甘氨酸
产量(工程)
化学
发酵
生物化学
乙醛
试剂
醛缩酶A
酶
生物转化
组合化学
有机化学
生物合成
催化作用
酵母抽提物
代谢工程
化学合成
色谱法
下游加工
作者
Lei Chen,Zhijie Zheng,Feifei Chen,Weipeng Wang,Siqi Huo,Jiarui Li,Alei Zhang,Kequan Chen
标识
DOI:10.1186/s12934-026-02966-3
摘要
High-quality glycine is widely used in the cosmetics and pharmaceutical industries. Conventional chemical synthesis of glycine is disfavored because it relies on toxic reagents and complex downstream purification. Herein, we established an efficient two-step biosynthetic process for producing glycine from glucose. First, an l-threonine−overproducing strain was used to synthesis l-threonine via 50 L fed-batch fermentation, achieving a titer of 119.3 g/L. Then, a highly active l-threonine aldolase (PpLTA) was screened to convert l-threonine into glycine. To overcome thermodynamic and acetaldehyde inhibition constraints, an acetaldehyde elimination system was constructed via introducing ScADH1 and ScCR, which increased the molar conversion yield of glycine increased by 3.9-fold. Whole-cell catalysis gave a significantly higher conversion yield than crude enzyme preparations. A whole-cell co-expressing PpLTA, ScADH1, and ScCR was subsequently constructed. Finally, at 50 L scale, direct conversion of l-threonine fermentation broth afforded a glycine titer of 65.4 g/L within 24 h, with a molar conversion yield of 87.2%, In addition, 99.8% pure glycine was obtained with a yield of 76.6% via separation. An efficient two-step process for converting glucose to glycine was developed and successfully validated. Evaluation at the 50 L scale demonstrated record-high glycine production performance. This work provides a promising technological route for the industrial manufacture of high-quality glycine.
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