Principles of Peptide Synthesis

I. Introduction.- References of Chapter 1.- II. Activation and Coupling.- A. Activation.- B. Coupling.- C. Coupling Methods.- 1. The azide procedure.- 2. Anhydrides.- 3. Active esters.- 4. Coupling Reagents.- 5. Auxiliary Nucleophiles.- 6. Enzyme-catalyzed Formation of the Peptide Bond.- 7. A Comparison Between Various Coupling Methods.- References of Chapter II.- III. Reversible Blocking of Amino and Carboxyl Groups.- A. General Aspects.- 1. The Need for Protecting Groups.- 1. Minimal Versus Global Protection.- 3. Easily Removable Protecting Groups and Methods Used for Their Removal.- a. Reduction and Oxidation.- b. Acidolysis-Carbocation Formation.- c. Proton Abstraction (Carbanion Formation).- d. Nucleophilic Displacement.- e. Photolysis.- f. Enzyme-Catalyzed Hydrolysis.- B. Protection of the Carboxyl Group.- 1. Benzyl Esters and Substituted Benzyl Esters.- 2. Methyl Esters and Substituted Methyl Esters.- 3. Ethyl Esters and Substituted Ethyl Esters.- 4. tert. Butyl Esters and Related Compounds.- 5. Aryl Esters.- 6. Hydrazides.- C. Protection of the Amino Group.- 1. Alkyl and Alkylidene Protecting Groups..- 2. Protection by Acylation.- 3. Protection of the Amino Group in the Form of Urethanes.- a. Urethane-type Protecting Groups.- b. Introduction of Urethane-type Protecting Groups.- c. Removal of Urethane-type Protecting Groups.- 4. Protecting Groups Derived from Sulfur and Phosphorus.- References of Chapter III.- IV. Semipermanent Protection of Side Chain Functions.- A. Carboxyl Groups of Aspartyl and Glutamyl Residues.- B. Side Chain Amino Groups of Lysine and Ornithine.- C. Hydroxyl Groups in Serine, Threonine and Tyrosine.- D. The Sulfhydryl Group in Cysteine.- E. The Guanidino Group of Arginine.- F. Imidazole in Histidine.- G. The Thioether in Methionine.- H. The Indole Nitrogen in Tryptophan.- I. The Carboxamide Groups in Asparagine and Glutamine.- References of Chapter IV.- V. Side Reactions in Peptide Synthesis.- A. Side Reactions Initiated by Proton Abstraction.- 1. Racemization.- a. Mechanisms of Racemization.- b. Models for the Study of Racemization.- c. Detection of Raeemization. (Examination of Synthetic Peptides for the Presence of Diastereo-isomers.- d. Conservation of Chiral Purity.- 2. Undesired Cyclization.- 3. O-Acylation.- B. Side Reactions Initiated by Protonation.- 1. Raeemization.- 2. Undesired Cyclization.- 3. Alkylation..- 4. Chain Fragmentation.- C. Side Reactions Due to Overactivation.- D. Side Reactions Related to Individual Amino Acid Residues.- References of Chapter V.- VI. Tactics and Strategy in Peptide Synthesis.- A. Tactics.- 1. Combinations of Protecting Groups.- 2. Final Deprotection.- B. Strategies.- 1. Segment Condensation.- 2. Stepwise Synthesis Starting with the N-terminal Residue (N?C Strategy)..- 3. Stepwise Synthesis Starting with the C-terminal Residue (C?N Strategy)..- C. Disulfide Bridges.- D. Synthesis of Cyclic Peptides.- 1. Homodetic Cyclopeptides.- 2. Heterodetic Cyclopeptides.- E. Sequential Polypeptides.- F. Partial Synthesis (Semisynthesis).- References of Chapter VI.- VII. Techniques for the Facilitation of Peptide Synthesis.- A. Solid Phase Peptide Synthesis (SPPS).- 1. The Insoluble Support.- 2. The Bond Between Peptide and Polymer.- 3. Protection and Deprotection.- 4. Methods of Coupling in SPPS.- 5. Separation of the Completed Peptide Chain from the Polymeric Support.- 6. Problems in Solid Phase Peptide Synthesis.- B. Synthesis in Solution.- 1. Peptides Attached to Soluble Polymers.- 2. The "handle" Method.- 3. Synthesis "in situ".- 4. Synthesis without Isolation of Intermediates.- References of Chapter VII.- VIII. Recent Developments and Perspectives.- A. Formation of the Peptide Bond.- B. Protection.- 1. Carboxyl Groups.- 2. Temporary Protection of Amino Groups.- 3. Semipermanent Protection of Side Chain Functions.- 4. Removal of Protecting Groups.- C. Side Reactions.- D. Solid Phase Peptide Synthesis.- E. Catalysis..- References of Chapter VIII.- Author Index.