Regulated expression systems for the development of whole-cell biocatalysts expressing oxidative enzymes in a sequential manner

The use of biocatalysts in organic synthesis and, particularly, in the preparation of optically pure chemicals offers major advantages in terms of selectivity, efficiency, safety, and sustainability. Thus, research groups are becoming more interested in biocatalysis as a tool for challenging synthetic routes. Herein we focus on the different strategies and methods that chemists have designed in order to obtain enantioenriched compounds starting from prochiral or racemic derivatives using enzymes or whole cells as catalysts. In the first part of the chapter, enzymatic desymmetrizations are presented, followed by other established systems dealing with racemates to attain a single or two enantiopure derivatives in the same reaction vessel. Then, the preparation of optically pure compounds in excellent yields and enantiomeric excesses by means of deracemization techniques is discussed. Finally, some recent examples where the combination of enzymes with other (bio)catalysts has provided high-added-value targets are shown.

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Regulated expression systems for the development of whole-cell biocatalysts expressing oxidative enzymes in a sequential manner

Cited by 4 publications

References 29 publications

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Monooxygenase‐Catalyzed Redox Cascade Biotransformations

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1.2 Strategies and Methods in Biocatalysis

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