Temporal evolution of master regulator Crp identifies pyrimidines as catabolite modulator factors

Microbial evolution often involves transient phenotypes and sequential development of multiple mutations of unclear relevance. Here, the authors show that the evolution of non-growing E. coli cells can be driven by alterations in pyrimidine nucleoside levels associated with colony ageing and/or due...

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Autores principales: Ida Lauritsen, Pernille Ott Frendorf, Silvia Capucci, Sophia A. H. Heyde, Sarah D. Blomquist, Sofie Wendel, Emil C. Fischer, Agnieszka Sekowska, Antoine Danchin, Morten H. H. Nørholm
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Publicado: Nature Portfolio 2021
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Acceso en línea:https://doaj.org/article/ddb79980ec96494cbf407a7e2b45ecb8
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spelling oai:doaj.org-article:ddb79980ec96494cbf407a7e2b45ecb82021-12-02T16:56:48ZTemporal evolution of master regulator Crp identifies pyrimidines as catabolite modulator factors10.1038/s41467-021-26098-x2041-1723https://doaj.org/article/ddb79980ec96494cbf407a7e2b45ecb82021-10-01T00:00:00Zhttps://doi.org/10.1038/s41467-021-26098-xhttps://doaj.org/toc/2041-1723Microbial evolution often involves transient phenotypes and sequential development of multiple mutations of unclear relevance. Here, the authors show that the evolution of non-growing E. coli cells can be driven by alterations in pyrimidine nucleoside levels associated with colony ageing and/or due to mutations in metabolic or regulatory genes.Ida LauritsenPernille Ott FrendorfSilvia CapucciSophia A. H. HeydeSarah D. BlomquistSofie WendelEmil C. FischerAgnieszka SekowskaAntoine DanchinMorten H. H. NørholmNature PortfolioarticleScienceQENNature Communications, Vol 12, Iss 1, Pp 1-13 (2021)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Ida Lauritsen
Pernille Ott Frendorf
Silvia Capucci
Sophia A. H. Heyde
Sarah D. Blomquist
Sofie Wendel
Emil C. Fischer
Agnieszka Sekowska
Antoine Danchin
Morten H. H. Nørholm
Temporal evolution of master regulator Crp identifies pyrimidines as catabolite modulator factors
description Microbial evolution often involves transient phenotypes and sequential development of multiple mutations of unclear relevance. Here, the authors show that the evolution of non-growing E. coli cells can be driven by alterations in pyrimidine nucleoside levels associated with colony ageing and/or due to mutations in metabolic or regulatory genes.
format article
author Ida Lauritsen
Pernille Ott Frendorf
Silvia Capucci
Sophia A. H. Heyde
Sarah D. Blomquist
Sofie Wendel
Emil C. Fischer
Agnieszka Sekowska
Antoine Danchin
Morten H. H. Nørholm
author_facet Ida Lauritsen
Pernille Ott Frendorf
Silvia Capucci
Sophia A. H. Heyde
Sarah D. Blomquist
Sofie Wendel
Emil C. Fischer
Agnieszka Sekowska
Antoine Danchin
Morten H. H. Nørholm
author_sort Ida Lauritsen
title Temporal evolution of master regulator Crp identifies pyrimidines as catabolite modulator factors
title_short Temporal evolution of master regulator Crp identifies pyrimidines as catabolite modulator factors
title_full Temporal evolution of master regulator Crp identifies pyrimidines as catabolite modulator factors
title_fullStr Temporal evolution of master regulator Crp identifies pyrimidines as catabolite modulator factors
title_full_unstemmed Temporal evolution of master regulator Crp identifies pyrimidines as catabolite modulator factors
title_sort temporal evolution of master regulator crp identifies pyrimidines as catabolite modulator factors
publisher Nature Portfolio
publishDate 2021
url https://doaj.org/article/ddb79980ec96494cbf407a7e2b45ecb8
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