A rheostat mechanism governs the bifurcation of carbon flux in mycobacteria

Microbes survive in dynamic environments by modulating their intracellular metabolism. Here, the authors reveal that mycobacteria employ a rheostat-like mechanism to regulate carbon flux between the oxidative TCA cycle and the glyoxylate shunt during glucose-acetate diauxic shift.

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Autores principales: Paul Murima, Michael Zimmermann, Tarun Chopra, Florence Pojer, Giulia Fonti, Matteo Dal Peraro, Sylvie Alonso, Uwe Sauer, Kevin Pethe, John D. McKinney
Formato: article
Lenguaje:EN
Publicado: Nature Portfolio 2016
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Acceso en línea:https://doaj.org/article/652596cd6de34172bdbad20c07b19e07
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spelling oai:doaj.org-article:652596cd6de34172bdbad20c07b19e072021-12-02T14:39:35ZA rheostat mechanism governs the bifurcation of carbon flux in mycobacteria10.1038/ncomms125272041-1723https://doaj.org/article/652596cd6de34172bdbad20c07b19e072016-08-01T00:00:00Zhttps://doi.org/10.1038/ncomms12527https://doaj.org/toc/2041-1723Microbes survive in dynamic environments by modulating their intracellular metabolism. Here, the authors reveal that mycobacteria employ a rheostat-like mechanism to regulate carbon flux between the oxidative TCA cycle and the glyoxylate shunt during glucose-acetate diauxic shift.Paul MurimaMichael ZimmermannTarun ChopraFlorence PojerGiulia FontiMatteo Dal PeraroSylvie AlonsoUwe SauerKevin PetheJohn D. McKinneyNature PortfolioarticleScienceQENNature Communications, Vol 7, Iss 1, Pp 1-13 (2016)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Paul Murima
Michael Zimmermann
Tarun Chopra
Florence Pojer
Giulia Fonti
Matteo Dal Peraro
Sylvie Alonso
Uwe Sauer
Kevin Pethe
John D. McKinney
A rheostat mechanism governs the bifurcation of carbon flux in mycobacteria
description Microbes survive in dynamic environments by modulating their intracellular metabolism. Here, the authors reveal that mycobacteria employ a rheostat-like mechanism to regulate carbon flux between the oxidative TCA cycle and the glyoxylate shunt during glucose-acetate diauxic shift.
format article
author Paul Murima
Michael Zimmermann
Tarun Chopra
Florence Pojer
Giulia Fonti
Matteo Dal Peraro
Sylvie Alonso
Uwe Sauer
Kevin Pethe
John D. McKinney
author_facet Paul Murima
Michael Zimmermann
Tarun Chopra
Florence Pojer
Giulia Fonti
Matteo Dal Peraro
Sylvie Alonso
Uwe Sauer
Kevin Pethe
John D. McKinney
author_sort Paul Murima
title A rheostat mechanism governs the bifurcation of carbon flux in mycobacteria
title_short A rheostat mechanism governs the bifurcation of carbon flux in mycobacteria
title_full A rheostat mechanism governs the bifurcation of carbon flux in mycobacteria
title_fullStr A rheostat mechanism governs the bifurcation of carbon flux in mycobacteria
title_full_unstemmed A rheostat mechanism governs the bifurcation of carbon flux in mycobacteria
title_sort rheostat mechanism governs the bifurcation of carbon flux in mycobacteria
publisher Nature Portfolio
publishDate 2016
url https://doaj.org/article/652596cd6de34172bdbad20c07b19e07
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