Combinatorial Chemistry: Synthesis and Application
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More About This Title Combinatorial Chemistry: Synthesis and Application
English
The new time-saving revolution in drug discovery.
Combinatorial chemistry, a method for synthesizing millions of chemical compounds much faster than usual, is becoming one of the most useful technical tools available to chemists and researchers working today. Using current advances in computer and laboratory techniques, combinatorial chemistry has freed professionals from the drudgery of piecemeal experimental work and opened new creative possibilities for experimentation.
Combinatorial Chemistry: Synthesis and Application details critical aspects of the technique, featuring the work of some of the world's leading chemists, many of whom played a key role in its development. Including examples of both solution-phase and solid-phase approaches as well as the full complement of organic chemistry technologies currently available, the book describes:
* Concepts and terms of combinatorial chemistry
* Polymer-supported synthesis of organic compounds
* Macro beads as microreactors
* Solid-phase methods in combinatorial chemistry
* Encoded combinatorial libraries, including Rf-encoding of synthesis beads
* Strategies for combinatorial libraries of oligosaccharides
* Combinatorial libraries of peptides, proteins, and antibodies using biological systems.
While combinatorial chemistry originated in peptide chemistry, this volume has deliberately focused on nonpeptide organic applications, illustrating the technique's wide uses. Combinatorial Chemistry introduces organic, medicinal, and pharmaceutical chemists as well as biochemists to this exciting, cost-effective, and practical technique, which has unlocked creative potential for the next millennium.
Combinatorial chemistry, a method for synthesizing millions of chemical compounds much faster than usual, is becoming one of the most useful technical tools available to chemists and researchers working today. Using current advances in computer and laboratory techniques, combinatorial chemistry has freed professionals from the drudgery of piecemeal experimental work and opened new creative possibilities for experimentation.
Combinatorial Chemistry: Synthesis and Application details critical aspects of the technique, featuring the work of some of the world's leading chemists, many of whom played a key role in its development. Including examples of both solution-phase and solid-phase approaches as well as the full complement of organic chemistry technologies currently available, the book describes:
* Concepts and terms of combinatorial chemistry
* Polymer-supported synthesis of organic compounds
* Macro beads as microreactors
* Solid-phase methods in combinatorial chemistry
* Encoded combinatorial libraries, including Rf-encoding of synthesis beads
* Strategies for combinatorial libraries of oligosaccharides
* Combinatorial libraries of peptides, proteins, and antibodies using biological systems.
While combinatorial chemistry originated in peptide chemistry, this volume has deliberately focused on nonpeptide organic applications, illustrating the technique's wide uses. Combinatorial Chemistry introduces organic, medicinal, and pharmaceutical chemists as well as biochemists to this exciting, cost-effective, and practical technique, which has unlocked creative potential for the next millennium.
English
Stephen R. Wilson is Professor of Chemistry at New York University. He is also founder and President of Sphere Biosystems, Inc., in New Jersey, a biotech company based on fullerene combinatorial chemistry technology.
Anthony W. Czarnik is Senior Director of Chemistry at IRORI Quantum Microchemistry in La Jolla, California, and formerly Director of BioOrganic Chemistry at Parke-Davis Pharmaceutical Research.
Anthony W. Czarnik is Senior Director of Chemistry at IRORI Quantum Microchemistry in La Jolla, California, and formerly Director of BioOrganic Chemistry at Parke-Davis Pharmaceutical Research.
English
Partial table of contents:
Parallel Organic Synthesis Using Parke-Davis Diversomer Technology (S. DeWitt & A. Czarnik).
Polymer-Supported Synthesis of Organic Compounds and Libraries (M. Kurth).
Macro Beads as Microreactors: New Solid- Phase Synthesis Methodology (W. Rapp).
Combinatorial Libraries in Solution: Polyfunctionalized Core Molecules (E. Wintner & J. Rebek).
Solid-Phase Methods in Combinatorial Chemistry (I. Sucholeiki).
Combinatorial Synthesis Exploiting Multiple-Component Condensations, Microchip Encoding, and Resin Capture (R. Armstrong, et al.).
Indexed Combinatorial Libraries: Nonoligomeric Chemical Diversity for the Discovery of Novel Enzyme Inhibitors (M. Pirrung, et al.).
Combinatorial Libraries of Peptides, Proteins, and Antibodies Using Biological Systems (S. Benkovic, et al.).
Index.
Parallel Organic Synthesis Using Parke-Davis Diversomer Technology (S. DeWitt & A. Czarnik).
Polymer-Supported Synthesis of Organic Compounds and Libraries (M. Kurth).
Macro Beads as Microreactors: New Solid- Phase Synthesis Methodology (W. Rapp).
Combinatorial Libraries in Solution: Polyfunctionalized Core Molecules (E. Wintner & J. Rebek).
Solid-Phase Methods in Combinatorial Chemistry (I. Sucholeiki).
Combinatorial Synthesis Exploiting Multiple-Component Condensations, Microchip Encoding, and Resin Capture (R. Armstrong, et al.).
Indexed Combinatorial Libraries: Nonoligomeric Chemical Diversity for the Discovery of Novel Enzyme Inhibitors (M. Pirrung, et al.).
Combinatorial Libraries of Peptides, Proteins, and Antibodies Using Biological Systems (S. Benkovic, et al.).
Index.
