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Revised and updated, Chemical Reagents for Protein Modification, Third Edition is an encyclopedic work describing the many approaches to the site-specific modification of proteins. More than 2,000 references are cited describing the development of the various reagents. This book explores how the use of site-specific protein modification relates to a wide variety of biotechnology processes and products, such as protein microarrays, hydrogels, controlled-release pharmaceuticals, and biotherapeutics, and proteomics. With chapters focusing on analyses of individual amino acids, additional chapters cover chemical cross-linking and the chemical cleavage of peptide chains. There is considerable reference to the use of site-specific chemical modification in proteomics. The author pays particular attention to the general environmental factors that influence the reactivity of individual amino acid residues. He presents techniques for the characterization of modified proteins, including mass spectrometry, and includes increased coverage of spectroscopic techniques and crystallographic analyses. This is followed by coverage of nitrosylation reactions and other non-enzymatic modification processes. Specific reference is given to the differential labeling of protein functional groups with reagents labeled with stable isotopes. Resources include a list of current journals that publish site-specific chemical modification studies, the most commonly used reagents and their properties, and a contact list of reagent suppliers. Chemical Reagents for Protein Modification, 3rd Edition presents the most frequently used methods for the site-specific chemical modification of proteins, techniques for protein characterization, precise laboratory data for factors that influence reactivity and reproducibility, and industry-specific resources.
Bioconjugate Techniques, 2nd Edition, is the essential guide to the modification and cross linking of biomolecules for use in research, diagnostics, and therapeutics. It provides highly detailed information on the chemistry, reagent systems, and practical applications for creating labeled or conjugate molecules. It also describes dozens of reactions with details on hundreds of commercially available reagents and the use of these reagents for modifying or cross linking peptides and proteins, sugars and polysaccharides, nucleic acids and oligonucleotides, lipids, and synthetic polymers. A one-stop source for proven methods and protocols for synthesizing bioconjugates in the lab Step-by-step presentation makes the book an ideal source for researchers who are less familiar with the synthesis of bioconjugates More than 600 figures that visually describe the complex reactions associated with the synthesis of bioconjugates Includes entirely new chapters on the latest areas in the field of bioconjugation as follows: Microparticles and nanoparticlesSilane coupling agentsDendrimers and dendronsChemoselective ligationQuantum dotsLanthanide chelatesCyanine dyesDiscrete PEG compoundsBuckyballs,fullerenes, and carbon nanotubesMass tags and isotope tagsBioconjugation in the study of protein interactions
The use of the chemical modification of proteins has evolved over the past 80 years, benefiting from advances in analytical, physical, and organic chemistry. Over the past 30 years, the use of chemical reagents to modify proteins has been crucial in determining the function and structure of purified proteins. This groundbreaking work is part of the foundation of emerging disciplines of proteomics, chemical biology, structure biology, and chemical proteomics. Chemical Reagents for Protein Modification, Fourth Edition provides a comprehensive review of reagents used for the chemical modification of proteins, representing a major revision of the work presented in previous editions. The completely updated Fourth Edition is substantially larger and includes five new chapters: Alkylating Agents Acylating Agents Nitration and Nitrosylation Oxidation Modification of Proteins with Reducing Agents There is greatly increased coverage of the chemical modification of cysteine, which is critical for bioconjugate synthesis. The chapter on reduction also provides information necessary for bioconjugate synthesis as well as for the processing of inclusion bodies. The book places emphasis on conditions that affect the specificity of the chemical modification of proteins, such as solvent and temperature. The format has been markedly revised, presenting information based on the chemical nature of the modifying material and on the amino acid residue modified. This new version has increased significance to biopharmaceuticals. Much of the information is in tabular form, which enables the rapid location of cited material.
