Integration of a Laterally Acquired Gene into a Cell Network Important for Growth in a Strain of Vibrio Rotiferianus

Overview

Journal BMC Microbiol

Publisher Biomed Central

Specialty Microbiology

Date 2011 Nov 19

PMID 22093957

Citations 3

Authors

Maurizio Labbate

Yan Boucher

Piklu Roy Chowdhury

Hatch W Stokes

Affiliations

Soon will be listed here.

Abstract

Background: Lateral Gene Transfer (LGT) is a major contributor to bacterial evolution and up to 25% of a bacterium's genome may have been acquired by this process over evolutionary periods of time. Successful LGT requires both the physical transfer of DNA and its successful incorporation into the host cell. One system that contributes to this latter step by site-specific recombination is the integron. Integrons are found in many diverse bacterial Genera and is a genetic system ubiquitous in vibrios that captures mobile DNA at a dedicated site. The presence of integron-associated genes, contained within units of mobile DNA called gene cassettes makes up a substantial component of the vibrio genome (1-3%). Little is known about the role of this system since the vast majority of genes in vibrio arrays are highly novel and functions cannot be ascribed. It is generally regarded that strain-specific mobile genes cannot be readily integrated into the cellular machinery since any perturbation of core metabolism is likely to result in a loss of fitness.

Results: In this study, at least one mobile gene contained within the Vibrio rotiferianus strain DAT722, but lacking close relatives elsewhere, is shown to greatly reduce host fitness when deleted and tested in growth assays. The precise role of the mobile gene product is unknown but impacts on the regulation of outermembrane porins. This demonstrates that strain specific laterally acquired mobile DNA can be integrated rapidly into bacterial networks such that it becomes advantageous for survival and adaptation in changing environments.

Conclusions: Mobile genes that are highly strain specific are generally believed to act in isolation. This is because perturbation of existing cell machinery by the acquisition of a new gene by LGT is highly likely to lower fitness. In contrast, we show here that at least one mobile gene, apparently unique to a strain, encodes a product that has integrated into central cellular metabolic processes such that it greatly lowers fitness when lost under those conditions likely to be commonly encountered for the free living cell. This has ramifications for our understanding of the role mobile gene encoded products play in the cell from a systems biology perspective.

Citing Articles

The function of integron-associated gene cassettes in Vibrio species: the tip of the iceberg.

Rapa R, Labbate M Front Microbiol. 2013; 4:385.

PMID: 24367362 PMC: 3856429. DOI: 10.3389/fmicb.2013.00385.

Deletion of integron-associated gene cassettes impact on the surface properties of Vibrio rotiferianus DAT722.

Rapa R, Shimmon R, Djordjevic S, Stokes H, Labbate M PLoS One. 2013; 8(3):e58430.

PMID: 23484028 PMC: 3590141. DOI: 10.1371/journal.pone.0058430.

Integron associated mobile genes: Just a collection of plug in apps or essential components of cell network hardware?.

Labbate M, Boucher Y, Luu I, Roy Chowdhury P, Stokes H Mob Genet Elements. 2012; 2(1):13-18.

PMID: 22754748 PMC: 3383445. DOI: 10.4161/mge.19510.

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