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A widespread bacterial type VI secretion effector superfamily identified using a heuristic approach.


ABSTRACT: Sophisticated mechanisms are employed to facilitate information exchange between interfacing bacteria. A type VI secretion system (T6SS) of Pseudomonas aeruginosa was shown to deliver cell wall-targeting effectors to neighboring cells. However, the generality of bacteriolytic effectors and, moreover, of antibacterial T6S remained unknown. Using parameters derived from experimentally validated bacterial T6SS effectors we identified a phylogenetically disperse superfamily of T6SS-associated peptidoglycan-degrading effectors. The effectors separate into four families composed of peptidoglycan amidase enzymes of differing specificities. Effectors strictly co-occur with cognate immunity proteins, indicating that self-intoxication is a general property of antibacterial T6SSs and effector delivery by the system exerts a strong selective pressure in nature. The presence of antibacterial effectors in a plethora of organisms, including many that inhabit or infect polymicrobial niches in the human body, suggests that the system could mediate interbacterial interactions of both environmental and clinical significance.

SUBMITTER: Russell AB 

PROVIDER: S-EPMC3358704 | biostudies-literature | 2012 May

REPOSITORIES: biostudies-literature

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A widespread bacterial type VI secretion effector superfamily identified using a heuristic approach.

Russell Alistair B AB   Singh Pragya P   Brittnacher Mitchell M   Bui Nhat Khai NK   Hood Rachel D RD   Carl Mike A MA   Agnello Danielle M DM   Schwarz Sandra S   Goodlett David R DR   Vollmer Waldemar W   Mougous Joseph D JD  

Cell host & microbe 20120501 5


Sophisticated mechanisms are employed to facilitate information exchange between interfacing bacteria. A type VI secretion system (T6SS) of Pseudomonas aeruginosa was shown to deliver cell wall-targeting effectors to neighboring cells. However, the generality of bacteriolytic effectors and, moreover, of antibacterial T6S remained unknown. Using parameters derived from experimentally validated bacterial T6SS effectors we identified a phylogenetically disperse superfamily of T6SS-associated peptid  ...[more]

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