RecA and SSB genome-wide distribution in ssDNA gaps and ends in Escherichia coli

Author:

Pham Phuong1ORCID,Wood Elizabeth A2,Cox Michael M2ORCID,Goodman Myron F1ORCID

Affiliation:

1. Departments of Biological Sciences and Chemistry, University of Southern California , Los Angeles , CA  90089-2910, USA

2. Department of Biochemistry, University of Wisconsin-Madison , Madison , WI 53706-1544, USA

Abstract

Abstract Single-stranded DNA (ssDNA) gapped regions are common intermediates in DNA transactions. Using a new non-denaturing bisulfite treatment combined with ChIP-seq, abbreviated ‘ssGap-seq’, we explore RecA and SSB binding to ssDNA on a genomic scale in E. coli in a wide range of genetic backgrounds. Some results are expected. During log phase growth, RecA and SSB assembly profiles coincide globally, concentrated on the lagging strand and enhanced after UV irradiation. Unexpected results also abound. Near the terminus, RecA binding is favored over SSB, binding patterns change in the absence of RecG, and the absence of XerD results in massive RecA assembly. RecA may substitute for the absence of XerCD to resolve chromosome dimers. A RecA loading pathway may exist that is independent of RecBCD and RecFOR. Two prominent and focused peaks of RecA binding revealed a pair of 222 bp and GC-rich repeats, equidistant from dif and flanking the Ter domain. The repeats, here named RRS for replication risk sequence, trigger a genomically programmed generation of post-replication gaps that may play a special role in relieving topological stress during replication termination and chromosome segregation. As demonstrated here, ssGap-seq provides a new window on previously inaccessible aspects of ssDNA metabolism.

Funder

National Institutes of General Medical Sciences

National Institute of Environmental Health Sciences

Publisher

Oxford University Press (OUP)

Subject

Genetics

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