Читать книгу Enzyme-Based Organic Synthesis - Cheanyeh Cheng - Страница 2

1  Cover

2  Title Page

3  Copyright Page

4  Preface

5  Acknowledgements

6  1 Introduction 1.1 Discovery and Nature of Enzyme 1.2 Enzyme Structure and Catalytic Function 1.3 Cofactors and Coenzymes 1.4 Molecular Recognition and Enzyme Specificity 1.5 Enzyme Classes and Nomenclature 1.6 Enzyme and Green Chemistry 1.8 The Winner of Year 2009: A Solvent‐Free Biocatalytic Process for Cosmetic and Personal Care Ingredients References

7  2 Organic Synthesis with Oxidoreductases 2.1 Oxidation Reactions 2.2 Reduction Reactions References

8  3 Organic Synthesis with Transferases 3.1 Transamination with Aminotransferases 3.2 Glycosyl‐transfer with glycosyltransferase 3.3 Phosphorylation with Kinases 3.4 Acetyl Group Transfer with Acetyltransferase References

9  4 Organic Synthesis with Hydrolases 4.1 Hydrolysis of Ester Bond 4.2 Hydrolysis of Amide Bond 4.3 Hydrolysis of Phosphate Esters 4.4 Hydrolysis of Epoxides 4.5 Hydrolysis of Hydantoins 4.6 Hydrolysis of Glycosidic Bonds and Natural Polysaccharide References

10  5 Organic Synthesis with Lyases 5.1 Lyases with Carbon–Carbon Bonds 5.2 Lyases with Carbon–Oxygen Bonds 5.3 Lyases with Carbon–Nitrogen Bonds 5.4 Lyases with Carbon–Sulfur Bonds 5.5 Lyases with Carbon–Halide Bonds References

11  6 Organic Synthesis with Isomerases 6.1 Racemases and Epimerases 6.2 Cis‐Trans Isomerase 6.3 Intramolecular Oxidoreductases 6.4 Intramolecular Transferases 6.5 Intramolecular Lyases References

12  7 Organic Synthesis with Ligases 7.1 Ligases for Carbon–Oxygen Bonds Formation 7.2 Ligases for Carbon–Sulfur Bonds Formation 7.3 Ligases for Carbon–Nitrogen Bonds Formation 7.4 Ligases for Carbon–Carbon Bonds Formation References

13  8 Future Perspectives 8.1 Combinatorial Enzymatic Organic Synthesis 8.2 Artificial Intelligence Assisted Enzymatic Organic Synthesis References

14  Index

15  End User License Agreement