The genetic basis for the adaptation of E. coli to sugar synthesis from CO2

An E. coli strain able to use CO2 fixation for sugar synthesis was previously generated by experimental evolution of an engineered strain. Here, Herz et al. show that specific mutations in five genes, encoding carbon metabolism enzymes or key regulators, are sufficient to enable robust growth of the...

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Autores principales: Elad Herz, Niv Antonovsky, Yinon Bar-On, Dan Davidi, Shmuel Gleizer, Noam Prywes, Lianet Noda-Garcia, Keren Lyn Frisch, Yehudit Zohar, David G. Wernick, Alon Savidor, Uri Barenholz, Ron Milo
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Publicado: Nature Portfolio 2017
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Acceso en línea:https://doaj.org/article/690248970691410cad98d1f38c3b74f9
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spelling oai:doaj.org-article:690248970691410cad98d1f38c3b74f92021-12-02T16:51:42ZThe genetic basis for the adaptation of E. coli to sugar synthesis from CO210.1038/s41467-017-01835-32041-1723https://doaj.org/article/690248970691410cad98d1f38c3b74f92017-11-01T00:00:00Zhttps://doi.org/10.1038/s41467-017-01835-3https://doaj.org/toc/2041-1723An E. coli strain able to use CO2 fixation for sugar synthesis was previously generated by experimental evolution of an engineered strain. Here, Herz et al. show that specific mutations in five genes, encoding carbon metabolism enzymes or key regulators, are sufficient to enable robust growth of the strain.Elad HerzNiv AntonovskyYinon Bar-OnDan DavidiShmuel GleizerNoam PrywesLianet Noda-GarciaKeren Lyn FrischYehudit ZoharDavid G. WernickAlon SavidorUri BarenholzRon MiloNature PortfolioarticleScienceQENNature Communications, Vol 8, Iss 1, Pp 1-10 (2017)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Elad Herz
Niv Antonovsky
Yinon Bar-On
Dan Davidi
Shmuel Gleizer
Noam Prywes
Lianet Noda-Garcia
Keren Lyn Frisch
Yehudit Zohar
David G. Wernick
Alon Savidor
Uri Barenholz
Ron Milo
The genetic basis for the adaptation of E. coli to sugar synthesis from CO2
description An E. coli strain able to use CO2 fixation for sugar synthesis was previously generated by experimental evolution of an engineered strain. Here, Herz et al. show that specific mutations in five genes, encoding carbon metabolism enzymes or key regulators, are sufficient to enable robust growth of the strain.
format article
author Elad Herz
Niv Antonovsky
Yinon Bar-On
Dan Davidi
Shmuel Gleizer
Noam Prywes
Lianet Noda-Garcia
Keren Lyn Frisch
Yehudit Zohar
David G. Wernick
Alon Savidor
Uri Barenholz
Ron Milo
author_facet Elad Herz
Niv Antonovsky
Yinon Bar-On
Dan Davidi
Shmuel Gleizer
Noam Prywes
Lianet Noda-Garcia
Keren Lyn Frisch
Yehudit Zohar
David G. Wernick
Alon Savidor
Uri Barenholz
Ron Milo
author_sort Elad Herz
title The genetic basis for the adaptation of E. coli to sugar synthesis from CO2
title_short The genetic basis for the adaptation of E. coli to sugar synthesis from CO2
title_full The genetic basis for the adaptation of E. coli to sugar synthesis from CO2
title_fullStr The genetic basis for the adaptation of E. coli to sugar synthesis from CO2
title_full_unstemmed The genetic basis for the adaptation of E. coli to sugar synthesis from CO2
title_sort genetic basis for the adaptation of e. coli to sugar synthesis from co2
publisher Nature Portfolio
publishDate 2017
url https://doaj.org/article/690248970691410cad98d1f38c3b74f9
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