Hughes Amino Acids, Peptides and Proteins in Organic Chemistry

PART I: Amino Acids as Building Blocks
 
AMINO ACID BIOSYNTHESIS
Introduction
Glutamate and Glutamine: Gateways to Amino Acid Bioynthesis
Other Amino Acids from Ubiquitous Metabolites: Pyridoxal Phosphate-Dependent Routes to Aspartate, Alanine, and Glycine
Routes to Functionalized Three-Carbon Amino Acids: Serine, Cysteine, and Selenocysteine
Other Amino Acids fron Aspartate and Glutamate: Asparagine and Side Chain Functional Group Manipulation
Aspartate and Glutamate Families of Amino Acids
Biosynthesis of Aliphatic Amino Acids with Modified Carbon Skeletons: Branched-Chain Amino Acids, Lysine, and Pyrrolysine
Biosynthesis of the Aromatic Amino Acids
Conclusions
 
HETEROCYCLES FROM AMINO ACIDS
Introduction
Heterocycles Generated by Intramolecular Cyclizations
Heterocycles Generated by Intermolecular Cyclizations
Heterocycles Generated by Cycloadditions
Conclusions
Experimental Procedures
 
RADICAL-MEDIATED SYNTHESIS OF ALPHA-AMINO ACIDS AND PEPTIDES
Introduction
Free Radical Reactions
Radical Addition to Imine Derivatives
Radical Conjugate Addition
Conclusions
Experimental Protocols
 
SYNTHESIS OF BETA-LACTAMS (CEPHALOSPORINS) BY BIOCONVERSION
Introduction
Biosynthetic Pathways of Cephalosporins and Penicillins
Production of 7-ACA by A. chrysogenum
Production of 7-ADCA by A. chrysogenum
Production of Penicillin G by A. chrysogenum
Production of Cephalosporins by P. chrysogenum
Conversion of Penicillin G and other Penicillins to DAOG by Streptomyces clavuligerus
Conclusions
 
STRUCTURE AND REACTIVITY OF BETA-LACTAMS
Introduction
Structure
Reactivity
Hydrolysis
Aminolysis
Epimerization
 
PART II: Amino Acid Coupling Chemistry
 
SOLUTION-PHASE PEPTIDE SYNTHESIS
Principle of Peptide Synthesis
Protection Procedures
Chain Elongation Procedures
Final Deprotection Methods
 
SOLID-PHASE PEPTIDE SYNTHESIS: HISTORICAL ASPECTS
Introduction
Selection of Compatible Synthetic Components
Racemization and Stepwise Peptide Assembly
Optimization of Synthetic Components
Foreshadowing of the Nobel Prize
Automation of SPPS
Impact of New Protecting Groups and Resin Linkages
Solid-Phase Organic Chemistry
Early Applications of SPPS to Small Proteins
Side-Reactions and Sequence-Dependent Problems
Rapid Expansion of Usage Leading to the Nobel Prize
From the Nobel Prize Forward to Combinatorial Chemistry
Protein Synthesis and Peptide Ligation
Conclusions
 
LINKERS FOR SOLID-PHASE PEPTIDE SYNTHESIS
Introduction
Immobilization via Carboxyl Group
Imobilization via Amino Group
Backbone Immobilization
Immobilization via Amino Acid Side-Chain
Conclusions
 
ORTHOGONAL PROTECTING GROUPS AND SIDE-REACTIONS IN Fmoc/tBu SOLID-PHASE PEPTIDE SYNTHESIS
Orthogonal Protecting Groups in Fmoc/tBu Solid-Phase Peptide Synthesis
Side-Reactions in Fmoc/tBu Solid-Phase Peptide Synthesis
 
Fmoc METHODOLOGY: CLEAVAGE FROM THE RESIN AND FINAL DEPROTECTION
Introduction
"Low" TFA-Labile Resins
"High" TFA-Labile Resins
Final Remarks
 
STRATEGY IN SOLID-PHASE PEPTIDE SYNTHESIS
Synthetic Strategies Utilizing Solid-Phase Peptide Synthesis Methods
Solid Support: Resins and Linkers
Developing the Synthetic Strategy: Selection of the Protecting Group Scheme
Resin Loading
SBS Peptide Chain Elongation: Coupling and Activation
Piperazine Formation
Solid-Phase Synthesis of Protected Peptide Segments
Fragment Condensation Approach: Convergent and Hybrid Synteses
Cleavage from the Resin and Global Peptide Deprotection
Disulfide Bond-Containing Peptides
Native Chemical Ligation (NCL)
SPPS of Peptides Modified at their C-Terminus
Side-Chain-Modified Peptides
Cyclic Peptides
Large-Scale Solid-Phase Synthesis
Conclusions
 
PEPTIDE-COUPLING REAGENTS
Introduction
Carbodiimides
Phosphonium Salts
Aminium/Uronium Salts
Fluoroformamidinium Coupling Reagents
Organophosphorus Reagents
Triazine Coupling Reagents
Mukaiyama's Reagent
Conclusions
 
CHEMOSELECTIVE PEPTIDE LIGATION: A PRIVILEGED TOOL FOR PROTEIN SYNTHESIS
Introduction
Chemoselective Peptide Ligations Following a Capture/Rearrangement Strategy
Chemical Transf