Identification of rocA, a Positive Regulator of covR Expression in the Group A Streptococcus

I Biswas, JR Scott - Journal of bacteriology, 2003 - Am Soc Microbiol
I Biswas, JR Scott
Journal of bacteriology, 2003Am Soc Microbiol
In the group A streptococcus (GAS; Streptococcus pyogenes), a two-component system
known as CovRS (or CsrRS) regulates about 15% of the genes, including several important
virulence factors like the hyaluronic acid capsule. Most of these genes, including covR itself,
are negatively regulated by CovR. We have isolated two independent IS S1 insertions in an
open reading frame (ORF) that increases CovR expression as measured by a P cov-gusA
reporter fusion in single copy in the GAS chromosome. This ORF, named rocA for “regulator …
Abstract
In the group A streptococcus (GAS; Streptococcuspyogenes), a two-component system known as CovRS (or CsrRS) regulates about 15% of the genes, including several important virulence factors like the hyaluronic acid capsule. Most of these genes, including covR itself, are negatively regulated by CovR. We have isolated two independent ISS1 insertions in an open reading frame (ORF) that increases CovR expression as measured by a Pcov-gusA reporter fusion in single copy in the GAS chromosome. This ORF, named rocA for “regulator of Cov,” activates covR transcription about threefold. As expected, a rocA mutant is mucoid and produces more transcript from the has promoter since this promoter is repressed by CovR. This effect is dependent on the presence of a wild-type covR gene. In contrast to its activation of Pcov, RocA negatively regulates its own expression. This autoregulation is not dependent on the presence of the covR gene. All the phenotypes of the rocA mutant were complemented by the presence of the rocA gene on a plasmid. The rocA gene is present in strains of all nine M serotypes of GAS tested and is absent from strains representing 11 other groups of streptococci and related bacteria, including strains of the closely related group C and G streptococci. It seems likely that rocA plays an important role in the pathogenesis of GAS since it affects expression of the global regulator CovR.
American Society for Microbiology