1282033-75-3Relevant academic research and scientific papers
A new monooxygenase from: Herbaspirillum huttiense catalyzed highly enantioselective epoxidation of allylbenzenes and allylic alcohols
Lin, Hui,Tang, Yanhong,Dong, Shuang,Lang, Ruibo,Chen, Hongge
, p. 2145 - 2151 (2020/04/17)
Asymmetric epoxidation is a green route to enantiopure epoxides, but often suffers from low enantioselectivity toward unconjugated terminal alkenes. Mining of the NCBI non-redundant protein sequences with a reconstructed ancestral sequence based on six st
Synthesis of enantiopure glycidol derivatives via a one-pot two-step enzymatic cascade
Liu, Yu-Chang,Liu, Yan,Wu, Zhong-Liu
, p. 2146 - 2152 (2015/03/05)
Styrene monooxygenase (SMO) can catalyze the kinetic resolution of secondary allylic alcohols to provide enantiopure glycidol derivatives. To overcome the low theoretical yield of kinetic resolution, we designed a one-pot two-step enzymatic cascade using prochiral α,β-unsaturated ketones as the substrates. An S-specific ketoreductase ChKRED03 was screened for the efficient bioreduction of the substrates to provide (S)-allylic alcohols, which underwent SMO-catalyzed epoxidation to achieve glycidol derivatives with contiguous stereogenic centers. Excellent enantioselectivity (ee > 99%) and diastereoselectivity (de > 99%) were achieved for the majority of the substrates, and product yields reached up to >99%. This journal is
Highly diastereo- and enantio-selective epoxidation of secondary allylic alcohols catalyzed by styrene monooxygenase
Lin, Hui,Liu, Yan,Wu, Zhong-Liu
, p. 2610 - 2612 (2011/04/26)
Enantiomerically enriched glycidol derivatives with contiguous stereogenic centers were obtained in a highly diastereo- and enantio-selective epoxidation catalyzed with the styrene monooxygenase StyAB2.
