Microtubules in Bacteria: Ancient Tubulins Build a Five-Protofilament Homolog of the Eukaryotic Cytoskeleton
Abstract
Microtubules play crucial roles in cytokinesis, transport, and motility, and are therefore superb targets for anti-cancer drugs. All tubulins evolved from a common ancestor they share with the distantly related bacterial cell division protein FtsZ, but while eukaryotic tubulins evolved into highly conserved microtubule-forming heterodimers, bacterial FtsZ presumably continued to function as single homopolymeric protofilaments as it does today. Microtubules have not previously been found in bacteria, and we lack insight into their evolution from the tubulin/FtsZ ancestor. Using electron cryomicroscopy, here we show that the tubulin homologs BtubA and BtubB form microtubules in bacteria and suggest these be referred to as "bacterial microtubules" (bMTs). bMTs share important features with their eukaryotic counterparts, such as straight protofilaments and similar protofilament interactions. bMTs are composed of only five protofilaments, however, instead of the 13 typical in eukaryotes. These and other results suggest that rather than being derived from modern eukaryotic tubulin, BtubA and BtubB arose from early tubulin intermediates that formed small microtubules. Since we show that bacterial microtubules can be produced in abundance in vitro without chaperones, they should be useful tools for tubulin research and drug screening.
Additional Information
© 2011 Pilhofer et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited. Received May 4, 2011; Accepted October 25, 2011; Published December 6, 2011. Academic Editor: Linda Amos, MRC Laboratory of Molecular Biology, United Kingdom. Funding: This work was supported in part by NIH grant R01 GM094800B to G.J.J., a gift to Caltech from the Gordon and Betty Moore Foundation, and a stipend from the Bayerische Forschungsstiftung to M.P. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. We thank K. Downing, D. Stokes, J. Staley, K.- H. Schleifer, W. Ludwig, L. Gan, M. Beeby, M. Swulius, and E. Tocheva for discussions; H. Erickson for anti-BtubA/B antibodies; D. Schlieper and J. Lo¨we for vector pHIS17; M. Anaya for help with protein purification; C. Eckl for help with RT-PCR; S. Cheng for help with segmentations; and M. Beeby for help with Figure 4B. Author Contributions: The author(s) have made the following declarations about their contributions: Conceived and designed the experiments: MP GJJ. Performed the experiments: MP. Analyzed the data: MP GJJ. Wrote the paper: MP GJJ. Performed immuno-EM staining and freeze-substitution: MSL. Performed cryo-sectioning: MSL AWM. Performed phylogenetic analyses: MP GP.Attached Files
Published - Pilhofer2011p16990Plos_Biol.pdf
Supplemental Material - Figure_S1.pdf
Supplemental Material - Figure_S10.pdf
Supplemental Material - Figure_S11.pdf
Supplemental Material - Figure_S2.pdf
Supplemental Material - Figure_S3.pdf
Supplemental Material - Figure_S4.pdf
Supplemental Material - Figure_S5.pdf
Supplemental Material - Figure_S6.pdf
Supplemental Material - Figure_S7.pdf
Supplemental Material - Figure_S8.pdf
Supplemental Material - Figure_S9.pdf
Supplemental Material - Movie_S1.mov
Supplemental Material - Table_S1.pdf
Supplemental Material - Table_S2.pdf
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Additional details
- PMCID
- PMC3232192
- Eprint ID
- 29110
- Resolver ID
- CaltechAUTHORS:20120203-085706225
- R01 GM094800B
- NIH
- Gordon and Betty Moore Foundation
- Bayerische Forschungsstiftung
- Created
-
2012-02-29Created from EPrint's datestamp field
- Updated
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2021-11-09Created from EPrint's last_modified field