Newly Identified Nucleoid-Associated-Like Protein YlxR Regulates Metabolic Gene Expression in <named-content content-type="genus-species">Bacillus subtilis</named-content>

ABSTRACT Glucose is the most favorable carbon source for the majority of bacteria, which have several glucose-responsive gene networks. Recently, we found that in Bacillus subtilis, glucose induces expression of the extracellular sigma factor genes sigX/M. To explore the factors affecting this pheno...

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Autores principales: Mitsuo Ogura, Yu Kanesaki
Formato: article
Lenguaje:EN
Publicado: American Society for Microbiology 2018
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Acceso en línea:https://doaj.org/article/f6ba38507fd6407eb6344b806d29bc22
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Sumario:ABSTRACT Glucose is the most favorable carbon source for the majority of bacteria, which have several glucose-responsive gene networks. Recently, we found that in Bacillus subtilis, glucose induces expression of the extracellular sigma factor genes sigX/M. To explore the factors affecting this phenomenon, we performed a transposon mutagenesis screen for mutants with no glucose induction (GI) of sigX-lacZ and identified ylxR. YlxR is widely conserved in eubacteria. Further analysis revealed that ylxR is induced by glucose addition. In vitro DNA-binding and cytological studies suggested that YlxR is a nucleoid-associated protein (NAP) in B. subtilis. In many cases, NAPs influence transcription, recombination, and genome stability. Thus, we performed transcriptome sequencing (RNA-Seq) analysis to evaluate the impact of ylxR disruption on the transcriptome in the presence of glucose and observed that YlxR has a profound impact on metabolic gene expression in addition to that of four sigma factor genes. The wide fluctuations of gene expression may result in abolition of GI of sigX/M in the ylxR disruptant. IMPORTANCE Expression of genes encoding NAPs is often temporally regulated. According to results from single-cell analysis, the ylxR gene is induced by glucose and expressed in a bistable mode. These characteristics have not previously been reported for NAP gene expression. Transcriptional profiling of the ylxR disruptant revealed a change in the expression levels of approximately 400 genes, including genes for synthesis of 12 amino acids and 4 nucleotides, in addition to the SigX/M regulons. Thus, YlxR is a critical regulator of glucose response in B. subtilis.