Author
Listed:
- Kévin Macé
(Institute of Structural and Molecular Biology, Department of Biological Sciences, Birkbeck College)
- Abhinav K. Vadakkepat
(Institute of Structural and Molecular Biology, Department of Biological Sciences, Birkbeck College)
- Adam Redzej
(Institute of Structural and Molecular Biology, Department of Biological Sciences, Birkbeck College)
- Natalya Lukoyanova
(Institute of Structural and Molecular Biology, Department of Biological Sciences, Birkbeck College)
- Clasien Oomen
(Institute of Structural and Molecular Biology, Department of Biological Sciences, Birkbeck College)
- Nathalie Braun
(Institute of Structural and Molecular Biology, Department of Biological Sciences, Birkbeck College
strucTEM Microscopic Services)
- Marta Ukleja
(Institute of Structural and Molecular Biology, Department of Biological Sciences, Birkbeck College
National Center For Biotechnology CNB-CSIC)
- Fang Lu
(Institute of Structural and Molecular Biology, Department of Biological Sciences, Birkbeck College)
- Tiago R. D. Costa
(Institute of Structural and Molecular Biology, Department of Biological Sciences, Birkbeck College
Imperial College London)
- Elena V. Orlova
(Institute of Structural and Molecular Biology, Department of Biological Sciences, Birkbeck College)
- David Baker
(University of Washington, Molecular Engineering and Sciences)
- Qian Cong
(University of Washington, Molecular Engineering and Sciences
Eugene McDermott Center for Human Growth and Development University of Texas Southwestern Medical Center)
- Gabriel Waksman
(Institute of Structural and Molecular Biology, Department of Biological Sciences, Birkbeck College
Institute of Structural and Molecular Biology, Division of Biosciences, University College London)
Abstract
Bacterial conjugation is the fundamental process of unidirectional transfer of DNAs, often plasmid DNAs, from a donor cell to a recipient cell1. It is the primary means by which antibiotic resistance genes spread among bacterial populations2,3. In Gram-negative bacteria, conjugation is mediated by a large transport apparatus—the conjugative type IV secretion system (T4SS)—produced by the donor cell and embedded in both its outer and inner membranes. The T4SS also elaborates a long extracellular filament—the conjugative pilus—that is essential for DNA transfer4,5. Here we present a high-resolution cryo-electron microscopy (cryo-EM) structure of a 2.8 megadalton T4SS complex composed of 92 polypeptides representing 8 of the 10 essential T4SS components involved in pilus biogenesis. We added the two remaining components to the structural model using co-evolution analysis of protein interfaces, to enable the reconstitution of the entire system including the pilus. This structure describes the exceptionally large protein–protein interaction network required to assemble the many components that constitute a T4SS and provides insights on the unique mechanism by which they elaborate pili.
Suggested Citation
Kévin Macé & Abhinav K. Vadakkepat & Adam Redzej & Natalya Lukoyanova & Clasien Oomen & Nathalie Braun & Marta Ukleja & Fang Lu & Tiago R. D. Costa & Elena V. Orlova & David Baker & Qian Cong & Gabrie, 2022.
"Cryo-EM structure of a type IV secretion system,"
Nature, Nature, vol. 607(7917), pages 191-196, July.
Handle:
RePEc:nat:nature:v:607:y:2022:i:7917:d:10.1038_s41586-022-04859-y
DOI: 10.1038/s41586-022-04859-y
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