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Role for DNA double strand end-resection activity of RecBCD in control of aberrant chromosomal replication initiation in <i>Escherichia coli</i>

Sayantan Goswami, J. Gowrishankar

2022Nucleic Acids Research13 citationsDOIOpen Access PDF

Abstract

Replication of the circular bacterial chromosome is initiated from a locus oriC with the aid of an essential protein DnaA. One approach to identify factors acting to prevent aberrant oriC-independent replication initiation in Escherichia coli has been that to obtain mutants which survive loss of DnaA. Here, we show that a ΔrecD mutation, associated with attenuation of RecBCD's DNA double strand end-resection activity, provokes abnormal replication and rescues ΔdnaA lethality in two situations: (i) in absence of 5'-3' single-strand DNA exonuclease RecJ, or (ii) when multiple two-ended DNA double strand breaks (DSBs) are generated either by I-SceI endonucleolytic cleavages or by radiomimetic agents phleomycin or bleomycin. One-ended DSBs in the ΔrecD mutant did not rescue ΔdnaA lethality. With two-ended DSBs in the ΔrecD strain, ΔdnaA viability was retained even after linearization of the chromosome. Data from genome-wide DNA copy number determinations in ΔdnaA-rescued cells lead us to propose a model that nuclease-mediated DNA resection activity of RecBCD is critical for prevention of a σ-mode of rolling-circle over-replication when convergent replication forks merge and fuse, as may be expected to occur during normal replication at the chromosomal terminus region or during repair of two-ended DSBs following 'ends-in' replication.

Topics & Concepts

DnaABiologyRecBCDDNA replicationCircular bacterial chromosomeGeneticsControl of chromosome duplicationProkaryotic DNA replicationMolecular biologyDNADNA repairCell biologyDNA Repair MechanismsBacterial Genetics and BiotechnologyCRISPR and Genetic Engineering
Role for DNA double strand end-resection activity of RecBCD in control of aberrant chromosomal replication initiation in <i>Escherichia coli</i> | Litcius