Comparative biology of two natural variants of the IncQ-2 family plasmids, pRAS3.1 and pRAS3.2
Date
2009
Authors
Loftie-Eaton W.
Rawlings D.E.
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Abstract
Plasmids pRAS3.1 and pRAS3.2 are two closely related, natural variants of the IncQ-2 plasmid family that have identical plasmid backbones except for two differences. Plasmid pRAS3.1 has five 6-bp repeat sequences in the promoter region of the mobB gene and four 22-bp iterons in its oriV region, whereas pRAS3.2 has only four 6-bp repeats and three 22-bp iterons. Plasmid pRAS3.1 was found to have a higher copy number than pRAS3.2, and we show that the extra 6-bp repeat results in an increase in mobB and downstream mobA/repB expression. Placement of repB (primase) behind an arabinose-inducible promoter in trans resulted in an increase in repB expression and an approximately twofold increase in the copy number of plasmids with identical numbers of 22-bp iterons. The pRAS3 plasmids were shown to have a previously unrecognized toxin-antitoxin plasmid stability module within their replicons. The ability of the pRAS3 plasmids to mobilize the oriT regions of two other plasmids of the IncQ-2 family, pTF-FC2 and pTC-F14, suggested that the mobilization proteins pRAS3 are relaxed and can mobilize oriT regions with substantially different sequences. Plasmids pRAS3.1 and pRAS3.2 were highly incompatible with plasmids pTF-FC2 and pTC-F14, and this incompatibility was removed on inactivation of an open reading frame situated downstream of the mobCDE mobilization genes rather than being due to the 22-bp oriV-associated iterons. We propose that the pRAS3 plasmids represent a third, γ incompatibility group within the IncQ-2 family plasmids. Copyright © 2009, American Society for Microbiology. All Rights Reserved.
Description
Keywords
arabinose, article, nonhuman, nucleotide sequence, open reading frame, phylogeny, plasmid, pRAS3 plasmid, priority journal, promoter region, replicon, Aeromonas salmonicida, Bacterial Proteins, Evolution, Molecular, Gene Expression Regulation, Bacterial, Genetic Variation, Phylogeny, Plasmids
Citation
Journal of Bacteriology
191
20
191
20