A low Smc flux avoids collisions and facilitates chromosome organization in Bacillus subtilis.
Details
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State: Public
Version: author
License: CC BY 4.0
UNIL restricted access
State: Public
Version: author
License: CC BY 4.0
Serval ID
serval:BIB_049AF7648880
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
A low Smc flux avoids collisions and facilitates chromosome organization in Bacillus subtilis.
Journal
eLife
ISSN
2050-084X (Electronic)
ISSN-L
2050-084X
Publication state
Published
Issued date
04/08/2021
Peer-reviewed
Oui
Volume
10
Pages
e65467
Language
english
Notes
Publication types: Journal Article ; Research Support, Non-U.S. Gov't
Publication Status: epublish
Publication Status: epublish
Abstract
SMC complexes are widely conserved ATP-powered DNA-loop-extrusion motors indispensable for organizing and faithfully segregating chromosomes. How SMC complexes translocate along DNA for loop extrusion and what happens when two complexes meet on the same DNA molecule is largely unknown. Revealing the origins and the consequences of SMC encounters is crucial for understanding the folding process not only of bacterial, but also of eukaryotic chromosomes. Here, we uncover several factors that influence bacterial chromosome organization by modulating the probability of such clashes. These factors include the number, the strength, and the distribution of Smc loading sites, the residency time on the chromosome, the translocation rate, and the cellular abundance of Smc complexes. By studying various mutants, we show that these parameters are fine-tuned to reduce the frequency of encounters between Smc complexes, presumably as a risk mitigation strategy. Mild perturbations hamper chromosome organization by causing Smc collisions, implying that the cellular capacity to resolve them is limited. Altogether, we identify mechanisms that help to avoid Smc collisions and their resolution by Smc traversal or other potentially risky molecular transactions.
Keywords
B. subtilis, chromosomes, gene expression, infectious disease, microbiology, DNA loop extrusion, ParABS, SMC complexes, chromosome condensation, chromosome organization, chromosome segregation
Pubmed
Web of science
Open Access
Yes
Create date
06/08/2021 9:23
Last modification date
20/07/2022 5:39