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The CovR regulatory network drives the evolution of Group B Streptococcus virulence
The CovR regulatory network drives the evolution of Group B Streptococcus virulence
by Chica, Claudia , Rosinski-Chupin, Isabelle , Glaser, Philippe , Trieu-Cuot, Patrick , Legendre, Rachel , Daunesse, Maëlle , Gominet, Myriam , Mazzuoli, Maria-Vittoria , Varet, Hugo , Kaminski, Pierre Alexandre , Sismeiro, Odile , Firon, Arnaud
in Adhesins / Bacterial Proteins - genetics / Bacterial Proteins - physiology / Biology and Life Sciences / Chromosomes, Bacterial / Clinical isolates / Cloning / Evolution / Evolutionary genetics / Gene expression / Gene regulation / Gene Regulatory Networks / Genes, Bacterial / Genetic aspects / Genetic regulation / Genetic research / Genomes / Host-Pathogen Interactions / Humans / Kinases / Life Sciences / Medicine and Health Sciences / Meningitis / Microbiological research / Mutation / Natural history / Neonates / Pathogens / Phosphorylation / Physiological aspects / Population studies / Promoter Regions, Genetic / Promoters / Prophages - genetics / Proteins / Signal transduction / Streptococcus / Streptococcus agalactiae - genetics / Streptococcus agalactiae - pathogenicity / Streptococcus infections / Transcription, Genetic - physiology / Transcriptomes / Virulence / Virulence (Microbiology) / Virulence - genetics / Virulence factors / Virulence Factors - genetics / Virulence Factors - physiology
2021
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The CovR regulatory network drives the evolution of Group B Streptococcus virulence
by Chica, Claudia , Rosinski-Chupin, Isabelle , Glaser, Philippe , Trieu-Cuot, Patrick , Legendre, Rachel , Daunesse, Maëlle , Gominet, Myriam , Mazzuoli, Maria-Vittoria , Varet, Hugo , Kaminski, Pierre Alexandre , Sismeiro, Odile , Firon, Arnaud
in Adhesins / Bacterial Proteins - genetics / Bacterial Proteins - physiology / Biology and Life Sciences / Chromosomes, Bacterial / Clinical isolates / Cloning / Evolution / Evolutionary genetics / Gene expression / Gene regulation / Gene Regulatory Networks / Genes, Bacterial / Genetic aspects / Genetic regulation / Genetic research / Genomes / Host-Pathogen Interactions / Humans / Kinases / Life Sciences / Medicine and Health Sciences / Meningitis / Microbiological research / Mutation / Natural history / Neonates / Pathogens / Phosphorylation / Physiological aspects / Population studies / Promoter Regions, Genetic / Promoters / Prophages - genetics / Proteins / Signal transduction / Streptococcus / Streptococcus agalactiae - genetics / Streptococcus agalactiae - pathogenicity / Streptococcus infections / Transcription, Genetic - physiology / Transcriptomes / Virulence / Virulence (Microbiology) / Virulence - genetics / Virulence factors / Virulence Factors - genetics / Virulence Factors - physiology
2021
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The CovR regulatory network drives the evolution of Group B Streptococcus virulence
The CovR regulatory network drives the evolution of Group B Streptococcus virulence
by Chica, Claudia , Rosinski-Chupin, Isabelle , Glaser, Philippe , Trieu-Cuot, Patrick , Legendre, Rachel , Daunesse, Maëlle , Gominet, Myriam , Mazzuoli, Maria-Vittoria , Varet, Hugo , Kaminski, Pierre Alexandre , Sismeiro, Odile , Firon, Arnaud
in Adhesins / Bacterial Proteins - genetics / Bacterial Proteins - physiology / Biology and Life Sciences / Chromosomes, Bacterial / Clinical isolates / Cloning / Evolution / Evolutionary genetics / Gene expression / Gene regulation / Gene Regulatory Networks / Genes, Bacterial / Genetic aspects / Genetic regulation / Genetic research / Genomes / Host-Pathogen Interactions / Humans / Kinases / Life Sciences / Medicine and Health Sciences / Meningitis / Microbiological research / Mutation / Natural history / Neonates / Pathogens / Phosphorylation / Physiological aspects / Population studies / Promoter Regions, Genetic / Promoters / Prophages - genetics / Proteins / Signal transduction / Streptococcus / Streptococcus agalactiae - genetics / Streptococcus agalactiae - pathogenicity / Streptococcus infections / Transcription, Genetic - physiology / Transcriptomes / Virulence / Virulence (Microbiology) / Virulence - genetics / Virulence factors / Virulence Factors - genetics / Virulence Factors - physiology
2021

