A combined experimental and modelling approach for the Weimberg pathway optimisation

Metabolic engineering is often hampered by non-linear kinetics and allosteric regulatory mechanisms. Here, the authors construct a quantitative model for the pentose degradation Weimberg pathway in Caulobacter crescentus and demonstrate its biotechnological applications in cell-free system and stand...

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Autores principales: Lu Shen, Martha Kohlhaas, Junichi Enoki, Roland Meier, Bernhard Schönenberger, Roland Wohlgemuth, Robert Kourist, Felix Niemeyer, David van Niekerk, Christopher Bräsen, Jochen Niemeyer, Jacky Snoep, Bettina Siebers
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Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/4bef7f520d5a46eab6a729fa78bb1433
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spelling oai:doaj.org-article:4bef7f520d5a46eab6a729fa78bb14332021-12-02T16:56:32ZA combined experimental and modelling approach for the Weimberg pathway optimisation10.1038/s41467-020-14830-y2041-1723https://doaj.org/article/4bef7f520d5a46eab6a729fa78bb14332020-02-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-14830-yhttps://doaj.org/toc/2041-1723Metabolic engineering is often hampered by non-linear kinetics and allosteric regulatory mechanisms. Here, the authors construct a quantitative model for the pentose degradation Weimberg pathway in Caulobacter crescentus and demonstrate its biotechnological applications in cell-free system and standard metabolic engineering.Lu ShenMartha KohlhaasJunichi EnokiRoland MeierBernhard SchönenbergerRoland WohlgemuthRobert KouristFelix NiemeyerDavid van NiekerkChristopher BräsenJochen NiemeyerJacky SnoepBettina SiebersNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-13 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Lu Shen
Martha Kohlhaas
Junichi Enoki
Roland Meier
Bernhard Schönenberger
Roland Wohlgemuth
Robert Kourist
Felix Niemeyer
David van Niekerk
Christopher Bräsen
Jochen Niemeyer
Jacky Snoep
Bettina Siebers
A combined experimental and modelling approach for the Weimberg pathway optimisation
description Metabolic engineering is often hampered by non-linear kinetics and allosteric regulatory mechanisms. Here, the authors construct a quantitative model for the pentose degradation Weimberg pathway in Caulobacter crescentus and demonstrate its biotechnological applications in cell-free system and standard metabolic engineering.
format article
author Lu Shen
Martha Kohlhaas
Junichi Enoki
Roland Meier
Bernhard Schönenberger
Roland Wohlgemuth
Robert Kourist
Felix Niemeyer
David van Niekerk
Christopher Bräsen
Jochen Niemeyer
Jacky Snoep
Bettina Siebers
author_facet Lu Shen
Martha Kohlhaas
Junichi Enoki
Roland Meier
Bernhard Schönenberger
Roland Wohlgemuth
Robert Kourist
Felix Niemeyer
David van Niekerk
Christopher Bräsen
Jochen Niemeyer
Jacky Snoep
Bettina Siebers
author_sort Lu Shen
title A combined experimental and modelling approach for the Weimberg pathway optimisation
title_short A combined experimental and modelling approach for the Weimberg pathway optimisation
title_full A combined experimental and modelling approach for the Weimberg pathway optimisation
title_fullStr A combined experimental and modelling approach for the Weimberg pathway optimisation
title_full_unstemmed A combined experimental and modelling approach for the Weimberg pathway optimisation
title_sort combined experimental and modelling approach for the weimberg pathway optimisation
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/4bef7f520d5a46eab6a729fa78bb1433
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