通过共表达内源和增强糖基转移酶 UGT76G1 的异源表达及其在瑞鲍迪甙生产中的转糖基化应用

Enhanced Heterologous Production of Glycosyltransferase UGT76G1 by Co-Expression of Endogenous and in and Its Transglycosylation Application in Production of Rebaudioside.

机构信息

University of Chinese Academy of Sciences, Beijing 100049, China.

Industrial Enzymes National Engineering Laboratory, Tianjin Institute of Industrial Biotechnology, Chinese Academy of Sciences, Tianjin 300308, China.

出版信息

Int J Mol Sci. 2020 Aug 11;21(16):5752. doi: 10.3390/ijms21165752.

DOI:10.3390/ijms21165752

PMID:32796599

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7460871/

Abstract

Steviol glycosides (SGs) with zero calories and high-intensity sweetness are the best substitutes of sugar for the human diet. Uridine diphosphate dependent glycosyltransferase (UGT) UGT76G1, as a key enzyme for the biosynthesis of SGs with a low heterologous expression level, hinders its application. In this study, a suitable fusion partner, Smt3, was found to enhance the soluble expression of UGT76G1 by 60%. Additionally, a novel strategy to improve the expression of Smt3-UGT76G1 was performed, which co-expressed endogenous genes and in . Notably, this is the first report of constructing an efficient expression system by regulating and expression, which remarkably improved the expression of Smt3-UGT76G1 by 200% as a consequence. Using the high-expression strain BL21 (DE3) M/P-3-S32U produced 1.97 g/L of Smt3-UGT76G1 with a yield rate of 61.6 mg/L/h by fed-batch fermentation in a 10 L fermenter. The final yield of rebadioside A (Reb A) and rebadioside M (Reb M) reached 4.8 g/L and 1.8 g/L, respectively, when catalyzed by Smt3-UGT76G1 in the practical UDP-glucose regeneration transformation system in vitro. This study not only carried out low-cost biotransformation of SGs but also provided a novel strategy for improving expression of heterologous proteins in .

摘要

甜菊糖苷（SGs）热量为零，甜度极高，是人类饮食中糖的最佳替代品。尿苷二磷酸依赖性糖基转移酶（UGT）UGT76G1 作为 SG 生物合成的关键酶，其异源表达水平低，阻碍了其应用。本研究发现，合适的融合伴侣 Smt3 可将 UGT76G1 的可溶性表达提高 60%。此外，还采用了一种提高 Smt3-UGT76G1 表达的新策略，即在中共同表达内源性基因和。值得注意的是，这是首次通过调控和表达构建高效表达系统的报道，从而使 Smt3-UGT76G1 的表达显著提高了 200%。使用高效表达菌株 BL21（DE3）M/P-3-S32U 通过 10 L 发酵罐中的分批补料发酵生产了 1.97 g/L 的 Smt3-UGT76G1，其产率为 61.6 mg/L/h。当在体外实际 UDP-葡萄糖再生转化系统中由 Smt3-UGT76G1 催化时，Reb A 和 Reb M 的最终产量分别达到 4.8 g/L 和 1.8 g/L。该研究不仅进行了低成本的 SG 生物转化，而且为中异源蛋白的表达提供了一种新策略。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/cab9/7460871/0ffff3e98a7d/ijms-21-05752-g001.jpg

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通过共表达内源 和 增强糖基转移酶 UGT76G1 的异源表达及其在瑞鲍迪甙生产中的转糖基化应用

Enhanced Heterologous Production of Glycosyltransferase UGT76G1 by Co-Expression of Endogenous and in and Its Transglycosylation Application in Production of Rebaudioside.

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通过共表达内源和增强糖基转移酶 UGT76G1 的异源表达及其在瑞鲍迪甙生产中的转糖基化应用