P0AE67 (CHEY_ECOLI) Escherichia coli (strain K12)
Chemotaxis protein CheY UniProtKBInterProSTRINGInteractive Modelling
129 aa; Sequence (Fasta) ;
48 identical sequences
Available Structures
64 Experimental Structures
Description | PDB ID | Oligo-state | Range | Seq id (%) | Ligands | |
---|---|---|---|---|---|---|
Crystal structure of CheY D13K Y106W alone and in complex with a FliM peptide |
Heteromer P06974; | 98.41 | ||||
CHEY-BINDING (P2) DOMAIN OF CHEA IN COMPLEX WITH CHEY FROM ESCHERICHIA COLI |
Heteromer P07363; | 100 | ||||
CHEY-BINDING DOMAIN OF CHEA IN COMPLEX WITH CHEY AT 2.1 A RESOLUTION |
Heteromer P07363; | 100 | 1×MN; | |||
CRYSTAL STRUCTURE OF ACTIVATED CHEY BOUND TO THE N-TERMINUS OF FLIM |
Heteromer P06974; | 100 | 1×MG; 1×BEF; 1×GOL; | |||
Crystal Structure of Unphosphorylated CheY Bound to the N-Terminus of FliM |
Heteromer P06974; | 100 | 1×MG; | |||
CHEY-BINDING DOMAIN OF CHEA IN COMPLEX WITH CHEY FROM CRYSTALS SOAKED IN ACETYL PHOSPHATE |
Heteromer P07363; | 100 | 1×MN; | |||
COMPLEX STRUCTURE OF HPT DOMAIN AND CHEY |
Heteromer P0AEC3; | 100 | 1×SO4; | |||
CHEY-BINDING DOMAIN OF CHEA IN COMPLEX WITH CHEY WITH A BOUND IMIDO DIPHOSPHATE |
Heteromer P07363; | 100 | 1×MN; 1×PON; | |||
CRYSTAL STRUCTURE OF AN E.COLI CHEMOTAXIS PROTEIN, CHEZ |
Heteromer P0A9H9; | 100 | 2×MG; 2×BEF; 2×BCN; | |||
CHEY-BINDING DOMAIN OF CHEA IN COMPLEX WITH CHEY |
Heteromer P07363; | 100 | 1×MN; | |||
Solution structure of P1-CheY/P2 complex in bacterial chemotaxis |
Heteromer P07363; | 100 | ||||
CHEY MUTANT WITH LYS 91 REPLACED BY ASP, LYS 92 REPLACED BY ALA, ILE 96 REPLACED BY LYS AND ALA 98 … | homo-4-mer | 96.83 | ||||
UNCOUPLED PHOSPHORYLATION AND ACTIVATION IN BACTERIAL CHEMOTAXIS: THE 2.1 ANGSTROM STRUCTURE OF A T… | homo-2-mer | 99.22 | ||||
Structure of E. Coli CheY mutant A113P bound to Beryllium fluoride | homo-2-mer | 99.22 | 4×BEF; 6×MN; 7×GOL; 3×SO4; | |||
SIGNAL TRANSDUCTION PROTEIN CHEY MUTANT WITH MET 17 REPLACED BY GLY (M17G) | homo-2-mer | 99.2 | ||||
Structure of the CheY-Mn2+ Complex with substitutions at 59 and 89: N59D E89Q | monomer | 98.45 | 1×MN; | |||
Structure of the CheY-Mn2+ Complex with substitutions at 59 and 89: N59D and E89R | monomer | 98.45 | 1×MN; | |||
Structure of CheY-Mn2+ Complex with substitutions at 59 and 89: N59D E89Y | monomer | 98.45 | 1×MN; | |||
Crystal structure of the CheY in presence of magnesium | monomer | 100 | 1×MG; | |||
Structure of the CheY-BeF3 Complex with substitutions at 59 and 89: N59D and E89Q | monomer | 98.45 | 1×MN; 1×BEF; 2×SO4; 8×GOL; | |||
Structure of the CheYN59D/E89R Molybdate complex | monomer | 98.45 | 1×MN; 1×MOO; 4×SO4; 3×GOL; | |||
Structure of the CheYN59D/E89R Tungstate complex | monomer | 98.45 | 1×MN; 1×WO4; 3×SO4; 7×GOL; | |||
Structure of the CheY-BeF3 Complex with substitutions at 59 and 89: N59D and E89Y | monomer | 98.45 | 1×MN; 1×BEF; 2×SO4; 6×GOL; | |||
Structure of the CheY-BeF3 Complex with substitutions at 59 and 89: N59D and E89K | monomer | 98.45 | 1×MN; 1×BEF; 3×SO4; 6×GOL; 1×MG; | |||
SOLUTION STRUCTURE OF BEF3-ACTIVATED CHEY FROM ESCHERICHIA COLI | monomer | 100 | ||||
1.08 A Structure of apo-Chey reveals meta-active conformation | monomer | 99.22 | 3×SO4; 2×GOL; | |||
Structure of the CheY-Mn2+ Complex with substitutions at 59 and 89: N59D E89K | monomer | 98.44 | 1×MN; | |||
Structure of apo CheY A113P | monomer | 99.22 | 4×GOL; 1×MN; 1×NH4; 2×SO4; | |||
Structure of the CheY-BeF3 Complex with substitutions at 59 and 89: N59D and E89R | monomer | 98.44 | 1×BEF; 1×MN; 3×SO4; | |||
CRYSTAL STRUCTURE OF ESCHERICHIA COLI CHEY REFINED AT 1.7-ANGSTROM RESOLUTION | monomer | 100 | 3×SO4; | |||
