Expression of CheA Fragments Which Define Domains Encoding Kinase, Phosphotransfer, and CheY Binding Activities
Overview
Authors
Affiliations
The histidine protein kinase CheA is a central component of the Escherichia coli chemotaxis system. The autophosphorylation activity of CheA is controlled by membrane-bound chemoreceptors and by the CheW coupling protein. CheA phosphorylates the CheY and CheB proteins which respectively control the direction of flagellar rotation and the level of receptor adaptation, thereby regulating the cells' chemotactic response. Genes encoding three polypeptide fragments of CheA were constructed and expressed in order to better define the functional organization of the wild-type protein. These fragments allowed the identification of regions of the protein responsible for CheY binding, phosphotransfer, and kinase activity. The kinase domain was expressed as a 30-kDa polypeptide corresponding to the central portion of the wild-type protein which contains sequences homologous to other histidine kinases. It was able to phosphorylate a 15-kDa amino-terminal phosphotransfer domain which was separately expressed and purified. This latter domain is capable of phosphotransfer to CheY despite the fact that it lacks the ability to stably bind CheY. CheY was immobilized to a dextran matrix through a single cysteine residue which was introduced into the protein at a position far removed from the active site. A stable binding site for CheY was mapped to a segment between the site of autophosphorylation and the kinase domain by using surface plasmon resonance to detect binding to the immobilized CheY. The region of the kinase which tightly binds the unphosphorylated substrate may play an important role in regulating the specificity of the signal transducing system.
Tethered particle motion of the adaptation enzyme CheR in bacterial chemotaxis.
Yue C, Zhang C, Zhang R, Yuan J iScience. 2023; 26(10):107950.
PMID: 37817931 PMC: 10561060. DOI: 10.1016/j.isci.2023.107950.
ATP Binding as a Key Target for Control of the Chemotaxis Kinase.
Jun S, Pan W, Hazelbauer G J Bacteriol. 2020; 202(13).
PMID: 32341073 PMC: 7283602. DOI: 10.1128/JB.00095-20.
Mello B, Pan W, Hazelbauer G, Tu Y PLoS Comput Biol. 2018; 14(7):e1006305.
PMID: 29965962 PMC: 6044545. DOI: 10.1371/journal.pcbi.1006305.
Chemotaxis arrays in species and their intracellular positioning by the ParC/ParP system.
Ringgaard S, Yang W, Alvarado A, Schirner K, Briegel A J Bacteriol. 2018; 200(15):e00793-17.
PMID: 29531180 PMC: 6040185. DOI: 10.1128/JB.00793-17.
Coupling chemosensory array formation and localization.
Alvarado A, Kjaer A, Yang W, Mann P, Briegel A, Waldor M Elife. 2017; 6.
PMID: 29058677 PMC: 5706961. DOI: 10.7554/eLife.31058.