生物催化因其高效和高度的立体选择性,成为手性合成最重要的方法之一。
Biocatalysis has become one of the most promising and effective methods in the asymmetric synthesis for its outstanding stereochemical specificity.
目前,手性DMAP衍生物化学的研究正成为催化不对称合成领域中一个十分活跃和引人注目的研究热点。
At present, study on the applications of chiral DMAP derivatives has been regarded as one of the most remarkable fields in catalytic asymmetric reactions.
提到生物催化,我们通常会想到外消旋物的动力学拆分和手性合成。
When considering biocatalysis, terms like kinetic racemic resolution or chiral syntheses immediately come to mind.
生物催化的还原反应能使分子内的羰基或碳-碳双键立体选择性的还原,将潜手性底物转化为手性产物,在不对称合成中有着重要的作用。
Biocatalytic reduction of the carbonyl groups or the carbon-carbon double bonds of the compounds has been utilized as a method for transforming the prochiral substrate into chiral product.
手性醇是药物合成的重要手性砌块,利用生物催化剂不对称还原羰基化合物是手性醇制备的重要方法。
Chiral alcohols are important building blocks for drug synthesis. The asymmetric reduction of carbonyl compounds with biocatalysts is an important method for producing chiral alcohols.
手性醇是药物合成的重要手性砌块,利用生物催化剂不对称还原羰基化合物是手性醇制备的重要方法。
Chiral alcohols are important building blocks for drug synthesis. The asymmetric reduction of carbonyl compounds with biocatalysts is an important method for producing chiral alcohols.
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