Structural and functional effects of substitution at position T+1 in CheY: CheYA88V-BeF3-Mg complex | monomer | 99.22 | 1×MG; 4×BEF; 1×SO4; | |||
Structure of E. Coli CheY mutant A113P in the absence of Sulfate | monomer | 99.22 | 1×MG; | |||
1.75 A Structure of T87I Phosphono-CheY | monomer | 98.44 | ||||
1.85 A Structure of T87I/Y106W Phosphono-CheY | monomer | 97.66 | ||||
1.9 A STRUCTURE OF A-THIOPHOSPHONATE MODIFIED CHEY D57C | monomer | 99.22 | ||||
CRYSTAL STRUCTURE OF CHEY-95IV, A HYPERACTIVE CHEY MUTANT | monomer | 99.22 | 3×SO4; | |||
Reaction of phosphorylated CheY with imidazole 3 of 3 | monomer | 97.66 | 1×MN; 1×BEF; 3×IMD; 2×GOL; | |||
Reaction of phosphorylated CheY with imidazole 2 of 3 | monomer | 97.66 | 1×BEF; 1×MN; 3×IMD; 1×CL; 1×GOL; | |||
Two-component signal transduction system D12A mutant of CheY | monomer | 98.44 | ||||
2.00 A Structure of T87I/Y106W Phosphono-CheY | monomer | 97.66 | 1×ACT; | |||
Crystal Structure of CheY triple mutant F14E, N59M, E89L complexed with BeF3- and Mn2+ | monomer | 97.66 | 1×MN; 1×BEF; 2×GOL; 2×SO4; | |||
Crystal Structure of CheY triple mutant F14Q, N59K, E89Y complexed with BeF3- and Mn2+ | monomer | 97.66 | 1×MN; 1×BEF; 1×GOL; 1×SO4; | |||
STRUCTURE OF CHEMOTAXIS PROTEIN CHEY | monomer | 99.22 | 1×CA; | |||
Crystal Structure of CheY triple mutant F14E, N59M, E89R complexed with BeF3- and Mn2+ | monomer | 97.66 | 1×MN; 1×BEF; 1×GOL; | |||
Crystal Structure of CheY triple mutant F14E, N59R, E89H complexed with BeF3- and Mn2+ | monomer | 97.66 | 1×MN; 1×BEF; 2×SO4; 3×GOL; | |||
Structural and functional effects of substitution at position T+1 in CheY: CheYA88M-BeF3-Mn complex | monomer | 99.22 | 1×BEF; 3×MN; 3×GOL; | |||
Reaction of phosphorylated CheY with imidazole 1 of 3 | monomer | 97.66 | 1×MN; 1×BEF; 2×IMD; 3×GOL; 1×SO4; | |||
Structural and functional effects of substitution at position T+1 in CheY: CheYA88S-BeF3-Mn complex | monomer | 99.22 | 2×BEF; 2×MN; 4×GOL; | |||
Crystal Structure of CheY double mutant F14E, E89R complexed with BeF3- and Mn2+ | monomer | 98.44 | 1×MN; 1×BEF; 2×GOL; 1×SO4; | |||
STRUCTURE OF SIGNAL TRANSDUCTION PROTEIN CHEY | monomer | 99.22 | 1×SO4; | |||
Structural and functional effects of substitution at position T+1 in CheY: CheYA88T-BeF3-Mn complex | monomer | 99.22 | 1×BEF; 2×MN; 4×GOL; 2×CL; | |||
STRUCTURE OF CHEMOTAXIS PROTEIN CHEY | monomer | 98.44 | ||||
CRYSTAL STRUCTURE OF ACTIVATED CHEY | monomer | 100 | 1×MN; 1×BEF; | |||
Crystal Structure of Activated CheY Bound to Xe | monomer | 100 | 1×MN; 1×XE; | |||
A ROLE FOR CHEY GLU 89 IN CHEZ-MEDIATED DEPHOSPHORYLATION OF THE E. COLI CHEMOTAXIS RESPONSE REGULA… | monomer | 99.22 | 1×MN; 1×SO4; 1×BEF; | |||
THREE DIMENSIONAL STRUCTURE OF CHEMOTACTIC CHE Y PROTEIN IN AQUEOUS SOLUTION BY NUCLEAR MAGNETIC RE… | monomer | 99.22 | ||||
ASSIGNMENTS, SECONDARY STRUCTURE, GLOBAL FOLD, AND DYNAMICS OF CHEMOTAXIS Y PROTEIN USING THREE-AND… | monomer | 100 | ||||
TWO-COMPONENT SIGNAL TRANSDUCTION SYSTEM D57A MUTANT OF CHEY | monomer | 99.21 | ||||
Two-component signal transduction system D13A mutant of CheY | monomer | 99.21 | ||||
INVESTIGATING THE STRUCTURAL DETERMINANTS OF THE P21-LIKE TRIPHOSPHATE AND MG2+ BINDING SITE | monomer | 92.91 | ||||
MAGNESIUM BINDING TO THE BACTERIAL CHEMOTAXIS PROTEIN CHEY RESULTS IN LARGE CONFORMATIONAL CHANGES … | monomer | 100 | 1×MG; | |||
STRUCTURE OF CHEY MUTANT F14N, V86T | monomer | 98.4 | ||||
STRUCTURE OF CHEY MUTANT F14N, V21T | monomer | 98.4 | ||||
SIGNAL TRANSDUCTION PROTEIN CHEY MUTANT WITH PHE 14 REPLACED BY GLY, SER 15 REPLACED BY GLY, AND ME… | monomer | 97.58 | 1×MG; | |||
1 SWISS-MODEL model
Template | Oligo-state | QMEAN | Range | Ligands | Trg-Tpl Seq id (%) | |
---|---|---|---|---|---|---|
3oly.1.A | monomer | 0.87 | 1×MN; | 99.22 | ||