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Phage Display
Phage-display technology has begun to make critical contributions to the study of molecular recognition. DNA sequences are cloned into phage, which then present on their surface the proteins encoded by the DNA. Individual phage are rescued through interaction of the displayed protein with a ligand, and the specific phage is amplified by infection of bacteria. Phage-display technology is powerful but challenging and the aim of this manual is to provide comprehensive instruction in its theoretical and applied so that any scientist with even modest molecular biology experience can effectively employ it. The manual reflects nearly a decade of experience with students of greatly varying technical expertise andexperience who attended a course on the technology at Cold Spring Harbor Laboratory. Phage-display technology is growing in importance and power. This manual is an unrivalled source of expertise in its execution and application.
Directory of Graduate Research
Faculties, publications and doctoral theses in departments or divisions of chemistry, chemical engineering, biochemistry and pharmaceutical and/or medicinal chemistry at universities in the United States and Canada.
Phage Display In Biotechnology and Drug Discovery
The first and only guide to showcase the impact of phage display technology on drug discovery, this reference details the theories, principles, and methods impacting the field and demonstrates applications for peptide phage display, protein phage display, and the development of novel antibodies. Highlighting the current and future role of phage dis
Enantioselective Organocatalysis
In this reference leaders at the forefront of research provide an insight into one of the hottest topics in organic synthesis, focusing on the most important enantioselective reactions. Clearly structured, each entry begins with a concise introduction, including a mechanistic discussion of the reaction, followed by preparative guidelines for newcomers, such as carefully selected working procedures with critical notes for bench chemists, rules of thumb and tips and tricks.
Dienamine Catalysis for Organic Synthesis
In the last decade a new era in asymmetric catalysis has been realised by the discovery of L-proline induced chiral enamines from carbonyls. Inspired by this, researchers have developed many other primary catalytic species in situ, more recently secondary catalytic species such as aminals have been identified for use in asymmetric synthesis. High-yielding asymmetric synthesis of bioactive and natural products through mild catalysis is an efficient approach in reaction engineering. In the early days, synthetic chemists mainly focused on the synthesis of complex molecules, with less attention on the reaction efficiency and eco-friendly conditions. Recent investigations have been directed towards the development of atom economy, eco-friendly and enantioselective synthesis for more targeted and efficient synthesis. Building on the momentum of this rapidly expanding research area, Dienamine catalysis for organic synthesis will provide a comprehensive introduction, from the preformed species, in situ generation and onto their applications in the synthesis of bioactive molecules and natural products.
Organic Synthesis
The second volume in a series, Organic Synthesis: State of the Art 2005-2007 will provide you with a convenient, compact summary of the state of the art of organic synthesis. This reference guide will quickly lead you to the most important recent developments like how scientists can now prepare ketones by directly combining aldehydes with terminal alkenes. Inside, you will find detailed analysis of more than twenty total syntheses, including the Davies Synthesis of (-)-Colombiasin A and (-)-Elisapterosin B, the Overman Synthesis of (-)-Sarain A, and the Sorensen Synthesis of (-)-Guanacastepene E.
Evolutionary Approaches to Protein Design
This is the first high-quality, comprehensive overview of the field of evolutionary protein design. Topics include new protein design strategies, the structures of laboratory-evolved proteins, the evolution of non-natural enzyme functions, and the theory of laboratory evolution.
Salmonella
This book presents detailed methods on a variety of aspects of Salmonella research, focusing on those which provide landmarks for future discovery. It is the first comprehensive volume of methods and protocols for studying Salmonella and will be indispensable to researchers engaged in the study of Salmonella, and enterobacteria in general. Each chapter provides a short overview of the topic, followed by detailed explanations of techniques.
