The Lyme disease spirochete's BpuR DNA/RNA‐binding protein is differentially expressed during the mammal–tick infectious cycle, which affects translation of the SodA superoxide dismutase

When the Lyme disease spirochete, Borrelia burgdorferi, transfers from a feeding tick into a human or other vertebrate host, the bacterium produces vertebrate‐specific proteins and represses factors needed for arthropod colonization. Previous studies determined that the B. burgdorferi BpuR protein b...

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Autores principales: Jutras, Brandon L., Savage, Christina R., Arnold, William K., Lethbridge, Kathryn G., Carroll, Dustin W., Tilly, Kit, Bestor, Aaron, Zhu, Haining, Seshu, Janakiram, Zückert, Wolfram R., Stewart, Philip E., Rosa, Patricia A., Brissette, Catherine A., Stevenson, Brian
Formato: Online Artículo Texto
Lenguaje:English
Publicado: John Wiley and Sons Inc. 2019
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6736767/
https://www.ncbi.nlm.nih.gov/pubmed/31240776
http://dx.doi.org/10.1111/mmi.14336
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author Jutras, Brandon L.
Savage, Christina R.
Arnold, William K.
Lethbridge, Kathryn G.
Carroll, Dustin W.
Tilly, Kit
Bestor, Aaron
Zhu, Haining
Seshu, Janakiram
Zückert, Wolfram R.
Stewart, Philip E.
Rosa, Patricia A.
Brissette, Catherine A.
Stevenson, Brian
author_facet Jutras, Brandon L.
Savage, Christina R.
Arnold, William K.
Lethbridge, Kathryn G.
Carroll, Dustin W.
Tilly, Kit
Bestor, Aaron
Zhu, Haining
Seshu, Janakiram
Zückert, Wolfram R.
Stewart, Philip E.
Rosa, Patricia A.
Brissette, Catherine A.
Stevenson, Brian
author_sort Jutras, Brandon L.
collection PubMed
description When the Lyme disease spirochete, Borrelia burgdorferi, transfers from a feeding tick into a human or other vertebrate host, the bacterium produces vertebrate‐specific proteins and represses factors needed for arthropod colonization. Previous studies determined that the B. burgdorferi BpuR protein binds to its own mRNA and autoregulates its translation, and also serves as co‐repressor of erp transcription. Here, we demonstrate that B. burgdorferi controls transcription of bpuR, expressing high levels of bpuR during tick colonization but significantly less during mammalian infection. The master regulator of chromosomal replication, DnaA, was found to bind specifically to a DNA sequence that overlaps the bpuR promoter. Cultured B. burgdorferi that were genetically manipulated to produce elevated levels of BpuR exhibited altered levels of several proteins, although BpuR did not impact mRNA levels. Among these was the SodA superoxide dismutase, which is essential for mammalian infection. BpuR bound to sodA mRNA in live B. burgdorferi, and a specific BpuR‐binding site was mapped 5′ of the sodA open reading frame. Recognition of posttranscriptional regulation of protein levels by BpuR adds another layer to our understanding of the B. burgdorferi regulome, and provides further evidence that bacterial protein levels do not always correlate directly with mRNA levels.
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spelling pubmed-67367672019-10-07 The Lyme disease spirochete's BpuR DNA/RNA‐binding protein is differentially expressed during the mammal–tick infectious cycle, which affects translation of the SodA superoxide dismutase Jutras, Brandon L. Savage, Christina R. Arnold, William K. Lethbridge, Kathryn G. Carroll, Dustin W. Tilly, Kit Bestor, Aaron Zhu, Haining Seshu, Janakiram Zückert, Wolfram R. Stewart, Philip E. Rosa, Patricia A. Brissette, Catherine A. Stevenson, Brian Mol Microbiol Research Articles When the Lyme disease spirochete, Borrelia burgdorferi, transfers from a feeding tick into a human or other vertebrate host, the bacterium produces vertebrate‐specific proteins and represses factors needed for arthropod colonization. Previous studies determined that the B. burgdorferi BpuR protein binds to its own mRNA and autoregulates its translation, and also serves as co‐repressor of erp transcription. Here, we demonstrate that B. burgdorferi controls transcription of bpuR, expressing high levels of bpuR during tick colonization but significantly less during mammalian infection. The master regulator of chromosomal replication, DnaA, was found to bind specifically to a DNA sequence that overlaps the bpuR promoter. Cultured B. burgdorferi that were genetically manipulated to produce elevated levels of BpuR exhibited altered levels of several proteins, although BpuR did not impact mRNA levels. Among these was the SodA superoxide dismutase, which is essential for mammalian infection. BpuR bound to sodA mRNA in live B. burgdorferi, and a specific BpuR‐binding site was mapped 5′ of the sodA open reading frame. Recognition of posttranscriptional regulation of protein levels by BpuR adds another layer to our understanding of the B. burgdorferi regulome, and provides further evidence that bacterial protein levels do not always correlate directly with mRNA levels. John Wiley and Sons Inc. 2019-07-07 2019-09 /pmc/articles/PMC6736767/ /pubmed/31240776 http://dx.doi.org/10.1111/mmi.14336 Text en © 2019 The Authors. Molecular Microbiology Published by John Wiley & Sons Ltd This is an open access article under the terms of the http://creativecommons.org/licenses/by-nc/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.
spellingShingle Research Articles
Jutras, Brandon L.
Savage, Christina R.
Arnold, William K.
Lethbridge, Kathryn G.
Carroll, Dustin W.
Tilly, Kit
Bestor, Aaron
Zhu, Haining
Seshu, Janakiram
Zückert, Wolfram R.
Stewart, Philip E.
Rosa, Patricia A.
Brissette, Catherine A.
Stevenson, Brian
The Lyme disease spirochete's BpuR DNA/RNA‐binding protein is differentially expressed during the mammal–tick infectious cycle, which affects translation of the SodA superoxide dismutase
title The Lyme disease spirochete's BpuR DNA/RNA‐binding protein is differentially expressed during the mammal–tick infectious cycle, which affects translation of the SodA superoxide dismutase
title_full The Lyme disease spirochete's BpuR DNA/RNA‐binding protein is differentially expressed during the mammal–tick infectious cycle, which affects translation of the SodA superoxide dismutase
title_fullStr The Lyme disease spirochete's BpuR DNA/RNA‐binding protein is differentially expressed during the mammal–tick infectious cycle, which affects translation of the SodA superoxide dismutase
title_full_unstemmed The Lyme disease spirochete's BpuR DNA/RNA‐binding protein is differentially expressed during the mammal–tick infectious cycle, which affects translation of the SodA superoxide dismutase
title_short The Lyme disease spirochete's BpuR DNA/RNA‐binding protein is differentially expressed during the mammal–tick infectious cycle, which affects translation of the SodA superoxide dismutase
title_sort lyme disease spirochete's bpur dna/rna‐binding protein is differentially expressed during the mammal–tick infectious cycle, which affects translation of the soda superoxide dismutase
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6736767/
https://www.ncbi.nlm.nih.gov/pubmed/31240776
http://dx.doi.org/10.1111/mmi.14336
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