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In Bioinformatics, leading researchers in the field provide a selection of the most useful and widely applicable methods, able to be applied as is, or with minor variations, to many specific problems. Volume II: Structure, Function and Applications contains methods pertinent to the prediction of protein and RNA structures and the analysis and classification of structures, methods for inferring the function of previously identified genomic elements, chiefly protein-coding genes, medical applications in diagnostics and drug discovery, and "meta-methods" for developers of bioinformatics algorithms. Over 80 authors from around the globe have contributed to the two volumes, including many leading experts, representing an inter-disciplinary collaboration involving biologists, biochemists, physicists, mathematicians, statisticians and computer scientists.
Encompasses topics from across the diverse field of bioinformatics through its broad scope approach Over 80 authors from around the globe contribute to the two volumes, including many leading experts in their respective subjects An inter-disciplinary collaboration involving biologists, biochemists, physicists, mathematicians, statisticians and computer scientists Contains simplified descriptions, requiring a minimum of background knowledge, amenable to students and beginners in bioinformatics References a wide variety of software tools and scripts, available online Includes supplementary material: sn.pub/extras
Inhalt
Structures.- UNAFold.- Protein Structure Prediction.- An Introduction to Protein Contact Prediction.- Analysis of Mass Spectrometry Data in Proteomics.- The Classification of Protein Domains.- Inferring Function.- Inferring Function from Homology.- The Rosetta Stone Method.- Inferring Functional Relationships from Conservation of Gene Order.- Phylogenetic Profiling.- Phylogenetic Shadowing.- Prediction of Regulatory Elements.- Expression and Microarrays.- Identifying Components of Complexes.- Integrating Functional Genomics Data.- Applications and Disease.- Computational Diagnostics with Gene Expression Profiles.- Analysis of Quantitative Trait Loci.- Molecular Similarity Concepts and Search Calculations.- Optimization of the MAD Algorithm for Virtual Screening.- Combinatorial Optimization Models for Finding Genetic Signatures from Gene Expression Datasets.- Genetic Signatures for a Rodent Model of Parkinson's Disease Using Combinatorial Optimization Methods.- Analytical and Computational Methods.- Developing Fixed-Parameter Algorithms to Solve Combinatorially Explosive Biological Problems.- Clustering.- Visualization.- Constructing Computational Pipelines.- Text Mining.