Synthetic biology toolkit for engineering Cupriviadus necator H16 as a platform for CO2 valorization

Abstract Background CO2 valorization is one of the effective methods to solve current environmental and energy problems, in which microbial electrosynthesis (MES) system has proved feasible and efficient. Cupriviadus necator (Ralstonia eutropha) H16, a model chemolithoautotroph, is a microbe of choi...

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Autores principales: Haojie Pan, Jia Wang, Haoliang Wu, Zhongjian Li, Jiazhang Lian
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Publicado: BMC 2021
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Acceso en línea:https://doaj.org/article/d49def3b0351472a95fe97e188cefde5
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spelling oai:doaj.org-article:d49def3b0351472a95fe97e188cefde52021-11-08T10:56:39ZSynthetic biology toolkit for engineering Cupriviadus necator H16 as a platform for CO2 valorization10.1186/s13068-021-02063-01754-6834https://doaj.org/article/d49def3b0351472a95fe97e188cefde52021-11-01T00:00:00Zhttps://doi.org/10.1186/s13068-021-02063-0https://doaj.org/toc/1754-6834Abstract Background CO2 valorization is one of the effective methods to solve current environmental and energy problems, in which microbial electrosynthesis (MES) system has proved feasible and efficient. Cupriviadus necator (Ralstonia eutropha) H16, a model chemolithoautotroph, is a microbe of choice for CO2 conversion, especially with the ability to be employed in MES due to the presence of genes encoding [NiFe]-hydrogenases and all the Calvin–Benson–Basham cycle enzymes. The CO2 valorization strategy will make sense because the required hydrogen can be produced from renewable electricity independently of fossil fuels. Main body In this review, synthetic biology toolkit for C. necator H16, including genetic engineering vectors, heterologous gene expression elements, platform strain and genome engineering, and transformation strategies, is firstly summarized. Then, the review discusses how to apply these tools to make C. necator H16 an efficient cell factory for converting CO2 to value-added products, with the examples of alcohols, fatty acids, and terpenoids. The review is concluded with the limitation of current genetic tools and perspectives on the development of more efficient and convenient methods as well as the extensive applications of C. necator H16. Conclusions Great progress has been made on genetic engineering toolkit and synthetic biology applications of C. necator H16. Nevertheless, more efforts are expected in the near future to engineer C. necator H16 as efficient cell factories for the conversion of CO2 to value-added products.Haojie PanJia WangHaoliang WuZhongjian LiJiazhang LianBMCarticleCupriviadus necator H16Ralstonia eutropha H16Synthetic biologyMetabolic engineeringCO2 conversionBiomanufacturingFuelTP315-360BiotechnologyTP248.13-248.65ENBiotechnology for Biofuels, Vol 14, Iss 1, Pp 1-20 (2021)
institution DOAJ
collection DOAJ
language EN
topic Cupriviadus necator H16
Ralstonia eutropha H16
Synthetic biology
Metabolic engineering
CO2 conversion
Biomanufacturing
Fuel
TP315-360
Biotechnology
TP248.13-248.65
spellingShingle Cupriviadus necator H16
Ralstonia eutropha H16
Synthetic biology
Metabolic engineering
CO2 conversion
Biomanufacturing
Fuel
TP315-360
Biotechnology
TP248.13-248.65
Haojie Pan
Jia Wang
Haoliang Wu
Zhongjian Li
Jiazhang Lian
Synthetic biology toolkit for engineering Cupriviadus necator H16 as a platform for CO2 valorization
description Abstract Background CO2 valorization is one of the effective methods to solve current environmental and energy problems, in which microbial electrosynthesis (MES) system has proved feasible and efficient. Cupriviadus necator (Ralstonia eutropha) H16, a model chemolithoautotroph, is a microbe of choice for CO2 conversion, especially with the ability to be employed in MES due to the presence of genes encoding [NiFe]-hydrogenases and all the Calvin–Benson–Basham cycle enzymes. The CO2 valorization strategy will make sense because the required hydrogen can be produced from renewable electricity independently of fossil fuels. Main body In this review, synthetic biology toolkit for C. necator H16, including genetic engineering vectors, heterologous gene expression elements, platform strain and genome engineering, and transformation strategies, is firstly summarized. Then, the review discusses how to apply these tools to make C. necator H16 an efficient cell factory for converting CO2 to value-added products, with the examples of alcohols, fatty acids, and terpenoids. The review is concluded with the limitation of current genetic tools and perspectives on the development of more efficient and convenient methods as well as the extensive applications of C. necator H16. Conclusions Great progress has been made on genetic engineering toolkit and synthetic biology applications of C. necator H16. Nevertheless, more efforts are expected in the near future to engineer C. necator H16 as efficient cell factories for the conversion of CO2 to value-added products.
format article
author Haojie Pan
Jia Wang
Haoliang Wu
Zhongjian Li
Jiazhang Lian
author_facet Haojie Pan
Jia Wang
Haoliang Wu
Zhongjian Li
Jiazhang Lian
author_sort Haojie Pan
title Synthetic biology toolkit for engineering Cupriviadus necator H16 as a platform for CO2 valorization
title_short Synthetic biology toolkit for engineering Cupriviadus necator H16 as a platform for CO2 valorization
title_full Synthetic biology toolkit for engineering Cupriviadus necator H16 as a platform for CO2 valorization
title_fullStr Synthetic biology toolkit for engineering Cupriviadus necator H16 as a platform for CO2 valorization
title_full_unstemmed Synthetic biology toolkit for engineering Cupriviadus necator H16 as a platform for CO2 valorization
title_sort synthetic biology toolkit for engineering cupriviadus necator h16 as a platform for co2 valorization
publisher BMC
publishDate 2021
url https://doaj.org/article/d49def3b0351472a95fe97e188cefde5
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