 74 -38.23 -30.25 7 A GLN 90 -122.99 -88.23 7 A ASN 106 -165.09 117.63 7 A PRO 111 -74.96 -160.40 8 A LYS 6 -35.92 -34.43 8 A ARG 19 -64.35 -71.33 8 A LEU 20 -39.66 -30.62 8 A ASP 39 178.16 168.27 8 A GLN 42 -37.72 -28.95 8 A HIS 53 -141.14 -50.19 8 A ASN 60 -45.61 176.14 8 A MET 61 -108.41 68.48 8 A PRO 62 -75.01 -160.56 8 A ARG 74 -38.28 -29.75 8 A GLN 90 -115.82 -85.54 8 A ASN 106 -165.47 115.15 8 A PRO 111 -74.99 -161.37 9 A ARG 19 -64.46 -71.36 9 A LEU 20 -39.55 -31.23 9 A ASP 39 177.77 168.65 9 A GLN 42 -37.64 -29.10 9 A HIS 53 -137.07 -51.10 9 A ASN 60 -45.08 176.40 9 A MET 61 -107.91 67.57 9 A PRO 62 -75.02 -159.57 9 A ARG 74 -37.76 -30.11 9 A GLN 90 -115.52 -86.67 9 A ASN 106 -165.40 116.06 9 A PRO 111 -75.01 -161.41 10 A ARG 19 -64.48 -71.22 10 A LEU 20 -39.07 -31.20 10 A ASP 39 179.65 168.90 10 A GLN 42 -37.92 -28.78 10 A HIS 53 -132.01 -32.33 10 A ASN 60 -44.72 175.82 10 A MET 61 -108.74 67.77 10 A PRO 62 -74.98 -159.33 10 A LEU 70 -56.34 -70.03 10 A ARG 74 -38.26 -30.06 10 A GLN 90 -115.39 -85.28 10 A ASN 106 -164.74 116.15 10 A PRO 111 -75.00 -160.33 10 A LEU 128 -64.16 -75.68 11 A GLU 5 -29.71 -61.43 11 A LYS 6 38.58 48.27 11 A ARG 19 -64.57 -71.77 11 A LEU 20 -38.90 -31.85 11 A ASP 39 177.46 168.39 11 A GLN 42 -37.89 -28.96 11 A HIS 53 -142.33 -38.77 11 A ASN 60 -41.65 172.52 11 A MET 61 -108.64 67.33 11 A PRO 62 -75.02 -159.26 11 A ARG 74 -38.29 -30.16 11 A GLN 90 -124.63 -87.83 11 A ASN 106 -166.20 116.27 11 A PRO 111 -74.93 -160.26 12 A LYS 6 -39.46 -38.48 12 A ARG 19 -63.66 -71.08 12 A LEU 20 -39.98 -30.83 12 A ASP 39 178.01 168.37 12 A GLN 42 -37.46 -29.08 12 A HIS 53 -140.81 -40.55 12 A ASN 60 -46.78 176.65 12 A MET 61 -108.83 69.38 12 A PRO 62 -75.13 -160.11 12 A ARG 74 -38.03 -30.25 12 A GLN 90 -114.14 -86.80 12 A ASN 106 -165.05 115.72 12 A PRO 111 -74.98 -160.22 13 A ARG 19 -64.37 -71.15 13 A LEU 20 -39.47 -31.29 13 A ASP 39 177.64 168.36 13 A GLN 42 -37.80 -28.90 13 A HIS 53 -134.79 -38.96 13 A ASN 60 -41.85 173.10 13 A MET 61 -108.43 67.46 13 A PRO 62 -75.03 -159.91 13 A ARG 74 -37.64 -30.29 13 A GLN 90 -124.09 -89.01 13 A ASN 106 -166.27 115.89 13 A PRO 111 -74.98 -160.77 13 A LEU 128 -59.69 -70.90 14 A GLU 5 -29.34 -45.77 14 A LYS 6 -70.76 -72.52 14 A ARG 19 -64.26 -71.79 14 A LEU 20 -38.60 -31.92 14 A ASP 39 177.74 168.28 14 A GLN 42 -38.21 -28.50 14 A HIS 53 -132.93 -38.53 14 A ASN 60 -41.61 171.99 14 A MET 61 -108.67 67.28 14 A PRO 62 -75.01 -159.28 14 A ARG 74 -37.56 -30.57 14 A GLN 90 -120.65 -86.13 14 A ASN 106 -165.50 116.02 14 A PRO 111 -75.03 -160.68 15 A ARG 19 -64.03 -71.56 15 A LEU 20 -38.98 -31.41 15 A ASP 39 177.99 168.40 15 A GLN 42 -37.97 -28.99 15 A HIS 53 -136.02 -39.20 15 A ASN 60 -40.88 171.65 15 A MET 61 -108.16 68.26 15 A PRO 62 -75.02 -159.07 15 A ARG 74 -37.74 -30.09 15 A GLN 90 -123.11 -89.02 15 A ASN 106 -166.37 115.49 15 A PRO 111 -74.99 -160.46 15 A LEU 128 -61.07 -71.42 16 A LYS 6 33.94 58.18 16 A ARG 19 -64.11 -71.17 16 A ASP 39 177.19 168.78 16 A GLN 42 -37.70 -29.11 16 A HIS 53 -138.00 -37.95 16 A ASN 60 -44.97 175.46 16 A MET 61 -108.79 67.92 16 A PRO 62 -75.09 -159.46 16 A ARG 74 -37.96 -29.87 16 A GLN 90 -117.33 -86.16 16 A ASN 106 -165.88 115.47 16 A PRO 111 -75.03 -159.82 NMR structure of the BeF3-activated structure of the response regulator Chey2-Mg2+ from Sinorhizobium meliloti 1 N N A LEU 3 A LEU 3 HELX_P A ILE 7 A ILE 7 5 1 5 A GLN 15 A GLN 15 HELX_P A GLY 30 A GLY 30 1 2 16 A ASP 39 A ASP 39 HELX_P A ASN 50 A ASN 50 1 3 12 A ASP 65 A ASP 65 HELX_P A ASN 76 A ASN 76 1 4 12 A ASN 76 A ASN 76 HELX_P A LYS 81 A LYS 81 1 5 6 A ASP 92 A ASP 92 HELX_P A ALA 104 A ALA 104 1 6 13 A THR 113 A THR 113 HELX_P A PHE 125 A PHE 125 1 7 13 SIGNALING PROTEIN CheY2 Beryllium fluoride, chemotaxis, response regulator, signal transduction, activation, Structural Proteomics in Europe, SPINE, Structural Genomics, SIGNALING PROTEIN Q52884_RHIME UNP 1 1 Q52884 MSLAEKIKVLIVDDQVTSRLLLGDALQQLGFKQITAAGDGEQGMKIMAQNPHHLVISDFNMPKMDGLGLLQAVRANPATK KAAFIILTAQGDRALVQKAAALGANNVLAKPFTIEKMKAAIEAVFGALK 1 129 1P6U 1 129 Q52884 A 1 1 129 5 parallel parallel parallel parallel A ILE 34 A ILE 34 A ALA 37 A ALA 37 A VAL 9 A VAL 9 A VAL 12 A VAL 12 A LEU 54 A LEU 54 A ASP 58 A ASP 58 A ALA 83 A ALA 83 A LEU 87 A LEU 87 A VAL 107 A VAL 107 A LEU 108 A LEU 108 1 P 1