Autotrophic growth and ethanol production enabled by diverting acetate flux in the metabolically engineered Moorella thermoacetica

K Takemura, J Kato, S Kato, T Fujii, K Wada… - Journal of bioscience …, 2021 - Elsevier
Gas fermentation is a promising biological process for the conversion of CO 2 or syngas into
valuable chemicals. Homoacetogens are microorganisms growing autotrophically using CO …
被引用次数:10 相关文章

[引用][C] Autotrophic growth and ethanol production enabled by diverting acetate flux in the metabolically engineered Moorella thermoacetica

K Takemura, J Kato, S Kato, T Fujii, K Wada… - Journal of bioscience …, 2021 - cir.nii.ac.jp
Autotrophic growth and ethanol production enabled by diverting acetate flux in the
metabolically engineered Moorella thermoacetica | CiNii Research CiNii 国立情報学研究所 …

Autotrophic growth and ethanol production enabled by diverting acetate flux in the metabolically engineered Moorella thermoacetica

K Takemura, J Kato, S Kato, T Fujii… - … of bioscience and …, 2021 - pubmed.ncbi.nlm.nih.gov
Gas fermentation is a promising biological process for the conversion of CO 2 or syngas into
valuable chemicals. Homoacetogens are microorganisms growing autotrophically using CO …

Autotrophic growth and ethanol production enabled by diverting acetate flux in the metabolically engineered Moorella thermoacetica.

K Takemura, J Kato, S Kato, T Fujii, K Wada… - Journal of Bioscience …, 2021 - europepmc.org
Gas fermentation is a promising biological process for the conversion of CO 2 or syngas into
valuable chemicals. Homoacetogens are microorganisms growing autotrophically using CO …

[引用][C] Autotrophic growth and ethanol production enabled by diverting acetate flux in the metabolically engineered Moorella thermoacetica

K Takemura, J Kato, S Kato, T Fujii, K Wada, Y Iwasaki… - 2021