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CiaR impacts biofilm formation by regulating an arginine biosynthesis pathway in Streptococcus sanguinis SK36.

ABSTRACT: Streptococcus sanguinis is an early colonizer of the tooth surface and competes with oral pathogens such as Streptococcus mutans to maintain oral health. However, little is known about its mechanism of biofilm formation. Here, we show that mutation of the ciaR gene, encoding the response regulator of the CiaRH two-component system in S. sanguinis SK36, produced a fragile biofilm. Cell aggregation, gtfP gene expression and water-insoluble glucan production were all reduced, which suggested polysaccharide production was decreased in ?ciaR. RNA sequencing and qRT-PCR revealed that arginine biosynthesis genes (argR, argB, argC, argG, argH and argJ) and two arginine/histidine permease genes (SSA_1568 and SSA_1569) were upregulated in ?ciaR. In contrast to ?ciaR, most of strains constructed to contain deletions in each of these genes produced more biofilm and water-insoluble glucan than SK36. A ?ciaR?argB double mutant was completely restored for the gtfP gene expression, glucan production and biofilm formation ability that was lost in ?ciaR, indicating that argB was essential for ciaR to regulate biofilm formation. We conclude that by promoting the expression of arginine biosynthetic genes, especially argB gene, the ciaR mutation reduced polysaccharide production, resulting in the formation of a fragile biofilm in Streptococcus sanguinis.

SUBMITTER: Zhu B 

PROVIDER: S-EPMC5719415 | biostudies-literature | 2017 Dec

REPOSITORIES: biostudies-literature

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ciaR impacts biofilm formation by regulating an arginine biosynthesis pathway in Streptococcus sanguinis SK36.

Zhu Bin B   Ge Xiuchun X   Stone Victoria V   Kong Xiangzhen X   El-Rami Fadi F   Liu Yan Y   Kitten Todd T   Xu Ping P  

Scientific reports 20171207 1

Streptococcus sanguinis is an early colonizer of the tooth surface and competes with oral pathogens such as Streptococcus mutans to maintain oral health. However, little is known about its mechanism of biofilm formation. Here, we show that mutation of the ciaR gene, encoding the response regulator of the CiaRH two-component system in S. sanguinis SK36, produced a fragile biofilm. Cell aggregation, gtfP gene expression and water-insoluble glucan production were all reduced, which suggested polysa  ...[more]

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