Comprehensive Biotechnology – 2nd Edition

Editor-in-Chief

Volume Editors

Section Editors

General Preface

Nomenclature Guidelines

Permission Acknowledgments

1.01. Introduction

1.02. Amino Acid Metabolism

Glossary

1.02.1. Introduction

1.02.2. General Properties, Classification, and Structure of Amino Acids

1.02.3. Biosynthesis of Amino Acids

1.02.4. Catabolism of Amino Acids

1.02.5. Important Biomolecules Synthesized from Amino Acids

1.03. Enzyme Biocatalysis

Glossary

1.03.1. Introduction to Enzymes

1.03.2. Enzyme Kinetics

1.03.3. Enzyme Engineering

1.03.4. Enzyme Production

1.03.5. Immobilized Enzymes

1.03.6. Enzyme Applications

1.03.7. Conclusions

1.04. Immobilized Biocatalysts

1.04.1. Introduction: Definitions and Scope

1.04.2. Applications of Immobilized Enzymes

1.04.3. Methods of Enzyme Immobilization

1.04.4. Properties of Immobilized Enzymes

1.04.5. Evaluation of Enzyme Immobilization

1.04.6. Heterogeneous Biocatalysis

1.04.7. Future Prospects for Immobilized Biocatalysts

1.05. Lipids, Fatty Acids

Glossary

1.05.1. Introduction

1.05.2. Structure of Fatty Acids

1.05.3. Nomenclature

1.05.4. Form in the Cell

1.05.5. What Do Lipids Do?

1.05.6. Biosynthesis of Fatty Acids and Lipids

1.05.7. Biochemistry of Lipid Accumulation

1.06. DNA Cloning in Plasmid Vectors

Glossary

1.06.1. Introduction

1.06.2. Cloning Vectors: Replication Origins and Partition Regions

1.06.3. Cloning Vectors: Selection Markers

1.06.4. Preparing DNA Fragments for Ligation

1.06.5. Ligation Systems

1.06.6. Methods of Bacterial and Yeast Transformation

1.06.7. Exploitation of Bacteriophage Packaging for DNA Cloning in Plasmid Vectors

1.06.8. Screening of Plasmid Clones in Bacteria for the Desired Recombinant Plasmids

1.06.9. Vector-Implemented Systems for the Direct Selection of Recombinant Plasmids

1.06.10. Direct Selection of Recombinant Plasmids Involving Restriction Enzyme Digestion of the Ligation Mixture

1.06.11. Particular Features of Oligonucleotides Cloning

1.06.12. Particular Features of Cloning of PCR Amplicons

1.06.13. Introduction of Deletions into Plasmids

1.06.14. Instability of Recombinant Plasmids

1.06.15. DNA Cloning Using Site-Specific Recombination

1.06.16. DNA Cloning Using Homologous (General) Recombination

1.06.17. Employment of Transposons for In Vivo Cloning and Manipulation of Large Plasmids

1.06.18. Conclusion

1.07. Structure and Biosynthesis of Glycoprotein Carbohydrates

Glossary

Acknowledgments

1.07.1. Introduction

1.07.2. Monosaccharide Structure

1.07.3. Oligosaccharide Structure

1.07.4. Biosynthesis of Glycoproteins

1.07.5. Glycosylation of Therapeutic Glycoproteins

1.08. Nucleotide Metabolism

Glossary

1.08.1. Introduction

1.08.2. Synthesis of Phosphoribosyl Diphosphate (PRPP)

1.08.3. Purine Biosynthesis

1.08.4. Pyrimidine Biosynthesis

1.08.5. Nucleoside Triphosphate Formation

1.08.6. Deoxyribonucleotide Biosynthesis

1.08.7. Nucleotide Salvage

1.08.8. Purine and Pyrimidine Catabolism

1.08.9. Regulation of Gene Expression in Bacterial Nucleotide Synthesis

1.08.10. Exploitation of the Knowledge of Nucleotide Metabolism in Biotechnology

1.09. Organic Acids

Glossary

1.09.1. Introduction

1.09.2. Citric Acid

1.09.3. Gluconic Acid

1.09.4. Lactic Acid

1.09.5. Itaconic Acid

1.09.6. Other Acids

1.10. Peptides and Glycopeptides

Glossary

1.10.1. Introduction

1.10.2. Peptide Hormones

1.10.3. Neuropeptides

1.10.4. Antibacterial Peptides

1.10.5. Glycosylation Is a Common and Important Post-Translational Modification of Peptides

1.10.6. Common Glycosidic Linkages

1.10.7. Peptide Synthesis

1.10.8. Glycopeptide Synthesis

1.10.9. Peptides and Glycopeptides as Models of Proteins and Glycoproteins

1.10.10. Application of Synthetic Peptides and Glycopeptides for the Treatment of Disease

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Comprehensive Biotechnology - 2nd Edition

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