Regulation of the PAD1 Sex Pheromone Response in Enterococcus Faecalis: Effects of Host Strain and TraA, TraB, and C Region Mutants on Expression of an E Region Pheromone-inducible LacZ Fusion

Overview

Journal J Bacteriol

Publisher American Society for Microbiology

Specialty Microbiology

Date 1990 May 1

PMID 2158976

Citations 25

Authors

K E Weaver

D B Clewell

Affiliations

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Abstract

Pheromone-induced conjugal transfer of the hemolysin-bacteriocin plasmid pAD1 of Enterococcus faecalis is regulated by a cluster of determinants designated traA, traB, and regions C and E. The E region is believed to include a positive regulator that controls many structural genes related to conjugation. The pheromone-inducible Tn917-lac fusion NR5, located in the E region, is regulated by the products of traA, traB, and the C region. To more closely examine the effects of these genes on the induction of E region products, inserts in each of these genes were combined with the NR5 fusion in a novel approach involving triparental matings with a pAD1 miniplasmid and recombinational mutagenesis. Results indicate that (i) the traA gene product is a key repressor of the pheromone response; (ii) the traB gene product, in cooperation with a gene within or regulated by the E region, controls pheromone shutdown; (iii) a primary function of the C region gene product is in pheromone sensing, with secondary functions in pheromone shutdown and negative regulation; and (iv) the host in which the plasmid resides has a dramatic effect on the regulation of the NR5 fusion in traB and C region mutants. Numerous parallels were observed between the regulation of the NR5 fusion and the regulation of the aggregation and transfer response. These parallels aided in further defining the functions of particular regulatory determinants as well as further establishing the link between the regulation of the E region and the regulation of the aggregation and transfer response.

Citing Articles

Enterococcal Genetics.

Weaver K Microbiol Spectr. 2019; 7(2).

PMID: 30848235 PMC: 11590681. DOI: 10.1128/microbiolspec.GPP3-0055-2018.

Identification of surface proteins in Enterococcus faecalis V583.

Bohle L, Riaz T, Egge-Jacobsen W, Skaugen M, Busk O, Eijsink V BMC Genomics. 2011; 12:135.

PMID: 21362161 PMC: 3059304. DOI: 10.1186/1471-2164-12-135.

Isolation of VanB-type Enterococcus faecalis strains from nosocomial infections: first report of the isolation and identification of the pheromone-responsive plasmids pMG2200, Encoding VanB-type vancomycin resistance and a Bac41-type bacteriocin,....

Zheng B, Tomita H, Inoue T, Ike Y Antimicrob Agents Chemother. 2008; 53(2):735-47.

PMID: 19029325 PMC: 2630599. DOI: 10.1128/AAC.00754-08.

Genetic analysis of the Enterococcus vancomycin resistance conjugative plasmid pHTbeta: identification of the region involved in cell aggregation and traB, a key regulator gene for plasmid transfer and cell aggregation.

Tomita H, Ike Y J Bacteriol. 2008; 190(23):7739-53.

PMID: 18835991 PMC: 2583617. DOI: 10.1128/JB.00361-08.

Characterization of monolaurin resistance in Enterococcus faecalis.

Dufour M, Manson J, Bremer P, Dufour J, Cook G, Simmonds R Appl Environ Microbiol. 2007; 73(17):5507-15.

PMID: 17630314 PMC: 2042098. DOI: 10.1128/AEM.01013-07.

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