First published in 1991, Chemical Reagents for Protein Modification, 2nd Edition provides a unique combination of theoretical and practical considerations for the use of chemical reagents for site-specific modification of proteins. The book is divided into three sections, with the first section describing general techniques, including information on the organic chemistry of the various modification reactions; the separation and characterization of site-specific modified proteins, including applications to proteins separated by electrophoresis followed by blotting; the specific chemical cleavage of peptide bonds in proteins; the separation of peptides by high-performance liquid chromatography and electrophoresis; and the use of chemical reagents to assess conformational change in proteins. The second section provides an encyclopedic description of reagents and reactions for the site-specific modification of individual amino acid residues in proteins. The final section presents descriptions of the use of chemical reagents to label biologically significant sites in proteins, including enzyme active sites and the use of covalent cross-linking to measure protein-protein interactions. Particular emphasis is placed on the use of photoaffinity reagents. The book will be an extremely useful research tool for all investigators interested in the solution chemistry of proteins.
Since the publication of the first edition of Chemistry of Protein Conjugation and Cross-Linking in 1991, new cross-linking reagents, notably multifunctional cross-linkers, have been developed and synthesized. The completion of the human genome project has opened a new area for studying nucleic acid and protein interactions using nucleic acid cross-linking reagents, and advances have also been made in the area of biosensors and microarray biochips for the detection and analysis of genes, proteins, and carbohydrates. In addition, developments in physical techniques with unprecedented sensitivity and resolution have facilitated the analysis of cross-linked products. Updated to reflect the advances of the 21st century, this book offers: An overview of the chemical principles underlying the processes of cross-linking and conjugation A thorough list of cross-linking reagents published in the literature since the first edition, covering monofunctional, homobifunctional, heterobifunctional, multifunctional, and zero-length cross-linkers Reviews of the use of these reagents in studying protein tertiary structures, geometric arrangements of subunits within complex proteins and nucleic acids, near-neighbor analysis, protein-to-protein or ligand–receptor interactions, and conformational changes of biomolecules Discusses the application of immunoconjugation for immunoassays, immunotoxins for targeted therapy, microarray technology for analysis of various biomolecules, and solid state chemistry for immobilizations
First published in 1991, Chemical Reagents for Protein Modification, 2nd Edition provides a unique combination of theoretical and practical considerations for the use of chemical reagents for site-specific modification of proteins. The book is divided into three sections, with the first section describing general techniques, including information on the organic chemistry of the various modification reactions; the separation and characterization of site-specific modified proteins, including applications to proteins separated by electrophoresis followed by blotting; the specific chemical cleavage of peptide bonds in proteins; the separation of peptides by high-performance liquid chromatography and electrophoresis; and the use of chemical reagents to assess conformational change in proteins. The second section provides an encyclopedic description of reagents and reactions for the site-specific modification of individual amino acid residues in proteins. The final section presents descriptions of the use of chemical reagents to label biologically significant sites in proteins, including enzyme active sites and the use of covalent cross-linking to measure protein-protein interactions. Particular emphasis is placed on the use of photoaffinity reagents. The book will be an extremely useful research tool for all investigators interested in the solution chemistry of proteins.
This exciting laboratory support book encompasses the encyclopedic coverage of the most frequently used methods for the site-specific chemical modification of proteins. In a concise manner, it presents methods for the characterization of modified proteins, including: amino acid analysis protein sequence analysis chemical cleavage of protein chains chromatographic separation of peptides It also discusses various approaches to the determination of solution protein concentration. It includes a complete literature survey of the various reagents, a list of the most commonly used reagents with their physical and chemical properties, and a list of preferred reagent suppliers.
Largely driven by major improvements in the analytical capability of mass spectrometry, proteomics is being applied to broader areas of experimental biology, ranging from oncology research to plant biology to environmental health. However, while it has already eclipsed solution protein chemistry as a discipline, it is still essentially an extension
Organic chemists working on the synthesis of natural products have long found a special challenge in the preparation of peptides and proteins. However, more reliable, more efficient synthetic preparation methods have been developed in recent years. This reference evaluates the most important synthesis methods available today, and also considers methods that show promise for future applications. This text describes the state of the art in efficient synthetic methods for the synthesis of both natural and artificial large peptide and protein molecules. Subjects include an introduction to basic topics, linear solid-phase synthesis of peptides, peptide synthesis in solution, convergent solid-phase synthesis, methods for the synthesis of branched peptides, formation of disulfide bridges, and more. The book emphasizes strategies and tactics that must be considered for the successful synthesis of peptides.