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Cryogenic single-molecule fluorescence annotations for electron tomography reveal in situ organization of key proteins in Caulobacter.

Authors :
Dahlberg, Peter D.
Saurabh, Saumya
Sartor, Annina M.
Jiarui Wang
Mitchell, Patrick G.
Wah Chiu
Shapiro, Lucy
Moerner, W. E.
Source :
Proceedings of the National Academy of Sciences of the United States of America. 6/23/2020, Vol. 117 Issue 25, p1-8. 8p.
Publication Year :
2020

Abstract

Superresolution fluorescence microscopy and cryogenic electron tomography (CET) are powerful imaging methods for exploring the subcellular organization of biomolecules. Superresolution fluorescence microscopy based on covalent labeling highlights specific proteins and has sufficient sensitivity to observe single fluorescent molecules, but the reconstructions lack detailed cellular context. CET has molecular-scale resolution but lacks specific and nonperturbative intracellular labeling techniques. Here, we describe an imaging scheme that correlates cryogenic single-molecule fluorescence localizations with CET reconstructions. Our approach achieves singlemolecule localizations with an average lateral precision of 9 nm, and a relative registration error between the set of localizations and CET reconstruction of ~30 nm. We illustrate the workflow by annotating the positions of three proteins in the bacterium Caulobacter crescentus: McpA, PopZ, and SpmX. McpA, which forms a part of the chemoreceptor array, acts as a validation structure by being visible under both imaging modalities. In contrast, PopZ and SpmX cannot be directly identified in CET. While not directly discernable, PopZ fills a region at the cell poles that is devoid of electron-dense ribosomes. We annotate the position of PopZ with singlemolecule localizations and confirm its position within the ribosome excluded region. We further use the locations of PopZ to provide context for localizations of SpmX, a low-copy integral membrane protein sequestered by PopZ as part of a signaling pathway that leads to an asymmetric cell division. Our correlative approach reveals that SpmX localizes along one side of the cell pole and its extent closely matches that of the PopZ region. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
00278424
Volume :
117
Issue :
25
Database :
Academic Search Index
Journal :
Proceedings of the National Academy of Sciences of the United States of America
Publication Type :
Academic Journal
Accession number :
144241690
Full Text :
https://doi.org/10.1073/pnas.2001849117