Posttranscriptional self-regulation by the lyme disease bacterium's bpur DNA/RNA-binding protein

Brandon L. Jutras; Grant S. Jones; Ashutosh Verma; Nicholas A. Brown; Alyssa D. Antonicello; Alicia M. Chenail; Brian Stevenson

doi:10.1128/JB.00819-13

Posttranscriptional self-regulation by the lyme disease bacterium's bpur DNA/RNA-binding protein

Brandon L. Jutras, Grant S. Jones, Ashutosh Verma, Nicholas A. Brown, Alyssa D. Antonicello, Alicia M. Chenail, Brian Stevenson

Research output: Contribution to journal › Article › peer-review

18 Scopus citations

Abstract

Bacteria require explicit control over their proteomes in order to compete and survive in dynamic environments. The Lyme disease spirochete Borrelia burgdorferi undergoes substantial protein profile changes during its cycling between vector ticks and vertebrate hosts. In an effort to understand regulation of these transitions, we recently isolated and functionally characterized the borrelial nucleic acid-binding protein BpuR, a PUR domain-containing protein. We now report that this regulatory protein governs its own synthesis through direct interactions with bpuR mRNA. In vitro and in vivo techniques indicate that BpuR binds with high affinity and specificity to the 5' region of its message, thereby inhibiting translation. This negative feedback could permit the bacteria to fine-tune cellular BpuR concentrations. These data add to the understanding of this newly described class of prokaryotic DNA- and RNA-binding regulatory proteins.

Original language	English
Pages (from-to)	4915-4923
Number of pages	9
Journal	Journal of Bacteriology
Volume	195
Issue number	21
DOIs	https://doi.org/10.1128/JB.00819-13
State	Published - 2013

ASJC Scopus subject areas

Microbiology
Molecular Biology

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10.1128/JB.00819-13

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title = "Posttranscriptional self-regulation by the lyme disease bacterium's bpur DNA/RNA-binding protein",

abstract = "Bacteria require explicit control over their proteomes in order to compete and survive in dynamic environments. The Lyme disease spirochete Borrelia burgdorferi undergoes substantial protein profile changes during its cycling between vector ticks and vertebrate hosts. In an effort to understand regulation of these transitions, we recently isolated and functionally characterized the borrelial nucleic acid-binding protein BpuR, a PUR domain-containing protein. We now report that this regulatory protein governs its own synthesis through direct interactions with bpuR mRNA. In vitro and in vivo techniques indicate that BpuR binds with high affinity and specificity to the 5' region of its message, thereby inhibiting translation. This negative feedback could permit the bacteria to fine-tune cellular BpuR concentrations. These data add to the understanding of this newly described class of prokaryotic DNA- and RNA-binding regulatory proteins.",

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AU - Jutras, Brandon L.

AU - Jones, Grant S.

AU - Verma, Ashutosh

AU - Brown, Nicholas A.

AU - Antonicello, Alyssa D.

AU - Chenail, Alicia M.

AU - Stevenson, Brian

PY - 2013

Y1 - 2013

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AB - Bacteria require explicit control over their proteomes in order to compete and survive in dynamic environments. The Lyme disease spirochete Borrelia burgdorferi undergoes substantial protein profile changes during its cycling between vector ticks and vertebrate hosts. In an effort to understand regulation of these transitions, we recently isolated and functionally characterized the borrelial nucleic acid-binding protein BpuR, a PUR domain-containing protein. We now report that this regulatory protein governs its own synthesis through direct interactions with bpuR mRNA. In vitro and in vivo techniques indicate that BpuR binds with high affinity and specificity to the 5' region of its message, thereby inhibiting translation. This negative feedback could permit the bacteria to fine-tune cellular BpuR concentrations. These data add to the understanding of this newly described class of prokaryotic DNA- and RNA-binding regulatory proteins.

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Posttranscriptional self-regulation by the lyme disease bacterium's bpur DNA/RNA-binding protein

Abstract

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