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Atypical chemoreceptor arrays accommodate high membrane curvature

Alise R. Muok, Davi R. Ortega, Kurni Kurniyati, Wen Yang, Zachary A. Maschmann, Adam Sidi Mabrouk, Chunhao Li, Brian R. Crane, Ariane Briegel

2020Nature Communications29 citationsDOIOpen Access PDF

Abstract

The prokaryotic chemotaxis system is arguably the best-understood signaling pathway in biology. In all previously described species, chemoreceptors organize into a hexagonal (P6 symmetry) extended array. Here, we report an alternative symmetry (P2) of the chemotaxis apparatus that emerges from a strict linear organization of the histidine kinase CheA in Treponema denticola cells, which possesses arrays with the highest native curvature investigated thus far. Using cryo-ET, we reveal that Td chemoreceptor arrays assume an unusual arrangement of the supra-molecular protein assembly that has likely evolved to accommodate the high membrane curvature. The arrays have several atypical features, such as an extended dimerization domain of CheA and a variant CheW-CheR-like fusion protein that is critical for maintaining an ordered chemosensory apparatus. Furthermore, the previously characterized Td oxygen sensor ODP influences CheA ordering. These results suggest a greater diversity of the chemotaxis signaling system than previously thought.

Topics & Concepts

ChemotaxisChemoreceptorHistidine kinaseCurvatureMembrane curvatureBiologyBiophysicsMembraneCell biologyPhysicsChemistryHistidineReceptorBiochemistryEnzymeVesicleGeometryMathematicsBacterial Genetics and BiotechnologyRNA and protein synthesis mechanismsPhotosynthetic Processes and Mechanisms