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Engineered chemotaxis core signaling units indicate a constrained kinase-off state

Alise R. Muok, Teck Khiang Chua, Madhur Srivastava, Wen Yang, Zachary A. Maschmann, Petr P. Borbat, Jenna Chong, Sheng Zhang, Jack H. Freed, Ariane Briegel, Brian R. Crane

2020Science Signaling20 citationsDOIOpen Access PDF

Abstract

Bacterial chemoreceptors, the histidine kinase CheA, and the coupling protein CheW form transmembrane molecular arrays with remarkable sensing properties. The receptors inhibit or stimulate CheA kinase activity depending on the presence of attractants or repellants, respectively. We engineered chemoreceptor cytoplasmic regions to assume a trimer of receptor dimers configuration that formed well-defined complexes with CheA and CheW and promoted a CheA kinase-off state. These mimics of core signaling units were assembled to homogeneity and investigated by site-directed spin-labeling with pulse-dipolar electron-spin resonance spectroscopy (PDS), small-angle x-ray scattering, targeted protein cross-linking, and cryo-electron microscopy. The kinase-off state was especially stable, had relatively low domain mobility, and associated the histidine substrate and docking domains with the kinase core, thus preventing catalytic activity. Together, these data provide an experimentally restrained model for the inhibited state of the core signaling unit and suggest that chemoreceptors indirectly sequester the kinase and substrate domains to limit histidine autophosphorylation.

Topics & Concepts

Histidine kinaseAutophosphorylationBiophysicsChemotaxisProtein kinase domainKinaseCell biologyProtein kinase ABiochemistryChemistryBiologyHistidineReceptorEnzymeGeneMutantElectron Spin Resonance StudiesSpectroscopy and Quantum Chemical StudiesPhotosynthetic Processes and Mechanisms
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