Universal architecture of bacterial chemoreceptor arrays |
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| Authors: | Ariane Briegel Davi R. Ortega Elitza I. Tocheva Kristin Wuichet Zhuo Li Songye Chen Axel Müller Cristina V. Iancu Gavin E. Murphy Megan J. Dobro Igor B. Zhulin Grant J. Jensen |
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| Affiliation: | Divisions of aBiology and ;eChemistry and ;bHoward Hughes Medical Institute, California Institute of Technology, Pasadena, CA 91125; ;Departments of cPhysics and ;dMicrobiology, University of Tennessee, Knoxville, TN 37996; and ;fBioEnergy Center and Computer Science and Mathematics Division, Oak Ridge National Laboratory, Oak Ridge, TN 37831 |
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| Abstract: | Chemoreceptors are key components of the high-performance signal transduction system that controls bacterial chemotaxis. Chemoreceptors are typically localized in a cluster at the cell pole, where interactions among the receptors in the cluster are thought to contribute to the high sensitivity, wide dynamic range, and precise adaptation of the signaling system. Previous structural and genomic studies have produced conflicting models, however, for the arrangement of the chemoreceptors in the clusters. Using whole-cell electron cryo-tomography, here we show that chemoreceptors of different classes and in many different species representing several major bacterial phyla are all arranged into a highly conserved, 12-nm hexagonal array consistent with the proposed “trimer of dimers” organization. The various observed lengths of the receptors confirm current models for the methylation, flexible bundle, signaling, and linker sub-domains in vivo. Our results suggest that the basic mechanism and function of receptor clustering is universal among bacterial species and was thus conserved during evolution. |
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| Keywords: | bacterial ultrastructure chemotaxis electron cryo-tomography |
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