生物制造
雅罗维亚
代谢工程
生物过程工程
生物过程
商业化
生化工程
合成生物学
生物技术
工业微生物学
工业生物技术
生物炼制
生物制药
生物
工程类
业务
计算生物学
生物化学
酵母
生物燃料
古生物学
营销
酶
发酵
作者
Mei-Li Sun,Xiaoxia Gao,Lu Lin,Jing Yang,Rodrigo Ledesma‐Amaro,Xiao‐Jun Ji
标识
DOI:10.1021/acs.jafc.3c07889
摘要
Microbial cell factories have shown great potential for industrial production with the benefit of being environmentally friendly and sustainable. Yarrowia lipolytica is a promising and superior non-model host for biomanufacturing due to its cumulated advantages compared to model microorganisms, such as high fluxes of metabolic precursors (acetyl-CoA and malonyl-CoA) and its naturally hydrophobic microenvironment. However, although diverse compounds have been synthesized in Y. lipolytica cell factories, most of the relevant studies have not reached the level of industrialization and commercialization due to a number of remaining challenges, including unbalanced metabolic flux, conflict between cell growth and product synthesis, and cytotoxic effects. Here, various metabolic engineering strategies for solving the challenges are summarized, which is developing fast and extremely conducive to rational design and reconstruction of robust Y. lipolytica cell factories for advanced biomanufacturing. Finally, future engineering efforts for enhancing the production efficiency of this platform strain are highlighted.
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