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Location and architecture of the Caulobacter crescentus chemoreceptor array

Summary A new method for recording both fluorescence and cryo‐EM images of small bacterial cells was developed and used to identify chemoreceptor arrays in cryotomograms of intact Caulobacter crescentus cells. We show that in wild‐type cells preserved in a near‐native state, the chemoreceptors are h...

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Published in:	Molecular microbiology 2008-07, Vol.69 (1), p.30-41
Main Authors:	Briegel, Ariane, Ding, H. Jane, Li, Zhuo, Werner, John, Gitai, Zemer, Dias, D. Prabha, Jensen, Rasmus B., Jensen, Grant J.
Format:	Article
Language:	English
Subjects:	Bacteria Bacterial Proteins - chemistry Bacterial Proteins - genetics Bacterial Proteins - metabolism Bacterial Proteins - ultrastructure Bacteriology Biological and medical sciences Caulobacter crescentus Caulobacter crescentus - chemistry Caulobacter crescentus - genetics Caulobacter crescentus - metabolism Caulobacter crescentus - ultrastructure Cells Chemoreceptor Cells - chemistry Chemoreceptor Cells - metabolism Chemoreceptor Cells - ultrastructure Flagella - chemistry Flagella - genetics Flagella - metabolism Flagella - ultrastructure Flagellin - chemistry Flagellin - genetics Flagellin - metabolism Flagellin - ultrastructure Fluorescence Fundamental and applied biological sciences. Psychology Image Processing, Computer-Assisted Microbiology Miscellaneous Mutation Protein Array Analysis - methods
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description	Summary A new method for recording both fluorescence and cryo‐EM images of small bacterial cells was developed and used to identify chemoreceptor arrays in cryotomograms of intact Caulobacter crescentus cells. We show that in wild‐type cells preserved in a near‐native state, the chemoreceptors are hexagonally packed with a lattice spacing of 12 nm, just a few tens of nanometers away from the flagellar motor that they control. The arrays were always found on the convex side of the cell, further demonstrating that Caulobacter cells maintain dorsal/ventral as well as anterior/posterior asymmetry. Placing the known crystal structure of a trimer of receptor dimers at each vertex of the lattice accounts well for the density and agrees with other constraints. Based on this model for the arrangement of receptors, there are between one and two thousand receptors per array.
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subjects	Bacteria Bacterial Proteins - chemistry Bacterial Proteins - genetics Bacterial Proteins - metabolism Bacterial Proteins - ultrastructure Bacteriology Biological and medical sciences Caulobacter crescentus Caulobacter crescentus - chemistry Caulobacter crescentus - genetics Caulobacter crescentus - metabolism Caulobacter crescentus - ultrastructure Cells Chemoreceptor Cells - chemistry Chemoreceptor Cells - metabolism Chemoreceptor Cells - ultrastructure Flagella - chemistry Flagella - genetics Flagella - metabolism Flagella - ultrastructure Flagellin - chemistry Flagellin - genetics Flagellin - metabolism Flagellin - ultrastructure Fluorescence Fundamental and applied biological sciences. Psychology Image Processing, Computer-Assisted Microbiology Miscellaneous Mutation Protein Array Analysis - methods
title	Location and architecture of the Caulobacter crescentus chemoreceptor array
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