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result of advances in asymmetric synthesis and separation technologies, there were many cases in using the stereospecificity of enzyme for the production of single enantiomer to allow the study of its pharmacodynamics and pharmacokinetic properties. For example, in the case of total synthesis of D‐biotin, the novel enantioselective synthesis of the optically active (3aS,6aR)‐lactone (the key D‐biotin intermediate) was through kinetic resolution by inexpensive microbial lipase instead of pig liver esterase [26]. In Scheme 1.4, optically active (3aS,6aR)‐lactone 1 was enantioselectively produced with high enantiomeric excess.

Schematic illustration of three-point attachment rule shows that only one enantiomer of the asymmetric molecule can successfully bind with enzyme at the active site to produce the stereospecificity of enzyme. Schematic illustration of the stereospecificity of enzyme for two substrate enantiomers by two-point binding. Chemical reaction depicting enantioselective synthesis of (3aS,6aR)-lactone. Chemical reaction depicting the enantioselective conversion of HPMAE to (S)-phenylephrine.

      Source: Lin et al. [27].

Chemical reaction depicting regio- and stereoselective concurrent oxidations of racemic vicinal diols to enantiopure 1,2-diols.

      Since Duclaux proposed that all enzymes should give the suffix “ase” for an easy recognition [3], the suffix “ase” has been added to the name of many enzymes according to their substrate or to a word or phrase for describing the activity. For example, glucose oxidase catalyzes the oxidation of glucose to produce gluconolactone, and cellulase catalyzes the hydrolysis of cellulose to form glucose. However, enzymes such as pepsin and trypsin have names that do not relate with their substrates or functions. Because more and more enzymes are discovered accompanied with the progress of scientific researches, the name of new enzyme may have two or more names, or two different enzymes may be given the same name. To avoid the ambiguity for naming enzymes, a systematic method for naming and classifying enzymes should be used and agreed globally.

      Source: Based on Armstrong [2]; Nelson and Cox [9]; Kula [30].

No. Class Catalytic function or reaction
1 Oxidoreductases Transfer of electrons (hydride ions or H atoms), e.g. Chemical reaction depicting the transfer of electrons.
2 Transferases Group‐transfer reactions, e.g. Chemical reaction depicting group-transfer reactions.
3 Hydrolases Hydrolysis reactions (transfer of functional groups to water), e.g. Chemical reaction depicting the transfer of functional groups to water.
4 Lyases Addition of groups to double bonds, or formation of double bonds by removal of groups, e.g. Chemical reaction depicting the addition of groups to double bonds, or formation of double bonds by removal of groups.
5 Isomerases Transfer of groups within molecules to yield isomeric forms, e.g. Chemical 
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