1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 Cho, H.S. Lee, S.Y. Yan, D. Pan, X. Parkinson, J.S. Kustu, S. Wemmer, D.E. Pelton, J.G. 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 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 J.Mol.Biol. JMOBAK 0070 0022-2836 297 543 551 10.1006/jmbi.2000.3595 10731410 NMR structure of activated CheY. 2000 US Proc.Natl.Acad.Sci.USA PNASA6 0040 0027-8424 96 14789 14794 10.1073/pnas.96.26.14789 Beryllofluoride Mimics Phosphorylation of NtrC and Other Bacterial Response Regulators 1999 10.2210/pdb1djm/pdb pdb_00001djm 1.000000 0.000000 0.000000 0.000000 1.000000 0.000000 0.000000 0.000000 1.000000 0.00000 0.00000 0.00000 14112.332 CHEMOTAXIS PROTEIN Y 1 man polymer no no MADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSA LPVLMVTAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM MADKELKFLVVDDFSTMRRIVRNLLKELGFNNVEEAEDGVDALNKLQAGGYGFVISDWNMPNMDGLELLKTIRADGAMSA LPVLMVTAEAKKENIIAAAQAGASGYVVKPFTAATLEEKLNKIFEKLGM 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 n n n n n n n n n 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 562 Escherichia coli 562 Escherichia coli PET21 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 2000-04-05 1 1 2008-04-27 1 2 2011-07-13 1 3 2022-02-16 _database_2.pdbx_DOI _database_2.pdbx_database_accession _pdbx_nmr_software.name RCSB Y RCSB 1999-12-03 REL REL THE STRUCTURE WAS DETERMINED USING TRIPLE-RESONANCE NMR SPECTROSCOPY. structures with the least restraint violations 60 27 4D_13C-SEPARATED_NOESY 4D_13C/15N-SEPARATED_NOESY 3D_15N-SEPARATED_NOESY 15N HMQC-J 13C CONSTANT-TIME HMQC-J 16 mM BECL2, 100 mM NAF, 20 mM MGCL2 6.7 AMBIENT 298 K 16 mM BECL2, 100 mM NAF, 20 mM MGCL2 6.7 AMBIENT 298 K 16 mM BECL2, 100 mM NAF, 20 mM MGCL2 6.7 AMBIENT 298 K THE STRUCTURES ARE BASED ON A TOTAL OF 972 NON-TRIVIAL NOE RESTRAINTS (213 INTRA RESIDUE, 271 SEQUENTIAL, 238 MEDIUM-RANGE, AND 250 LONG-RANGE). 78 PHI TORSION ANGLE RESTRAINTS AND 17 CHI1 RESTRAINTS WERE USED. 47 HYDROGEN BONDS ( 94 UPPER AND LOWER DISTANCE RESTRAINTS) WERE USED IN LATER STAGES OF REFINEMENT. torsion angle dynamics 1 fewest violations 4 MM CHEY U-15N, 13C, 16 MM BECL2, 100 MM NAF, 20 MM MGCL2, PH 6.7 3 MM U-15N, 16 MM BECL2, 100 MM NAF, 20 MM MGCL2, PH 6.7 3 MM U-10% 13C, 16 MM BECL2, 100 MM NAF, 20 MM MGCL2, PH 6.7 2 MM CHEY, 16 MM BECL2, 100 MM NAF, 20 MM MGCL2, PH 6.7 GUNTERT, MUMENTHALER, WUTHRICH structure solution DYANA 1.5 