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Combinatorial chemistry and molecular diversity approaches to scientific inquiry and novel product R&D have exploded in the 1990s! For example, in the preparation of drug candidates, the automated, permutational, and combinatorial use of chemical building blocks now allows the generation and screening of unprecedented numbers of compounds. Drug discovery - better, faster, cheaper? Indeed, more compounds have been made and screened in the 1990s than in the last hundred years of pharmaceutical research. This first volume covers: (i) combinatorial chemistry, (ii) combinatorial biology and evolution, and (iii) informatics and related topics. Within each section chapters are prepared by experts in the field, including, for example, in Section I: Coverage of mixture pools vs. parallel individual compound synthesis, solution vs. solid-phase synthesis, analytical tools, and automation. Section II highlights selection strategies and library-based evolution, phage display, peptide and nucleic acid libraries. Section III covers databases and library design, high through-put screening, coding strategies vs. deconvolutions, intellectual property issues, deals and collaborations, and successes to date.
Several books on the market cover combinatorial techniques, but they offer just a limited perspective of the field, focusing on selected aspects without examining all approaches and integrated technologies. Combinatorial Chemistry and Technologies: Methods and Applications answers the demand for a complete overview of the field, covering all of the methodologies used in the design, synthesis, and screening of molecular libraries. Now in its second edition, this volume updates prior content and explores new areas such as catalysis, applications in biotechnology, and current ICS-UNIDO activities. Topics include the generation of molecular diversity by chemical methods using solution- and solid-phase chemistries, biological approaches for the production and screening of peptides, antibody and oligonucleotide libraries, and the application of computer-assisted approaches to guide library synthesis. The book establishes the link between combinatorial chemistry and molecular modeling and illustrates the importance of economics and patenting in combinatorial technologies. Valuable to technologists and researchers as an introductory survey on the many aspects of combinatorial chemistry and combinatorial technology, Combinatorial Chemistry and Technologies: Methods and Applications offers an overview of a field that promises broad applicability in the identification of new drugs, as well as in diagnostics, new materials, and catalysis.
Combinatorial chemistry and molecular diversity approaches to scientific and novel product R & D have exploded in the 1990s. For example, in the preparation of drug candidates, the automated, permutational, and combinatorial use of chemical building blocks now allows the generation and screening of unprecedented numbers of compounds. Drug discovery - better, faster, cheaper? Indeed more compounds have been made and screened in the 1990s than in the last hundred years of pharmaceutical research. The second volume in this series includes contributions on methods, solid phases, purification, analysis, carbohydrates, patent strategies and tactics, diversity profiling and combinatorial series design, and finishes with a survey of chemical libraries yielding biologically active agents and a compendium of solid phase chemistry publications. Each contribution is prepared by a recognized expert resulting in a high quality account of the recent advances in the field.
This volume aims to provide the necessary tools for developing methods and analyzing results in the drug discovery process, and supports documenting and managing the process in a combinatorial setting. It describes the chromatographic and spectroscopic techniques used to generate chemical and molecular diversity in new compounds, focusing on applications of information management systems, instrumentation, and robotics.
"Provides comprehensive coverage of the current combinatorial methodologies and technologies employed for the design, synthesis, and screening of molecular ""libraries."" Features assessments of computer-assisted approaches to guiding library synthesis. Designed to satisfy the demand to create, produce in high yield and purity, and rapidly screen huge numbers of molecules."
Progress in Medicinal Chemistry
As we enter the new millennium, combinatorial chemistry is providing significant impetus to new innovations in synthetic chemistry. Combinatorial chemistry has rapidly become the rising star among research methods, allowing scientists to efficiently test the feasibility of a multitude of new compounds. The pursuit of new drugs is but one challenging field in which these combinatorial methods are particularly advantageous, helping researchers meet the modern-day demands of a highly competitive environment. This book emphasises that modern combinatorial synthesis is possible not only in the solid phase, but also in solutions. Moreover, it discusses computer-assisted methods as well as the apparatus and instrumentation required for the combinatorial method. Successful and experienced researchers in the leading pharmaceutical companies and most renowned research institutes offer a solid insight and perspective into this diverse field. A 'must' for every scientist in the area of pharmaceutical research
The story of success goes on and on - with a new book on combinatorial chemistry, edited by Gunther Jung! Combinatorial chemistry is a proven time- and resource-saving synthetic method of outstanding importance for industrial processes. Compound libraries help to save time and money, especially in the search for new drugs, and therefore play a pivotal role in solving the problem of the worldwide increasing demand for new and more active drugs. Not only substances, which are of interest for pharmaceutical chemistry, but also materials, catalysts, and biomolecules such as DNA or oligosaccharides are readily available with high structural diversities. The broad scope of combinatorial sciences is reflected by this book, edited by Gunther Jung: The synthetic methods discussed range from solid-phase to solution-phase synthesis, from preparations of small molecules such as amines or alcohols to those of complex biomolecules. Feasible methods, efficient techniques, new trends in automation, and state-of-the-art fast instrumental analytical and screening methods are presented with many practical tips and tricks for everybody working in combinatorial chemistry. This is the book written by specialists for specialists and for everyone aspiring to become an insider! It is an indispensible source of information for researchers working in organic synthesis, catalysis, biochemistry, and biotechnology, pharmaceutical and clinical chemistry, material sciences, and analytical chemistry.
The realisation that human, animal, viral and bacterial genomes all contain over-representation of higher-order quadruplex structures in regulatory and other pharmacologically-useful regions, has led to a large number of studies aimed at exploiting this findings for therapeutic and diagnostic purposes. Quadruplex-binding small molecules are starting to be evaluated in human clinical trials. - Provides the authority and expertise of leading contributors from an international board of authors - Presents the latest release in the Annual Reports in Medicinal Chemistry series
Since the publication of the benchmark first edition of this book, chemical library and combinatorial chemistry methods have developed into mature technologies. There have also been significant shifts in emphasis in combinatorial synthesis. Reflecting the growth in the field and the heightened focus on select areas, Analytical Methods in Combinator