Introduction / 1: |
Designing Enantioselective Reactions / 2: |
Kinetic Resolutions / 2.1: |
Asymmetric Syntheses / 2.2: |
Choosing Reaction Media: Water and Organic Solvents / 3: |
Hydrolysis in Water / 3.1: |
Transesterifications and Condensations in Organic Solvents / 3.2: |
Other Reaction Media / 3.3: |
Immobilization / 3.4: |
Protein Sources and Optimization of Biocatalyst Performance / 4: |
Accessing Biodiversity / 4.1: |
Creating Improved Biocatalysts / 4.2: |
Catalytic Promiscuity in Hydrolases / 4.3: |
Lipases and Esterases / 5: |
Availability, Structures and Properties / 5.1: |
Survey of Enantioselective Lipase-Catalyzed Reactions / 5.2: |
Chemo-and Regioselective Lipase-Catalyzed Reactions / 5.3: |
Reactions Catalyzed by Esterases / 5.4: |
Proteases and Amidases / 6: |
Occurrence and Availability of Proteases and Amidases / 6.1: |
General Features of Subtilisin, Chymotrypsin, and Other Proteases and Amidases / 6.2: |
Structures of Proteases and Amidases / 6.3: |
Survey of Enantioselective Protease-and Amidase-Catalyzed Reactions / 6.4: |
Phospholipases / 7: |
Phospholipase A 1 / 7.1: |
Phospholipase A 2 / 7.2: |
Phospholipase C / 7.3: |
Phospholipase D / 7.4: |
Epoxide Hydrolases / 8: |
Mammalian Epoxide Hydrolases / 8.1: |
Microbial Epoxide Hydrolases / 8.3: |
Hydrolysis of Nitriles / 9: |
Mild Conditions / 9.1: |
Regioselective Reactions of Dinitriles / 9.3: |
Enantioselective Reactions / 9.4: |
Other Hydrolases / 10: |
Glycosidases / 10.1: |
Haloalcohol Dehalogenases / 10.2: |
Phosphotriesterases / 10.3: |
Abbreviations |
References |
Index |
Introduction / 1: |
Designing Enantioselective Reactions / 2: |
Kinetic Resolutions / 2.1: |
Asymmetric Syntheses / 2.2: |
Choosing Reaction Media: Water and Organic Solvents / 3: |
Hydrolysis in Water / 3.1: |