LUGINBUHL, GUNTERT, BILLETER, WUTHRICH refinement OPAL 2.2 DELAGLIO, BRZESIEK, VUISTER, ZHU, PFEIFER, BAX processing NMRPipe 1.7 BARTELS, XIA, BILLETER, GUNTERT, WUTHRICH processing XEASY 1.3.11 600 Bruker AMX MET 1 n 1 MET 1 A ALA 2 n 2 ALA 2 A ASP 3 n 3 ASP 3 A LYS 4 n 4 LYS 4 A GLU 5 n 5 GLU 5 A LEU 6 n 6 LEU 6 A LYS 7 n 7 LYS 7 A PHE 8 n 8 PHE 8 A LEU 9 n 9 LEU 9 A VAL 10 n 10 VAL 10 A VAL 11 n 11 VAL 11 A ASP 12 n 12 ASP 12 A ASP 13 n 13 ASP 13 A PHE 14 n 14 PHE 14 A SER 15 n 15 SER 15 A THR 16 n 16 THR 16 A MET 17 n 17 MET 17 A ARG 18 n 18 ARG 18 A ARG 19 n 19 ARG 19 A ILE 20 n 20 ILE 20 A VAL 21 n 21 VAL 21 A ARG 22 n 22 ARG 22 A ASN 23 n 23 ASN 23 A LEU 24 n 24 LEU 24 A LEU 25 n 25 LEU 25 A LYS 26 n 26 LYS 26 A GLU 27 n 27 GLU 27 A LEU 28 n 28 LEU 28 A GLY 29 n 29 GLY 29 A PHE 30 n 30 PHE 30 A ASN 31 n 31 ASN 31 A ASN 32 n 32 ASN 32 A VAL 33 n 33 VAL 33 A GLU 34 n 34 GLU 34 A GLU 35 n 35 GLU 35 A ALA 36 n 36 ALA 36 A GLU 37 n 37 GLU 37 A ASP 38 n 38 ASP 38 A GLY 39 n 39 GLY 39 A VAL 40 n 40 VAL 40 A ASP 41 n 41 ASP 41 A ALA 42 n 42 ALA 42 A LEU 43 n 43 LEU 43 A ASN 44 n 44 ASN 44 A LYS 45 n 45 LYS 45 A LEU 46 n 46 LEU 46 A GLN 47 n 47 GLN 47 A ALA 48 n 48 ALA 48 A GLY 49 n 49 GLY 49 A GLY 50 n 50 GLY 50 A TYR 51 n 51 TYR 51 A GLY 52 n 52 GLY 52 A PHE 53 n 53 PHE 53 A VAL 54 n 54 VAL 54 A ILE 55 n 55 ILE 55 A SER 56 n 56 SER 56 A ASP 57 n 57 ASP 57 A TRP 58 n 58 TRP 58 A ASN 59 n 59 ASN 59 A MET 60 n 60 MET 60 A PRO 61 n 61 PRO 61 A ASN 62 n 62 ASN 62 A MET 63 n 63 MET 63 A ASP 64 n 64 ASP 64 A GLY 65 n 65 GLY 65 A LEU 66 n 66 LEU 66 A GLU 67 n 67 GLU 67 A LEU 68 n 68 LEU 68 A LEU 69 n 69 LEU 69 A LYS 70 n 70 LYS 70 A THR 71 n 71 THR 71 A ILE 72 n 72 ILE 72 A ARG 73 n 73 ARG 73 A ALA 74 n 74 ALA 74 A ASP 75 n 75 ASP 75 A GLY 76 n 76 GLY 76 A ALA 77 n 77 ALA 77 A MET 78 n 78 MET 78 A SER 79 n 79 SER 79 A ALA 80 n 80 ALA 80 A LEU 81 n 81 LEU 81 A PRO 82 n 82 PRO 82 A VAL 83 n 83 VAL 83 A LEU 84 n 84 LEU 84 A MET 85 n 85 MET 85 A VAL 86 n 86 VAL 86 A THR 87 n 87 THR 87 A ALA 88 n 88 ALA 88 A GLU 89 n 89 GLU 89 A ALA 90 n 90 ALA 90 A LYS 91 n 91 LYS 91 A LYS 92 n 92 LYS 92 A GLU 93 n 93 GLU 93 A ASN 94 n 94 ASN 94 A ILE 95 n 95 ILE 95 A ILE 96 n 96 ILE 96 A ALA 97 n 97 ALA 97 A ALA 98 n 98 ALA 98 A ALA 99 n 99 ALA 99 A GLN 100 n 100 GLN 100 A ALA 101 n 101 ALA 101 A GLY 102 n 102 GLY 102 A ALA 103 n 103 ALA 103 A SER 104 n 104 SER 104 A GLY 105 n 105 GLY 105 A TYR 106 n 106 TYR 106 A VAL 107 n 107 VAL 107 A VAL 