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Efficient microbial production of stylopine using a Pichia pastoris expression system.


ABSTRACT: Stylopine is a protoberberine-type alkaloid that has potential biological activities. Based on the successful microbial production of (S)-reticuline, we attempted to produce stylopine from (S)-reticuline by the reaction of berberine bridge enzyme, cheilanthifoline synthase (CYP719A5), and stylopine synthase (CYP719A2). Biosynthetic enzyme expression was examined in a methanol-utilizing yeast (Pichia pastoris), and both a "consolidated" system with all genes expressed in one cell and a "co-culture" system with three cell lines that each express a single gene were examined. Although both systems efficiently converted reticuline to stylopine, the consolidated system was more rapid and efficient than the co-culture system. However, substrate-feeding experiments revealed a decrease in the conversion efficiency in the consolidated system during successive cultures, whereas the conversion efficiency in the co-culture system remained constant. Thus, the final amount of stylopine produced from reticuline after successive feedings in the co-culture system was more than 150?nmoles from 750?nmoles of (R, S)-reticuline (375?nmoles of (S)-reticuline). The advantages and drawbacks of the "consolidated" system and the "co-culture" system are discussed.

SUBMITTER: Hori K 

PROVIDER: S-EPMC4770593 | biostudies-literature | 2016 Feb

REPOSITORIES: biostudies-literature

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Efficient microbial production of stylopine using a Pichia pastoris expression system.

Hori Kentaro K   Okano Shunsuke S   Sato Fumihiko F  

Scientific reports 20160229


Stylopine is a protoberberine-type alkaloid that has potential biological activities. Based on the successful microbial production of (S)-reticuline, we attempted to produce stylopine from (S)-reticuline by the reaction of berberine bridge enzyme, cheilanthifoline synthase (CYP719A5), and stylopine synthase (CYP719A2). Biosynthetic enzyme expression was examined in a methanol-utilizing yeast (Pichia pastoris), and both a "consolidated" system with all genes expressed in one cell and a "co-cultur  ...[more]

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