Peng-Lin Wei scite author profile

Peng-Lin Wei

2Publications

50Citation Statements Received

72Citation Statements Given

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Affiliations

University of Chinese Academy of Sciences, Institute of Microbiology, Chinese Academy of Sciences

Publications

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A biocatalytic hydroxylation-enabled unified approach to C19-hydroxylated steroids

et al. 2019

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Steroidal C19-hydroxylation is pivotal to the synthesis of naturally occurring bioactive C19-OH steroids and 19-norsteroidal pharmaceuticals. However, realizing this transformation is proved to be challenging through either chemical or biological synthesis. Herein, we report a highly efficient method to synthesize 19-OH-cortexolone in 80% efficiency at the multi-gram scale. The obtained C 19 -OH-cortexolone can be readily transformed to various synthetically useful intermediates including the industrially valuable 19-OH-androstenedione, which can serve as a basis for synthesis of C19-functionalized steroids as well as 19-nor steroidal drugs. Using this biocatalytic C19-hydroxylation method, the unified synthesis of six C19-hydroxylated pregnanes is achieved in just 4 to 9 steps. In addition, the structure of sclerosteroid B is revised on the basis of our synthesis.

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Pretrichodermamide A Biosynthesis Reveals the Hidden Diversity of Epidithiodiketopiperazines

et al. 2023

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Fungal epidithiodiketopiperazines (ETPs) possess large structural diversity and complexity due to modifications of the cyclodipeptide skeleton. Elucidation of the biosynthetic pathway of pretrichodermamide A (1) in Trichoderma hypoxylon revealed a flexible catalytic machinery of multiple enzymes for generating ETP diversity. Seven tailoring enzymes encoded by the tda cluster are involved in 1 biosynthesis, that is, four P450s TdaB and TdaQ for 1,2‐oxazine formation, TdaI for C7′‐hydroxylation, and TdaG for C4, C5‐epoxidation, two methyltransferases TdaH for C6′‐ and TdaO for C7′‐O‐methylation, and a reductase TdaD for furan opening. Gene deletions led to the identification of 25 novel ETPs, including 20 shunt products, indicating the catalytic promiscuity of Tda enzymes. Particularly, TdaG and TdaD accept various substrates and catalyze regiospecific reactions at different stages of 1 biosynthesis. Our study not only uncovers a hidden library of ETP alkaloids, but also helps to understand the hidden chemical diversity of natural products by pathway manipulation.

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Peng-Lin Wei

A biocatalytic hydroxylation-enabled unified approach to C19-hydroxylated steroids

Pretrichodermamide A Biosynthesis Reveals the Hidden Diversity of Epidithiodiketopiperazines

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