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Zusatztext it is more than successful, and most, if not all, who dip into it will be rewarded by learning things they did not know, or possibly had forgotten...[..] a book that will surely find its place in every crystallographic lab whether protein or macromolecular. Informationen zum Autor Mark Sanderson is an experienced protein and nucleic-acid crystallographer and co-editor of Methods in Molecular Biology, who has solved several key ab initio structures, notably nucleic-acid proteins.Jane Skelly has widespread experience in the expression and crystallisation of macromolecules.Both editors lecture undergraduates in structural biology. Klappentext Macromolecular crystallography is the study of macromolecules using X-ray crystallographic techniques to determine their molecular structure. This title synthesises contributions from a team of internationally recognized leaders, offering chapters on conventional and high-throughput methods. Zusammenfassung Macromolecular Crystallography is the study of macromolecules (proteins and nucleic acids) using X-ray crystallographic techniques in order to determine their molecular structure. The knowledge of accurate molecular structures is a pre-requisite for rational drug design, and for structure-based function studies to aid the development of effective therapeutic agents and drugs. The successful determination of the complete genome (genetic sequence) of several species (including humans) has recently directed scientific attention towards identifying the structure and function of the complete complement of proteins that make up that species; a new and rapidly growing field of study called 'structural genomics'. There are now several important and well-funded global initiatives in operation to identify all of the proteins of key model species. One of the main requirements for these initiatives is a high-throughput crystallization facility to speed-up the protein identification process. The extent to which these technologies have advanced, calls for an updated review of current crystallographic theory and practice. This practical reference book features the latest conventional and high-throughput methods, and includes contributions from a team of internationally recognized leaders and experts. It will be of relevance and use to graduate students, research scientists and professionals currently working in the field of conventional and high-throughput macromolecular crystallography. Inhaltsverzeichnis 1: Skelly, Sohi and Batuwangala: Classical Cloning, Expression and Purification 2: Owens, Nettleship, Berrow, Stuart and Stammers: High-Throughput Cloning, Expression and Purification 3: Chayen: Automation of Non-Conventional Crystallization Techniques for Screening and Optimisation 4: Abdel-Meguid, Jeruzalmi and Sanderson: First Analysis of Macromolecular Crystals 5: Sanderson: In-House Macromolecular Data Collection 6: Abdel-Meguid: Solving the Phase Problem Using Isomorphous Replacement 7: Delarue: Molecular Replacement Techniques for High-Throughput Structure Determination 8: Murthy: MAD Phasing 9: Weeks and Furey: Application of Direct Methods to Macromolecular Structure Solution 10: Abrahams: Phase Refinement through Density Modification 11: Morris, Perrakis and Lamzin: Getting a Macromolecular Model: Model Building, Refinement and Validation 12: Wasserman, Smith, D'Amico, Koss, Morisco, and Burley: High-Throughput Crystallographic Data Collection at Synchrotrons 13: Carson: Electron Density Fitting and Structure Validation 14: Masquida, Francois, Werner and Westhof: RNA Crystallogenesis 15: Sohi and Laponogov: Crystallography in the Study of Protein-DNA Interaction 16: Fry, Abrescia and Stuart: Virus Crystallography 17: Abdel-Meguid: Macromolecular Crystallography in Drug Design ...
