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. 1986 Nov;5(11):3007–3012. doi: 10.1002/j.1460-2075.1986.tb04599.x

Role of sog polypeptides specified by plasmid ColIb-P9 and their transfer between conjugating bacteria.

A Merryweather, C E Rees, N M Smith, B M Wilkins
PMCID: PMC1167254  PMID: 3024972

Abstract

The sog gene of the conjugative plasmid ColIb-P9 specifies two sequence-related polypeptides with the N-terminal third of the larger product having DNA primase activity. To resolve the function of the C-terminal portion of the polypeptides, we constructed a ColIb mutant containing a Tn5 insertion in the 3' region of sog. The mutation truncated sog gene products without inactivating DNA primase and rendered the plasmid defective in conjugation. Tests for the presence of conjugative pili, for complementation by a sog+ recombinant, and for mobilization of small origin of transfer (oriT) recombinant plasmids indicated that the mutant ColIb allows conjugative aggregation of cells but it is defective in DNA transfer at some stage subsequent to its initiation at oriT. Physical evidence is given that normal sog polypeptides are among a group of proteins transferred selectively from the donor to the recipient cell by a conjugation-specific process. No transfer of the mutant sog proteins was detected. It is proposed that the C-terminal region of sog polypeptides facilitates transfer of single-stranded ColIb DNA between conjugating cells following initiation of transfer at the oriT site, and that in this role the proteins are transmitted to the recipient cell.

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Selected References

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