| 1A0O | A:; C:; E:; G: | CHEY-BINDING DOMAIN OF CHEA IN COMPLEX WITH CHEY |
| 1AB5 | A:; B: | STRUCTURE OF CHEY MUTANT F14N, V21T |
| 1AB6 | A:; B: | STRUCTURE OF CHEY MUTANT F14N, V86T |
| 1BDJ | A: | COMPLEX STRUCTURE OF HPT DOMAIN AND CHEY |
| 1C4W | A: | 1.9 A STRUCTURE OF A-THIOPHOSPHONATE MODIFIED CHEY D57C |
| 1CHN | A: | MAGNESIUM BINDING TO THE BACTERIAL CHEMOTAXIS PROTEIN CHEY RESULTS IN LARGE CONFORMATIONAL CHANGES INVOLVING ITS FUNCTIONAL SURFACE |
| 1CYE | A: | THREE DIMENSIONAL STRUCTURE OF CHEMOTACTIC CHE Y PROTEIN IN AQUEOUS SOLUTION BY NUCLEAR MAGNETIC RESONANCE METHODS |
| 1D4Z | A: | CRYSTAL STRUCTURE OF CHEY-95IV, A HYPERACTIVE CHEY MUTANT |
| 1DJM | A: | SOLUTION STRUCTURE OF BEF3-ACTIVATED CHEY FROM ESCHERICHIA COLI |
| 1E6K | A: | TWO-COMPONENT SIGNAL TRANSDUCTION SYSTEM D12A MUTANT OF CHEY |
| 1E6L | A: | TWO-COMPONENT SIGNAL TRANSDUCTION SYSTEM D13A MUTANT OF CHEY |
| 1E6M | A: | TWO-COMPONENT SIGNAL TRANSDUCTION SYSTEM D57A MUTANT OF CHEY |
| 1EAY | A:; B: | CHEY-BINDING (P2) DOMAIN OF CHEA IN COMPLEX WITH CHEY FROM ESCHERICHIA COLI |
| 1EHC | A: | STRUCTURE OF SIGNAL TRANSDUCTION PROTEIN CHEY |
| 1F4V | A:; B:; C: | CRYSTAL STRUCTURE OF ACTIVATED CHEY BOUND TO THE N-TERMINUS OF FLIM |
| 1FFG | A:; C: | CHEY-BINDING DOMAIN OF CHEA IN COMPLEX WITH CHEY AT 2.1 A RESOLUTION |
| 1FFS | A:; C: | CHEY-BINDING DOMAIN OF CHEA IN COMPLEX WITH CHEY FROM CRYSTALS SOAKED IN ACETYL PHOSPHATE |
| 1FFW | A:; C: | CHEY-BINDING DOMAIN OF CHEA IN COMPLEX WITH CHEY WITH A BOUND IMIDO DIPHOSPHATE |
| 1FQW | A:; B: | CRYSTAL STRUCTURE OF ACTIVATED CHEY |
| 1HEY | A: | INVESTIGATING THE STRUCTURAL DETERMINANTS OF THE P21-LIKE TRIPHOSPHATE AND MG2+ BINDING SITE |
| 1JBE | A: | 1.08 A STRUCTURE OF APO-CHEY REVEALS META-ACTIVE CONFORMATION |
| 1KMI | Y: | CRYSTAL STRUCTURE OF AN E.COLI CHEMOTAXIS PROTEIN, CHEZ |
| 1MIH | A:; B: | A ROLE FOR CHEY GLU 89 IN CHEZ-MEDIATED DEPHOSPHORYLATION OF THE E. COLI CHEMOTAXIS RESPONSE REGULATOR CHEY |
| 1U8T | A:; B:; C:; D: | CRYSTAL STRUCTURE OF CHEY D13K Y106W ALONE AND IN COMPLEX WITH A FLIM PEPTIDE |
| 1UDR | A:; B:; C:; D: | CHEY MUTANT WITH LYS 91 REPLACED BY ASP, LYS 92 REPLACED BY ALA, ILE 96 REPLACED BY LYS AND ALA 98 REPLACED BY LEU (STABILIZING MUTATIONS IN HELIX 4) |
| 1VLZ | A:; B: | UNCOUPLED PHOSPHORYLATION AND ACTIVATION IN BACTERIAL CHEMOTAXIS: THE 2.1 ANGSTROM STRUCTURE OF A THREONINE TO ISOLEUCINE MUTANT AT POSITION 87 OF CHEY |
| 1YMU | A:; B: | SIGNAL TRANSDUCTION PROTEIN CHEY MUTANT WITH MET 17 REPLACED BY GLY (M17G) |
| 1YMV | A: | SIGNAL TRANSDUCTION PROTEIN CHEY MUTANT WITH PHE 14 REPLACED BY GLY, SER 15 REPLACED BY GLY, AND MET 17 REPLACED BY GLY |
| 1ZDM | A:2-129; B: | CRYSTAL STRUCTURE OF ACTIVATED CHEY BOUND TO XE |
| 2B1J | A:; B: | CRYSTAL STRUCTURE OF UNPHOSPHORYLATED CHEY BOUND TO THE N-TERMINUS OF FLIM |
| 2ID7 | A: | 1.75 A STRUCTURE OF T87I PHOSPHONO-CHEY |
| 2ID9 | A: | 1.85 A STRUCTURE OF T87I/Y106W PHOSPHONO-CHEY |
| 2IDM | A: | 2.00 A STRUCTURE OF T87I/Y106W PHOSPHONO-CHEY |
| 3CHY | A: | CRYSTAL STRUCTURE OF ESCHERICHIA COLI CHEY REFINED AT 1.7-ANGSTROM RESOLUTION |
| 3OLV | A:; B: | STRUCTURAL AND FUNCTIONAL EFFECTS OF SUBSTITUTION AT POSITION T+1 IN CHEY: CHEYA88V-BEF3-MG COMPLEX |
| 3OLW | A:; B: | STRUCTURAL AND FUNCTIONAL EFFECTS OF SUBSTITUTION AT POSITION T+1 IN CHEY: CHEYA88T-BEF3-MN COMPLEX |
| 3OLX | A:; B: | STRUCTURAL AND FUNCTIONAL EFFECTS OF SUBSTITUTION AT POSITION T+1 IN CHEY: CHEYA88S-BEF3-MN COMPLEX |
| 3OLY | A:; B: | STRUCTURAL AND FUNCTIONAL EFFECTS OF SUBSTITUTION AT POSITION T+1 IN CHEY: CHEYA88M-BEF3-MN COMPLEX |
| 3OO0 | A:; B: | STRUCTURE OF APO CHEY A113P |
| 3OO1 | A:; B: | STRUCTURE OF E. COLI CHEY MUTANT A113P IN THE ABSENCE OF SULFATE |
| 5CHY | A: | STRUCTURE OF CHEMOTAXIS PROTEIN CHEY |
| 6CHY | A:; B: | STRUCTURE OF CHEMOTAXIS PROTEIN CHEY |
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