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Mohammed Bin Rashid Library /
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The CovR regulatory network drives the evolution of Group B Streptococcus virulence
The CovR regulatory network drives the evolution of Group B Streptococcus virulence
Journal Article

The CovR regulatory network drives the evolution of Group B Streptococcus virulence

Chica, Claudia,
Rosinski-Chupin, Isabelle,
Glaser, Philippe,
Trieu-Cuot, Patrick,
Legendre, Rachel,
Daunesse, Maëlle,
Gominet, Myriam,
Mazzuoli, Maria-Vittoria,
Varet, Hugo,
Kaminski, Pierre Alexandre,
Sismeiro, Odile,
Firon, Arnaud
2021
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Overview
Virulence of the neonatal pathogen Group B Streptococcus is under the control of the master regulator CovR. Inactivation of CovR is associated with large-scale transcriptome remodeling and impairs almost every step of the interaction between the pathogen and the host. However, transcriptome analyses suggested a plasticity of the CovR signaling pathway in clinical isolates leading to phenotypic heterogeneity in the bacterial population. In this study, we characterized the CovR regulatory network in a strain representative of the CC-17 hypervirulent lineage responsible of the majority of neonatal meningitis. Transcriptome and genome-wide binding analysis reveal the architecture of the CovR network characterized by the direct repression of a large array of virulence-associated genes and the extent of co-regulation at specific loci. Comparative functional analysis of the signaling network links strain-specificities to the regulation of the pan-genome, including the two specific hypervirulent adhesins and horizontally acquired genes, to mutations in CovR-regulated promoters, and to variability in CovR activation by phosphorylation. This regulatory adaptation occurs at the level of genes, promoters, and of CovR itself, and allows to globally reshape the expression of virulence genes. Overall, our results reveal the direct, coordinated, and strain-specific regulation of virulence genes by the master regulator CovR and suggest that the intra-species evolution of the signaling network is as important as the expression of specific virulence factors in the emergence of clone associated with specific diseases.
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Publisher
Public Library of Science,Public Library of Science (PLoS)
Subject

Adhesins

/ Bacterial Proteins - genetics

/ Bacterial Proteins - physiology

/ Biology and Life Sciences

/ Chromosomes, Bacterial

/ Clinical isolates

/ Cloning

/ Evolution

/ Evolutionary genetics

/ Gene expression

/ Gene regulation

/ Gene Regulatory Networks

/ Genes, Bacterial

/ Genetic aspects

/ Genetic regulation

/ Genetic research

/ Genomes

/ Host-Pathogen Interactions

/ Humans

/ Kinases

/ Life Sciences

/ Medicine and Health Sciences

/ Meningitis

/ Microbiological research

/ Mutation

/ Natural history

/ Neonates

/ Pathogens

/ Phosphorylation

/ Physiological aspects

/ Population studies

/ Promoter Regions, Genetic

/ Promoters

/ Prophages - genetics

/ Proteins

/ Signal transduction

/ Streptococcus

/ Streptococcus agalactiae - genetics

/ Streptococcus agalactiae - pathogenicity

/ Streptococcus infections

/ Transcription, Genetic - physiology

/ Transcriptomes

/ Virulence

/ Virulence (Microbiology)

/ Virulence - genetics

/ Virulence factors

/ Virulence Factors - genetics

/ Virulence Factors - physiology

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