108 n 108 VAL 108 A LYS 109 n 109 LYS 109 A PRO 110 n 110 PRO 110 A PHE 111 n 111 PHE 111 A THR 112 n 112 THR 112 A ALA 113 n 113 ALA 113 A ALA 114 n 114 ALA 114 A THR 115 n 115 THR 115 A LEU 116 n 116 LEU 116 A GLU 117 n 117 GLU 117 A GLU 118 n 118 GLU 118 A LYS 119 n 119 LYS 119 A LEU 120 n 120 LEU 120 A ASN 121 n 121 ASN 121 A LYS 122 n 122 LYS 122 A ILE 123 n 123 ILE 123 A PHE 124 n 124 PHE 124 A GLU 125 n 125 GLU 125 A LYS 126 n 126 LYS 126 A LEU 127 n 127 LEU 127 A GLY 128 n 128 GLY 128 A MET 129 n 129 MET 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 N GLU 34 A N GLU 34 A O PHE 8 A O PHE 8 A N LEU 9 A N LEU 9 A O PHE 53 A O PHE 53 A O VAL 54 A O VAL 54 A N LEU 84 A N LEU 84 A N MET 85 A N MET 85 A O GLY 105 A O GLY 105 2 A A OD1 HG ASP SER 75 79 1.59 4 A A OD1 HG1 ASP THR 57 87 1.58 10 A A OD1 HG1 ASP THR 57 87 1.58 16 A A OD1 HG1 ASP THR 57 87 1.55 17 A A OD1 HG1 ASP THR 57 87 1.60 18 A A OD1 HG1 ASP THR 57 87 1.55 21 A A OD1 HG1 ASP THR 57 87 1.60 6 A A MET ALA 1 2 147.42 1 A ARG 22 0.076 SIDE CHAIN 3 A ARG 73 0.093 SIDE CHAIN 6 A ARG 19 0.144 SIDE CHAIN 7 A ARG 22 0.122 SIDE CHAIN 7 A TYR 51 0.081 SIDE CHAIN 8 A ARG 18 0.142 SIDE CHAIN 8 A ARG 19 0.143 SIDE CHAIN 8 A TYR 51 0.073 SIDE CHAIN 9 A TYR 51 0.088 SIDE CHAIN 10 A ARG 73 0.123 SIDE CHAIN 13 A ARG 22 0.109 SIDE CHAIN 15 A ARG 18 0.088 SIDE CHAIN 15 A ARG 19 0.094 SIDE CHAIN 16 A ARG 73 0.121 SIDE CHAIN 16 A TYR 106 0.069 SIDE CHAIN 18 A ARG 19 0.076 SIDE CHAIN 18 A ARG 73 0.092 SIDE CHAIN 19 A ARG 18 0.081 SIDE CHAIN 20 A ARG 19 0.093 SIDE CHAIN 21 A ARG 22 0.095 SIDE CHAIN 22 A ARG 18 0.115 SIDE CHAIN 22 A ARG 19 0.104 SIDE CHAIN 24 A ARG 73 0.078 SIDE CHAIN 25 A ARG 18 0.089 SIDE CHAIN 25 A ARG 73 0.124 SIDE CHAIN 4 9.36 1.40 123.60 132.96 A A A CD NE CZ ARG ARG ARG 18 18 18 N 4 4.32 0.50 120.30 124.62 A A A NE CZ NH1 ARG ARG ARG 18 18 18 N 18 -3.89 0.60 121.00 117.11 A A A CB CG CD2 TYR TYR TYR 51 51 51 N 22 -3.21 0.50 120.30 117.09 A A A NE CZ NH2 ARG ARG ARG 73 73 73 N 1 A LEU 6 -58.60 108.56 1 A ASN 32 65.15 82.34 1 A ASP 57 -73.46 -158.25 1 A TRP 58 -134.08 -30.27 1 A MET 60 -44.69 154.33 1 A ASN 62 -119.98 -99.57 1 A ARG 73 -68.79 4.16 1 A ASP 75 64.34 -176.35 1 A ALA 77 -125.41 -72.02 2 A GLU 5 37.92 47.48 2 A ASN 32 64.39 77.17 2 A ASP 57 -46.93 -176.13 2 A PRO 61 -61.12 26.67 2 A ASN 62 -161.33 -71.89 2 A ASP 64 -47.07 153.55 2 A ASP 75 89.54 30.49 2 A LYS 126 -68.49 -70.41 3 A LEU 6 -54.98 106.37 3 A PHE 30 35.92 64.76 