Results 61 to 70 of about 399 (130)

Constructing efficient bacterial cell factories to enable one‐carbon utilization based on quantitative biology: A review

open access: yesQuantitative Biology, Volume 12, Issue 1, Page 1-14, March 2024.
Abstract Developing methylotrophic cell factories that can efficiently catalyze organic one‐carbon (C1) feedstocks derived from electrocatalytic reduction of carbon dioxide into bio‐based chemicals and biofuels is of strategic significance for building a carbon‐neutral, sustainable economic and industrial system.
Yazhen Song   +9 more
wiley   +1 more source

Synthetic methylotrophy: Engineering methanol metabolism in a nonnative host

open access: yes, 2017
Methylotrophy is the ability of microorganisms to utilize one carbon compounds such as methane and methanol for growth and energy generation. The recent discovery of abundant natural gas reserves has prompted considerable interest in utilizing these ...
Bennett, R. Kyle   +1 more
core  

Growth of E. coli on formate and methanol via the reductive glycine pathway

open access: yes, 2020
Engineering a biotechnological microorganism for growth on one-carbon (C1) intermediates, produced from the abiotic activation of CO2, is a key synthetic biology step towards the valorization of this greenhouse gas to commodity chemicals.
Arren Bar-Even   +13 more
core   +1 more source

Engineering Yeast Yarrowia lipolytica for Methanol Assimilation

open access: yes
Conferring methylotrophy on industrial microorganisms would enable the production of diverse products from one-carbon feedstocks and contribute to establishing a low-carbon society.
Jonathan Dahlin (7329071)   +8 more
core   +2 more sources

DataSheet2_Engineering and adaptive laboratory evolution of Escherichia coli for improving methanol utilization based on a hybrid methanol assimilation pathway.xlsx

open access: yes, 2023
Engineering Escherichia coli for efficient methanol assimilation is important for developing methanol as an emerging next-generation feedstock for industrial biotechnology. While recent attempts to engineer E.
Zhen Chen (129176)   +2 more
core   +1 more source

DataSheet1_Engineering and adaptive laboratory evolution of Escherichia coli for improving methanol utilization based on a hybrid methanol assimilation pathway.pdf

open access: yes, 2023
Engineering Escherichia coli for efficient methanol assimilation is important for developing methanol as an emerging next-generation feedstock for industrial biotechnology. While recent attempts to engineer E.
Zhen Chen (129176)   +2 more
core   +1 more source

Presentation_1_Discovery and Biochemical Characterization of a Methanol Dehydrogenase From Lysinibacillus xylanilyticus.PPTX

open access: yes, 2020
Bioconversion of C1 chemicals such as methane and methanol into higher carbon-chain chemicals has been widely studied. Methanol oxidation catalyzed by methanol dehydrogenase (Mdh) is one of the key steps in methanol utilization in bacterial methylotrophy.
Minjeong Choi (7828244)   +12 more
core   +1 more source

Image1_Engineering and adaptive laboratory evolution of Escherichia coli for improving methanol utilization based on a hybrid methanol assimilation pathway.TIF

open access: yes, 2023
Engineering Escherichia coli for efficient methanol assimilation is important for developing methanol as an emerging next-generation feedstock for industrial biotechnology. While recent attempts to engineer E.
Zhen Chen (129176)   +2 more
core   +1 more source

Advances in synthetic methanotrophy for sustainable C1 bioconversion

open access: yes
Methane (CH4) represents an abundant source of carbon and energy with significant potential for sustainable biotechnological processes. For efficient bioconversion of CH4 into value-added products, synthetic methanotrophy has emerged as a promising ...
Lauterbach, Lars   +7 more
core   +1 more source

Mixing and matching methylotrophic enzymes to design a novel methanol utilization pathway in E. coli

open access: yes, 2020
International audienceOne-carbon (C1) compounds, such as methanol, have recently gained attention as alternative low-cost and non-food feedstocks for microbial bioprocesses.
de Simone, Alessandro   +6 more
core   +1 more source

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