04100nam 2200661Ia 450 991014076190332120200520144314.01-118-09946-X1-282-78286-X97866127828620-470-88220-40-470-88219-0(CKB)2670000000047093(EBL)589069(SSID)ssj0000441277(PQKBManifestationID)11925805(PQKBTitleCode)TC0000441277(PQKBWorkID)10407391(PQKB)11291148(Au-PeEL)EBL589069(CaPaEBR)ebr10419276(CaONFJC)MIL278286(PPN)19458612X(MiAaPQ)EBC589069(OCoLC)669165908(EXLCZ)99267000000004709320100706d2010 uy 0engurcn|||||||||txtccrIntroduction to protein structure prediction[electronic resource] methods and algorithms /edited by Huzefa Rangwala, George KarypisHoboken, NJ Wiley20101 online resource (532 p.)Wiley series in bioinformatics ;14Description based upon print version of record.0-470-47059-3 Includes bibliographical references and index.INTRODUCTION TO PROTEIN STRUCTURE PREDICTION: Methods and Algorithms; CONTENTS; PREFACE; CONTRIBUTORS; CHAPTER 1: INTRODUCTION TO PROTEIN STRUCTURE PREDICTION; CHAPTER 2: CASP : A DRIVING FORCE IN PROTEIN STRUCTURE MODELING; CHAPTER 3: THE PROTEIN STRUCTURE INITIATIVE; CHAPTER 4: PREDICTION OF ONE - DIMENSIONAL STRUCTURAL PROPERTIES OF PROTEINS BY INTEGRATED NEURAL NETWORKS; CHAPTER 5: LOCAL STRUCTURE ALPHABETS; CHAPTER 6: SHEDDING LIGHT ON TRANSMEMBRANE TOPOLOGY; CHAPTER 7: CONTACT MAP PREDICTION BY MACHINE LEARNINGCHAPTER 8: A SURVEY OF REMOTE HOMOLOGY DETECTION AND FOLD RECOGNITION METHODS CHAPTER 9: INTEGRATIVE PROTEIN FOLD RECOGNITION BY ALIGNMENTS AND MACHINE LEARNING; CHAPTER 10: TASSER - BASED PROTEIN STRUCTURE PREDICTION; CHAPTER 11: COMPOSITE APPROACHES TO PROTEIN TERTIARY STRUCTURE PREDICTION: A CASE - STUDY BY I - TASSER; CHAPTER 12: HYBRID METHODS FOR PROTEIN STRUCTURE PREDICTION; CHAPTER 13: MODELING LOOPS IN PROTEIN STRUCTURES; CHAPTER 14: MODEL QUALITY ASSESSMENT USING A STATISTICAL PROGRAM THAT ADOPTS A SIDE CHAIN ENVIRONMENT VIEWPOINT; CHAPTER 15: MODEL QUALITY PREDICTIONCHAPTER 16: LIGAND - BINDING RESIDUE PREDICTION CHAPTER 17: MODELING AND VALIDATION OF TRANSMEMBRANE PROTEIN STRUCTURES; CHAPTER 18: STRUCTURE - BASED MACHINE LEARNING MODELS FOR COMPUTATIONAL MUTAGENESIS; CHAPTER 19: CONFORMATIONAL SEARCH FOR THE PROTEIN NATIVE STATE; CHAPTER 20: MODELING MUTATIONS IN PROTEINS USING MEDUSA AND DISCRETE MOLECULE DYNAMICS; INDEX; colour platesA look at the methods and algorithms used to predict protein structure A thorough knowledge of the function and structure of proteins is critical for the advancement of biology and the life sciences as well as the development of better drugs, higher-yield crops, and even synthetic bio-fuels. To that end, this reference sheds light on the methods used for protein structure prediction and reveals the key applications of modeled structures. This indispensable book covers the applications of modeled protein structures and unravels the relationship between pure sequence information andWiley series on bioinformatics ;14.ProteinsStructureMathematical modelsProteinsStructureComputer simulationProteinsStructureMathematical models.ProteinsStructureComputer simulation.572/.633Rangwala Huzefa901230Karypis G(George)65765MiAaPQMiAaPQMiAaPQBOOK9910140761903321Introduction to protein structure prediction2014285UNINA