3 A ASN 31 -68.41 1.48 3 A ASN 62 -139.88 -89.95 3 A ASP 75 63.40 175.08 3 A ALA 77 -148.10 -28.01 4 A LEU 6 -53.22 109.43 4 A SER 15 70.64 -47.27 4 A LEU 28 -146.67 28.53 4 A ASN 32 60.05 74.29 4 A ASP 75 68.59 163.15 4 A ALA 77 -165.85 82.02 4 A MET 78 103.81 17.31 4 A ALA 90 -81.34 -95.80 4 A LYS 91 59.15 112.16 5 A ALA 2 -77.93 -163.54 5 A ASP 57 -78.98 -157.60 5 A ASN 59 -84.63 43.74 5 A ASN 62 53.82 -78.13 5 A ASP 75 -175.16 -161.92 5 A ALA 77 69.74 -37.33 6 A SER 15 62.31 -60.18 6 A LEU 28 -156.79 47.37 6 A ASN 32 60.78 79.25 6 A ASN 62 -92.65 -99.36 7 A ASP 3 58.91 86.68 7 A LYS 4 -76.94 32.53 7 A LEU 6 -55.07 108.22 7 A VAL 11 -114.37 70.12 7 A PHE 30 64.86 60.23 7 A ASN 62 -83.54 -101.91 7 A ALA 74 -59.25 -79.40 7 A ASP 75 -168.79 8.40 8 A ALA 2 -154.73 36.65 8 A GLN 47 -66.25 3.06 8 A ALA 48 -70.53 -88.45 8 A ASN 59 29.21 -157.18 8 A MET 60 -169.81 65.15 8 A ASN 62 -155.61 -69.69 8 A ALA 90 -68.33 -73.56 8 A LYS 91 32.73 98.92 8 A LYS 126 -77.14 -71.70 9 A ALA 2 -119.62 -157.82 9 A LEU 6 -49.12 104.14 9 A VAL 11 -95.84 51.47 9 A ASN 32 98.57 96.54 9 A ASP 38 177.32 174.76 9 A TRP 58 -71.04 -78.13 9 A ASN 59 43.10 178.16 9 A PRO 61 -85.49 49.00 9 A ASN 62 72.88 -80.38 9 A ARG 73 -68.66 24.17 9 A ALA 74 -66.80 -72.42 9 A ASP 75 157.21 -11.05 9 A ALA 77 92.86 -12.31 9 A ALA 90 -57.96 -73.52 9 A LYS 91 43.78 91.03 9 A LYS 126 -76.10 -72.43 10 A LYS 4 -68.19 6.59 10 A PHE 14 -90.00 -63.85 10 A SER 15 127.28 -59.35 10 A ASN 62 -107.25 -96.24 10 A ARG 73 -68.58 7.91 10 A ASP 75 130.35 -79.23 10 A ALA 77 -140.89 -76.86 10 A MET 78 -142.60 15.03 11 A LEU 6 -41.53 108.82 11 A LEU 28 -147.03 19.05 11 A ASN 62 50.99 -89.71 11 A VAL 83 -47.58 107.82 11 A PHE 111 15.79 114.85 11 A LYS 126 -64.23 -72.81 12 A LYS 4 -56.25 -9.84 12 A ASN 62 63.77 -93.30 12 A ASP 64 -49.88 153.47 12 A ASP 75 61.53 -121.32 12 A VAL 83 -47.24 108.19 12 A ALA 90 -67.51 -88.25 12 A LYS 91 49.81 99.14 13 A ALA 2 -161.69 65.66 13 A VAL 11 -113.78 59.26 13 A LEU 28 -79.35 -75.45 13 A PHE 30 65.33 164.43 13 A ASN 31 -151.16 -3.05 13 A GLU 34 -152.92 -155.47 13 A GLN 47 -68.48 3.14 13 A ASN 59 -79.93 25.87 13 A PRO 61 -70.81 -167.80 13 A ASN 62 60.49 -146.71 13 A MET 63 -66.98 96.41 13 A ASP 64 -54.71 174.10 13 A ALA 74 -69.16 14.37 13 A ASP 75 132.83 -107.09 13 A PHE 111 -177.91 146.72 14 A GLU 5 39.15 53.54 14 A GLN 47 -66.25 4.60 14 A ASN 62 54.92 -84.46 14 A ALA 77 -131.07 -50.81 14 A LYS 126 -74.00 -74.10 15 A ALA 2 -148.38 -156.80 