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Characterization of a Novel N-Acylhomoserine Lactonase RmmL from Ruegeria mobilis YJ3.


ABSTRACT: Gram-negative bacteria utilize N-acylhomoserine lactones (AHLs) as quorum sensing (QS) signaling molecules for intercellular communication. Cell-to-cell communication depends on cell population density, and AHL-dependent QS is related to the production of multiple genes including virulence factors. Quorum quenching (QQ), signal inactivation by enzymatic degradation, is a potential strategy for attenuating QS regulated bacterial infections. Both Gram-positive and -negative bacteria have QQ enzymes that can degrade AHLs. In our previous study, strain Ruegeria mobilis YJ3, isolated from healthy shrimp, showed strong AHLs degradative activity. In the current study, an AHL lactonase (designated RmmL) was cloned and characterized from Ruegeria mobilis YJ3. Amino acid sequence analysis showed that RmmL has a conserved "HXHXDH" motif and clusters together with lactonase AidC that belongs to the metallo-?-lactamase superfamily. Recombinant RmmL could degrade either short- or long-chain AHLs in vitro. High-performance liquid chromatography analysis indicated that RmmL works as an AHL lactonase catalyzing AHL ring-opening by hydrolyzing lactones. Furthermore, RmmL can reduce the production of pyocyanin by Pseudomonas aeruginosa PAO1, while for the violacein and the extracellular protease activities by Chromobacterium violaceum CV026 and Vibrio anguillarum VIB72, no significant reduction was observed. This study suggests that RmmL might be used as a therapeutic agent in aquaculture.

SUBMITTER: Cai X 

PROVIDER: S-EPMC6213412 | biostudies-literature | 2018 Oct

REPOSITORIES: biostudies-literature

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Characterization of a Novel <i>N</i>-Acylhomoserine Lactonase RmmL from <i>Ruegeria mobilis</i> YJ3.

Cai Xiulei X   Yu Min M   Shan Hu H   Tian Xiaorong X   Zheng Yanfen Y   Xue Chunxu C   Zhang Xiao-Hua XH  

Marine drugs 20181008 10


Gram-negative bacteria utilize <i>N</i>-acylhomoserine lactones (AHLs) as quorum sensing (QS) signaling molecules for intercellular communication. Cell-to-cell communication depends on cell population density, and AHL-dependent QS is related to the production of multiple genes including virulence factors. Quorum quenching (QQ), signal inactivation by enzymatic degradation, is a potential strategy for attenuating QS regulated bacterial infections. Both Gram-positive and -negative bacteria have QQ  ...[more]

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