Engineered methane biocatalysis: strategies to assimilate methane for chemical production

• Published in: Current opinion in biotechnology Vol. 85; p. 103031
• Main Authors: Kang, Nam Kyu, Chau, Tin Hoang Trung, Lee, Eun Yeol
• Format: Journal Article
• Language: English
• Published: England Elsevier Ltd 01.02.2024
• Subjects: Biocatalysis; Metabolic Engineering; Methane - metabolism; Xylose
• ISSN: 0958-1669; 1879-0429
• DOI: 10.1016/j.copbio.2023.103031

Methane (CH4), one of the greenhouse gases, is considered a promising feedstock for the biological production of fuels and chemicals. Although recent studies have demonstrated the capability of methanotrophs to convert CH4 into various bioproducts by metabolic engineering, the productivity has not reached commercial levels. As such, there is a growing interest in synthetic methanotrophic systems as an alternative. This review summarizes the strategies for enhancing native CH4 assimilation and discusses the challenges for the construction of synthetic methanotrophy into nonmethanotrophic industrial strains. Additionally, we suggest a mixed heterotrophic approach that integrates CH4 assimilation with glucose and xylose metabolism to improve productivity. The synthetic methanotrophic system presented in this review could pave the way for sustainable and efficient biomanufacturing using CH4. [Display omitted] •Synthetic methanotrophy systems for chemical production are discussed.•Current CH4-derived chemical production in methanotrophs is not efficient.•Engineering CH4-oxidation related enzymes is crucial for effective CH4 conversion.•Integrating CH4 and sugar metabolism is required for industrial production.