Bacterial YedK represses plasmid DNA replication and transformation through its DNA single-strand binding activity.

The SOS response-associated peptidase (SRAP) is an ancient protein superfamily in all domains of life. The mammalian SRAP was recently reported to covalently bind to the abasic sites (AP) in single stranded (ss) DNA to shield the chromosome integrity. YedK, the Escherichia coli SRAP, is not functionally characterized. Here we report the fortuitous pull-down of YedK from bacterial cell lysates by short (<20 bp) double stranded (ds) DNAs, further enrichment of YedK was observed when single stranded (ss) DNA was added. YedK can bind multiple DNA substrates, particularly with a high affinity to DNA duplex with single strand segment. As a SRAP protein, the involvement of YedK in SOS response was extensively examined, however yedK mutant of Escherichia coli showed no difference from the wild type strain upon the treatments with UV and various DNA damaging reagents, indicating its non-essentiality or redundancy in E. coli. Surprisingly, yedK mutants derived from Escherichia coli and Samonella enterica both showed an increased plasmid DNA transformation efficiency compared to the wild types. In accordance with this, induction of YedK effectively decreased the copy number of plasmid DNA. Site-directed mutagenesis of YedK demonstrated that residues involved in single strand DNA binding and cysteine residue at position 2 from N-terminus can discharge the repression of the plasmid transformation efficiency.
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