Literature DB >> 26318670

The Fur homologue BosR requires Arg39 to activate rpoS transcription in Borrelia burgdorferi and thereby direct spirochaete infection in mice.

Laura I Katona1.   

Abstract

Borrelia burgdorferi is the causative agent of Lyme disease. In B. burgdorferi, RpoS controls the expression of virulence genes needed for mammalian infection. The Fur homologue BosR regulates the transcription of rpoS and therefore BosR determines, albeit indirectly, the infection status of the spirochaete. Transcription of rpoS in B. burgdorferi is complex: rpoS can be transcribed either from an RpoD-dependent promoter to yield a long transcript or from an RpoN-dependent promoter to yield a short transcript. This study shows that BosR repressed synthesis of the long transcript while at the same time activating synthesis of the short transcript. How BosR does this is unclear. To address this, spirochaetes were engineered to express either BosR or the naturally occurring variant BosRR39K. Mice became infected by the spirochaetes expressing BosR but not by the spirochaetes expressing BosRR39K. Furthermore, the spirochaetes expressing BosR activated rpoS transcription during growth in culture whereas the spirochaetes expressing BosRR39K did not. Thus, BosR's activation of rpoS transcription somehow involves Arg39. This arginine is highly conserved in other FUR proteins and therefore other FUR proteins may also require this arginine to function.

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Year:  2015        PMID: 26318670      PMCID: PMC4806591          DOI: 10.1099/mic.0.000166

Source DB:  PubMed          Journal:  Microbiology        ISSN: 1350-0872            Impact factor:   2.777


  61 in total

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Journal:  Mol Microbiol       Date:  2004-12       Impact factor: 3.501

6.  The fur homologue in Borrelia burgdorferi.

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9.  BosR functions as a repressor of the ospAB operon in Borrelia burgdorferi.

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  9 in total

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2.  Gene Regulation During the Enzootic Cycle of the Lyme Disease Spirochete.

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3.  Gene bb0318 Is Critical for the Oxidative Stress Response and Infectivity of Borrelia burgdorferi.

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5.  Gene Regulation and Transcriptomics.

Authors:  D Scott Samuels; Meghan C Lybecker; X Frank Yang; Zhiming Ouyang; Travis J Bourret; William K Boyle; Brian Stevenson; Dan Drecktrah; Melissa J Caimano
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6.  Weak Organic Acids Decrease Borrelia burgdorferi Cytoplasmic pH, Eliciting an Acid Stress Response and Impacting RpoN- and RpoS-Dependent Gene Expression.

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7.  Borrelia burgdorferi spatiotemporal regulation of transcriptional regulator bosR and decorin binding protein during murine infection.

Authors:  Elizabeth P Saputra; Jerome P Trzeciakowski; Jenny A Hyde
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8.  The Stringent Response-Regulated sRNA Transcriptome of Borrelia burgdorferi.

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9.  The CXXC Motifs Are Essential for the Function of BosR in Borrelia burgdorferi.

Authors:  Charlotte Mason; Xiaoyan Liu; Spoorthy Prabhudeva; Zhiming Ouyang
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  9 in total

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