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Query: EC:2.7.13.3 (
histidine kinase
)
2,405
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Escherichia coli cells express two forms of CheA, the
histidine kinase
associated with chemotaxis. The
long form
, CheA(L), plays a critical role in chemotactic signal transduction by phosphorylating two chemotaxis-associated response regulators, CheY and CheB. CheA(L) first autophosphorylates amino acid His-48 before its phosphoryl group is transferred to these response regulators. The
short form
, CheA(S), lacks the amino-terminal 97 amino acids of CheA(L) and therefore does not possess the site of phosphorylation. The centrally located transmitter domain of both forms of CheA contains four regions, called N, G1, F, and G2, highly conserved among histidine kinases of the family of two-component signal transduction systems. On the basis of sequence similarity to highly conserved regions of certain eukaryotic kinases, the G1 and G2 regions are purported to be involved in the binding and hydrolysis of ATP. We report here that alleles mutated in the G1, G2, or F region synthesize CheA variants that cannot autophosphorylate in vitro and which cannot support chemotaxis in vivo. We also show that in vitro, the nonphosphorylatable CheA(S) protein mediates transphosphorylation of a CheA(L) variant defective in both G1 and G2. In contrast, CheA(L) variants defective for either G1 or G2 mediate transphosphorylation of each other poorly, if at all. These results are consistent with a mechanism by which the G1 and G2 regions of one protomer of a CheA dimer form a unit that mediates transphosphorylation of the other protomer within that dimer.
...
PMID:Genetic analysis of the catalytic domain of the chemotaxis-associated histidine kinase CheA. 900 39
The cheA gene of Escherichia coli encodes two proteins from in-frame tandem translation start sites. The
long form
of CheA (CheA(L)) is the
histidine kinase
responsible for phosphorylating the response regulator, CheY. The
short form
of CheA (CheA(S)) is identical in domain structure to CheA(L) except that it is missing the first 97 amino acids. Reduced CheA(S) bound to and enhanced the activity of the phosphatase of phospho-CheY, CheZ. Oxidized CheA(S) was unable to interact with CheZ. Oxidized CheA(S) formed covalent dimers, whereas CheA(L) did not. This property was believed to be the result of an intermolecular disulfide bond. The CheA proteins contain three cysteine residues, one of which likely lies within the CheZ binding region of CheA(S) and is exposed to solvent. We identified the CheZ binding domain of CheA(S) by testing the various fragments of CheA(S) that contain cysteine residues for CheZ binding activity in an ELISA-based CheA(S)-CheZ binding assay. Fragments of CheA(S) lacking the truncated P1 domain of CheA(S) ('P1) were unable to bind CheZ. We also found that a fusion of the first 42 amino acids of CheA(S) ('P1 domain) to GST bound CheZ and enhanced its activity. The interaction between the GST-CheA[98-139] fusion protein and CheZ was dependent on the accessibility of a cysteine residue (Cys-120) located in the 'P1 domain.
...
PMID:The accessibility of cys-120 in CheA(S) is important for the binding of CheZ and enhancement of CheZ phosphatase activity. 1517 Mar 28
