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Deletion of BmoR affects the expression of genes related to thiol/disulfide balance in Bacteroides fragilis.


ABSTRACT: Bacteroides fragilis, an opportunistic pathogen and commensal bacterium in the gut, is one the most aerotolerant species among strict anaerobes. However, the mechanisms that control gene regulation in response to oxidative stress are not completely understood. In this study, we show that the MarR type regulator, BmoR, regulates the expression of genes involved in the homeostasis of intracellular redox state. Transcriptome analysis showed that absence of BmoR leads to altered expression in total of 167 genes. Sixteen of these genes had a 2-fold or greater change in their expression. Most of these genes are related to LPS biosynthesis and carbohydrates metabolism, but there was a significant increase in the expression of genes related to the redox balance inside the cell. A pyridine nucleotide-disulfide oxidoreductase located directly upstream of bmoR was shown to be repressed by direct binding of BmoR to the promoter region. The expression of two other genes, coding for a thiosulphate:quinone-oxidoreductase and a thioredoxin, are indirectly affected by bmoR mutation during oxygen exposure. Phenotypic assays showed that BmoR is important to maintain the thiol/disulfide balance in the cell, confirming its relevance to B. fragilis response to oxidative stress.

SUBMITTER: Teixeira FL 

PROVIDER: S-EPMC6158253 | biostudies-literature | 2018 Sep

REPOSITORIES: biostudies-literature

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Deletion of BmoR affects the expression of genes related to thiol/disulfide balance in Bacteroides fragilis.

Teixeira Felipe L FL   Pauer Heidi H   Costa Scarlathe B SB   Smith C Jeffrey CJ   Domingues Regina M C P RMCP   Rocha Edson R ER   Lobo Leandro A LA  

Scientific reports 20180926 1


Bacteroides fragilis, an opportunistic pathogen and commensal bacterium in the gut, is one the most aerotolerant species among strict anaerobes. However, the mechanisms that control gene regulation in response to oxidative stress are not completely understood. In this study, we show that the MarR type regulator, BmoR, regulates the expression of genes involved in the homeostasis of intracellular redox state. Transcriptome analysis showed that absence of BmoR leads to altered expression in total  ...[more]

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