15 A LEU 6 -54.50 106.56 15 A SER 15 76.34 -68.10 15 A ASN 62 57.61 -104.26 15 A ALA 74 -68.75 -81.85 15 A ASP 75 -172.60 -163.63 15 A ALA 77 58.73 -18.15 15 A LYS 126 -90.57 -68.68 16 A GLU 5 -178.93 24.59 16 A PHE 30 62.22 -177.80 16 A ASN 31 170.29 -167.97 16 A GLN 47 -68.45 11.89 16 A ASN 62 -150.84 -91.83 16 A ARG 73 -69.60 8.03 16 A ASP 75 127.98 -74.52 16 A MET 78 95.00 30.98 16 A ALA 90 -89.61 -80.95 16 A LYS 91 52.55 100.97 17 A LEU 6 -29.08 104.88 17 A ASN 59 -68.61 29.38 17 A ASN 62 -124.56 -76.94 17 A ASP 75 -161.66 -103.55 17 A ALA 90 -66.53 -81.42 17 A LYS 91 45.94 95.04 17 A LYS 126 -78.23 -71.74 18 A ALA 2 -136.68 -142.77 18 A ASN 32 62.06 80.39 18 A ASN 59 -76.20 21.48 18 A ASN 62 55.78 -105.86 18 A ALA 74 -62.72 -75.00 18 A ASP 75 -167.22 -112.74 18 A ALA 77 61.58 -6.97 19 A ALA 2 -67.59 -70.86 19 A LEU 28 -160.84 13.82 19 A ASN 32 77.29 99.28 19 A GLN 47 -69.59 10.56 19 A ASN 62 -150.73 -80.52 19 A ASP 75 59.86 -176.97 19 A MET 78 72.45 -8.91 19 A LYS 91 -45.16 105.25 20 A ASP 3 -86.43 39.88 20 A LYS 4 -69.90 8.28 20 A GLN 47 -77.66 29.18 20 A ASN 62 51.24 -79.07 20 A ASP 64 -49.86 150.17 20 A ALA 90 -63.61 -73.58 20 A LYS 91 39.98 92.70 20 A LYS 92 -28.43 -57.75 21 A GLU 5 -117.99 56.71 21 A VAL 11 -109.04 78.80 21 A PHE 14 -83.41 -151.75 21 A SER 15 -139.78 -43.81 21 A PHE 30 59.20 174.48 21 A ASN 31 -170.89 -162.70 21 A GLN 47 -76.01 29.56 21 A ASN 59 -80.97 37.06 21 A ASN 62 53.56 -92.47 21 A ASP 75 170.98 -3.70 21 A ALA 77 75.30 -16.97 21 A ALA 90 -91.31 -81.85 21 A LYS 91 46.33 110.65 21 A LYS 126 -68.16 -73.27 22 A ASP 3 -54.24 109.96 22 A LYS 4 -76.90 36.98 22 A GLU 5 -140.47 33.29 22 A VAL 11 -112.14 53.84 22 A GLN 47 -76.09 35.93 22 A ASN 62 58.41 -98.54 23 A ASP 3 58.52 -172.85 23 A VAL 11 -112.07 57.20 23 A ASN 32 75.50 -64.22 23 A VAL 33 33.87 65.33 23 A GLN 47 -72.34 27.21 23 A ASP 57 -75.96 -167.73 23 A ASN 59 -67.10 86.58 23 A ASN 62 54.90 -94.61 23 A ASP 75 -173.33 -144.07 23 A ALA 77 53.21 8.75 23 A LYS 91 45.99 80.92 23 A LYS 126 -67.49 -74.51 24 A ASN 32 -78.52 49.20 24 A ASN 62 -139.14 -83.21 24 A ALA 74 -152.41 45.49 24 A ASP 75 -127.15 -152.37 24 A ALA 90 -65.38 -92.07 24 A LYS 91 51.15 101.41 25 A SER 15 68.46 -58.32 25 A ASN 32 59.72 75.91 25 A TRP 58 -96.18 -60.57 25 A ASN 62 44.80 -110.80 25 A ASP 64 -54.50 173.68 25 A ALA 77 -121.37 -50.21 25 A ALA 90 -70.29 -81.73 25 A LYS 91 54.11 100.81 25 A LYS 126 -69.27 -73.73 26 A ALA 2 60.86 164.75 26 A GLU 5 39.00 44.12 