Coupling the Isopentenol Utilization Pathway and Prenyltransferase for the Biosynthesis of Licoflavanone in Recombinant Escherichia coli .
Xuxuan ZhangWeilin YaoYuanyuan TangJu YeTengfei NiuLi YangRufeng WangZheng-Tao WangPublished in: Journal of agricultural and food chemistry (2024)
Prenylflavonoids are promising candidates for food additives and functional foods due to their diverse biological activities and potential health benefits. However, natural prenylflavonoids are generally present in low abundance and are limited to specific plant species. Here, we report the biosynthesis of licoflavanone from naringenin and prenol by recombinant Escherichia coli . By investigating the activities of seven different sources of prenyltransferases overexpressed in E. coli toward various flavonoid substrates, the prenyltransferase AnaPT exhibits substrate preference when naringenin serves as the prenyl acceptor. Furthermore, licoflavanone production was successfully achieved by coupling the isopentenol utilization pathway and AnaPT in recombinant E. coli . In addition, the effects of fermentation temperatures, induction temperatures, naringenin concentrations, and substrate feeding strategies were investigated on the biosynthesis of licoflavanone in recombinant E. coli . Consequently, the recombinant E. coli strain capable of improved dimethylallyl diphosphate (DMAPP) supply and suitable for prenylflavonoid biosynthesis increased licoflavanone titers to 142.1 mg/L in a shake flask and to 537.8 mg/L in a 1.3 L fermentor, which is the highest yield for any prenylflavonoids reported to date. These strategies proposed in this study provide a reference for initiating the production of high-value prenylflavonoids.