RbpA is a small non-DNA-binding transcription factor that associates with RNA polymerase holoenzyme and stimulates transcription in actinobacteria, including Streptomyces coelicolor and Mycobacterium tuberculosis. RbpA seems to show specificity for the vegetative form of RNA polymerase as opposed to alternative forms of the enzyme. Here, we explain the basis of this specificity by showing that RbpA binds directly to the principal σ subunit in these organisms, but not to more diverged alternative σ factors. Nuclear magnetic resonance spectroscopy revealed that, although differing in their requirement for structural zinc, the RbpA orthologues from S. coelicolor and M. tuberculosis share a common structural core domain, with extensive, apparently disordered, N- and C-terminal regions. The RbpA-σ interaction is mediated by the C-terminal region of RbpA and σ domain 2, and S. coelicolor RbpA mutants that are defective in binding σ are unable to stimulate transcription in vitro and are inactive in vivo. Given that RbpA is essential in M. tuberculosis and critical for growth in S. coelicolor, these data support a model in which RbpA plays a key role in the σ cycle in actinobacteria

Aline Tabib-Salazar

Alting-Mees

Babcock

Bergendahl

Bierman

Bing Liu

Bougdour

Bucca

Burgess

Buttner

Campbell

Chakraburtty

Cornilescu

England

Feklistov

Fletcher

Fontán

Forti

Gaal

Gabriel

Gruber

Haugen

Herring

Huang

Karimova

Kathleen O’Dwyer

Kelemen

Kelley

Kieser

Krishna

Manganelli

Mantsyzov

Marchant

Marie-Laure Parsy

Mark S. Paget

McClellan

Monteil

Murakami

Newell

Otani

O’Connor

Paget

Panina

Peter J. Simpson

Philip Doughty

Pratt

Raffaelle

Richard A. Lewis

Rieping

Saecker

Sattler

Schwartz

Selmer

Sivashanmugam

Somadri Ghosh

Steve J. Matthews

Studier

Typas

van Wezel

Vassylyev

Ventura

Viollier

Vockenhuber

Wang

Young

Zhang

Zhuo

Österberg

Nucleic Acids Research

English

PubMed

Tabib-Salazar, A

Liu, B

Doughty, P

Lewis, RA

Ghosh, S

Parsy, M-L

Simpson, PJ

O'Dwyer, K

Matthews, SJ

Paget, MS

Spiral - Imperial College Digital Repository

The actinobacterial transcription factor RbpA binds to the principal sigma subunit of RNA polymerase

Crossref

RbpA is a small non-DNA-binding transcription factor that associates with RNA polymerase holoenzyme and stimulates transcription in actinobacteria, including Streptomyces coelicolor and Mycobacterium tuberculosis. RbpA seems to show specificity for the vegetative form of RNA polymerase as opposed to alternative forms of the enzyme. Here, we explain the basis of this specificity by showing that RbpA binds directly to the principal s subunit in these organisms, but not to more diverged alternative s factors. Nuclear magnetic resonance spectroscopy revealed that, although differing in their requirement for structural zinc, the RbpA orthologues from S. coelicolor and M. tuberculosis share a common structural core domain, with extensive, apparently disordered, N- and C-terminal regions. The RbpA-s interaction is mediated by the C-terminal region of RbpA and s domain 2, and S. coelicolor RbpA mutants that are defective in binding s are unable to stimulate transcription in vitro and are inactive in vivo. Given that RbpA is essential in M. tuberculosis and critical for growth in S. coelicolor, these data support a model in which RbpA plays a key role in the s cycle in actinobacteria

Aline Tabib-Salazar (16137404)

Bing Liu (70818)

Philip Doughty (16161989)

Richard A Lewis (8571723)

Somadri Ghosh (16161992)

Marie-Laure Parsy (196843)

Peter J Simpson (16161995)

Kathleen O'Dwyer (16161998)

Steve J Matthews (16162001)

Mark Paget (4460923)

Sussex Research Online

RbpA is a small non–DNA-binding transcription factor that associates with RNA polymerase holoenzyme and stimulates transcription in actinobacteria, including Streptomyces coelicolor and Mycobacterium tuberculosis. RbpA seems to show specificity for the vegetative form of RNA polymerase as opposed to alternative forms of the enzyme. Here, we explain the basis of this specifi-city by showing that RbpA binds directly to the prin-cipal p subunit in these organisms, but not to more diverged alternative p factors. Nuclear magnetic resonance spectroscopy revealed that, although differing in their requirement for structural zinc, the RbpA orthologues from S. coelicolor and M. tuberculosis share a common structural core domain, with extensive, apparently disordered, N-and C-terminal regions. The RbpA–p interaction is mediated by the C-terminal region of RbpA and p domain 2, and S. coelicolor RbpA mutants that are defective in binding p are unable to stimulate tran-scription in vitro and are inactive in vivo. Given that RbpA is essential in M. tuberculosis and critical for growth in S. coelicolor, these data support a model in which RbpA plays a key role in the p cycle in actinobacteria

Aline Tabib-salazar

Marie-laure Parsy

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ftp://ftp.ncbi.nlm.nih.gov/pub/pmc/db/07/gkt277.PMC3675491.pdf

The actinobacterial transcription factor RbpA binds to the principal sigma subunit of RNA polymerase

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