26 A VAL 11 -113.13 60.47 26 A ASN 32 58.46 81.63 26 A ASN 59 48.86 165.61 26 A ASN 62 -165.17 -75.66 26 A ALA 90 -76.18 23.16 26 A LYS 126 -70.65 -74.59 27 A LEU 6 -51.27 107.89 27 A LEU 28 -166.62 99.71 27 A TRP 58 -83.47 -76.46 27 A ASN 59 55.97 -170.42 27 A MET 60 -162.89 75.67 27 A PRO 61 -76.48 -71.28 27 A ASN 62 -131.96 -67.97 27 A ALA 77 -135.57 -40.80 27 A ALA 90 -57.76 -73.92 27 A LYS 91 39.25 93.37 SOLUTION STRUCTURE OF BEF3-ACTIVATED CHEY FROM ESCHERICHIA COLI 1 N N A PHE 14 A PHE 14 HELX_P A GLY 29 A GLY 29 1 1 16 A ASP 38 A ASP 38 HELX_P A GLN 47 A GLN 47 1 2 10 A ASP 64 A ASP 64 HELX_P A ARG 73 A ARG 73 1 3 10 A LYS 91 A LYS 91 HELX_P A GLY 102 A GLY 102 1 4 12 A THR 112 A THR 112 HELX_P A LYS 126 A LYS 126 1 5 15 SIGNALING PROTEIN BEFX, CHEY, RESPONSE REGULATOR, CHEMOTAXIS, TWO-COMPONENT, SIGNALING PROTEIN A LYS 109 A LYS 109 1 A PRO 110 A PRO 110 -16.26 A LYS 109 A LYS 109 2 A PRO 110 A PRO 110 -3.38 A LYS 109 A LYS 109 3 A PRO 110 A PRO 110 -10.45 A LYS 109 A LYS 109 4 A PRO 110 A PRO 110 -12.22 A LYS 109 A LYS 109 5 A PRO 110 A PRO 110 -8.74 A LYS 109 A LYS 109 6 A PRO 110 A PRO 110 -8.04 A LYS 109 A LYS 109 7 A PRO 110 A PRO 110 -12.36 A LYS 109 A LYS 109 8 A PRO 110 A PRO 110 -9.53 A LYS 109 A LYS 109 9 A PRO 110 A PRO 110 -12.97 A LYS 109 A LYS 109 10 A PRO 110 A PRO 110 -20.47 A LYS 109 A LYS 109 11 A PRO 110 A PRO 110 8.51 A LYS 109 A LYS 109 12 A PRO 110 A PRO 110 -7.55 A LYS 109 A LYS 109 13 A PRO 110 A PRO 110 -16.78 A LYS 109 A LYS 109 14 A PRO 110 A PRO 110 -14.35 A LYS 109 A LYS 109 15 A PRO 110 A PRO 110 -3.47 A LYS 109 A LYS 109 16 A PRO 110 A PRO 110 -1.41 A LYS 109 A LYS 109 17 A PRO 110 A PRO 110 -11.43 A LYS 109 A LYS 109 18 A PRO 110 A PRO 110 -15.63 A LYS 109 A LYS 109 19 A PRO 110 A PRO 110 -15.18 A LYS 109 A LYS 109 20 A PRO 110 A PRO 110 -10.44 A LYS 109 A LYS 109 21 A PRO 110 A PRO 110 -6.54 A LYS 109 A LYS 109 22 A PRO 110 A PRO 110 -21.06 A LYS 109 A LYS 109 23 A PRO 110 A PRO 110 -14.49 A LYS 109 A LYS 109 24 A PRO 110 A PRO 110 -16.35 A LYS 109 A LYS 109 25 A PRO 110 A PRO 110 -6.33 A LYS 109 A LYS 109 26 A PRO 110 A PRO 110 -6.52 A LYS 109 A LYS 109 27 A PRO 110 A PRO 110 -20.73 CHEY_ECOLI UNP 1 P06143 1 129 1DJM 1 129 P06143 A 1 1 129 5 parallel parallel parallel parallel A VAL 33 A VAL 33 A GLU 34 A GLU 34 A PHE 8 A PHE 8 A VAL 11 A VAL 11 A PHE 53 A PHE 53 A SER 56 A SER 56 A VAL 83 A VAL 83 A THR 87 A THR 87 A GLY 105 A GLY 105 A VAL 108 A VAL 108 1 P 1