乳酸
酿酒酵母
化学
生物化学
食品科学
生物物理学
细菌
酵母
生物
遗传学
作者
Baoyuan Guo,Wenwen Yu,Xianhao Xu,Yujie Liu,Yanfeng Liu,Guocheng Du,Long Liu,Xueqin Lv
标识
DOI:10.1021/acs.jafc.4c12575
摘要
l -Lactic acid is a three-carbon monocarboxylic acid that has extensive applications. However, the bioproduction of l -lactic acid requires the addition of neutralizers, which significantly increases the production costs and can cause environmental pollution. To address this, a Saccharomyces cerevisiae mutant, TMG2, which can tolerate a lactic acid environment (pH 2.60), was obtained through adaptive laboratory evolution. Subsequently, the “push–pull–restrain” strategy was used to improve l -lactic acid production, resulting in a production of 46.8 g/L l -lactic acid. Finally, by overexpressing the transport protein pPfFNT and improving the NADH and acetyl-CoA supply, the l -lactic acid titer of strain TMG27 was improved by 33.8% to 62.6 g/L. Without neutralizers, the l -lactic acid titer reached 76.2 g/L (the fermentation pH was 2.90) with a productivity of 2.1 g/(L h) in a 5-L bioreactor, representing the highest productivity ever reported. Collectively, these results lay the foundation for the environmentally friendly bioproduction of l -lactic acid.
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