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Journal article

Single-molecule imaging of DNA gyrase activity in living Escherichia coli

Abstract:
Bacterial DNA gyrase introduces negative supercoils into chromosomal DNA and relaxes positive supercoils introduced by replication and transiently by transcription. Removal of these positive supercoils is essential for replication fork progression and for the overall unlinking of the two duplex DNA strands, as well as for ongoing transcription. To address how gyrase copes with these topological challenges, we used high-speed single-molecule fluorescence imaging in live Escherichia coli cells. We demonstrate that at least 300 gyrase molecules are stably bound to the chromosome at any time, with ∼12 enzymes enriched near each replication fork. Trapping of reaction intermediates with ciprofloxacin revealed complexes undergoing catalysis. Dwell times of ∼2 s were observed for the dispersed gyrase molecules, which we propose maintain steady-state levels of negative supercoiling of the chromosome. In contrast, the dwell time of replisome-proximal molecules was ∼8 s, consistent with these catalyzing processive positive supercoil relaxation in front of the progressing replisome.
Publication status:
Published
Peer review status:
Peer reviewed

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Publisher copy:
10.1093/nar/gky1143

Authors

More by this author
Institution:
University of Oxford
Division:
Medical Sciences Division
Department:
Biochemistry
Role:
Author


Publisher:
Oxford University Press
Journal:
Nucleic Acids Research More from this journal
Volume:
47
Issue:
1
Pages:
210-220
Publication date:
2018-11-16
Acceptance date:
2018-11-07
DOI:
EISSN:
1362-4962
ISSN:
0305-1048
Pmid:
30445553


Language:
English
Pubs id:
pubs:948497
UUID:
uuid:96dceba5-b2c8-4947-9205-6dab99c98baa
Local pid:
pubs:948497
Source identifiers:
948497
Deposit date:
2019-02-27
ARK identifier:

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