Abstract

The IncI1 plasmid ColIb-P9 was found to carry a single-stranded DNA-binding (SSB) protein gene (ssb) that maps about 11 kilobase pairs from the origin of transfer in the region transferred early during bacterial conjugation. The cloned gene was able to suppress the UV and temperature sensitivity of an ssb-1 strain of Escherichia coli K-12. The nucleotide sequence of the ColIb ssb gene was determined, giving a predicted molecular weight of 19,110 for the SSB protein. Sequence data show that ColIb ssb is very similar to the ssb gene on plasmid F, which is also known to map in the leader region. High-level expression of ssb on ColIb required derepression of the transfer (tra) genes and the activity of the positive regulatory system controlling these genes, suggesting that the SSB protein contributes to the conjugative processing of DNA. A mutant of ColIbdrd-1 carrying a Tn903-derived insertion in ssb was constructed, but it was unaffected in the ability to generate plasmid transconjugants and it was maintained apparently stably in donor cells both following mating and during vegetative growth. Hence, no biological role of ColIb SSB protein was detected. However, unlike the parental plasmid, such ColIb ssb mutants conferred a marked Psi+ (plasmid-mediated SOS inhibition) phenotype on recA441 and recA730 strains, implying a functional relationship between SSB and Psi proteins.

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