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REPETITIVE SEQUENCES, NUCLEIC ACID --- NUCLEIC ACID STRUCTURE
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'Introduction to Protein Structure' gives an up-to-date account of the principles of protein structure, with examples of key proteins in their biological context generously illustrated in full color to illuminate the structural principles described in the text. The first few chapters introduces the general principles of protein structure both for novices and for non-specialists needing a primer. Subsequent chapters use specific examples of proteins to show how they fulfil a wide variety of biological functions. The book ends with chapters on the experimental approach to determining and predicting protein structure, as well as engineering new proteins to modify their functions.
proteïnen --- Protéines --- 547.96 --- 577.112 --- -#ABIB:aimm --- Proteids --- Polypeptides --- Proteomics --- Gene Products, Protein --- Gene Proteins --- Protein Gene Products --- Proteins, Gene --- Molecular Mechanisms of Pharmacological Action --- Structure. --- 577.112 Proteins --- 547.96 Proteins --- Amino acids --- chemical structure --- Protéines --- Proteins. --- Proteins --- biochemie --- Biomolecules --- Structure --- Molecular biology --- Basic Sciences. Chemistry --- Biochemistry --- Proteins and Enzymes. --- proteins --- General biochemistry --- Protein --- Nucleic acids. --- Proteins - Structure --- -Structure --- Membrane proteins --- Nucleic acid structure --- Protein structure --- Serine proteinases --- Signal transduction --- Signal transduction, biological --- Structure-activity relationship --- Transcription factors --- Viruses --- Structure moléculaire
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RNA-Ligand Interactions, Part B focuses on molecular biology methods. Major topics covered include: solution probe methods, tethered-probe methodologies, in vitro affinity selection methodologies, genetic methodologies for detecting RNA-protein interactions, protein engineering methodologies useful for RNA-protein interaction studies, and cell biology methods.RNA-Ligand Interactions, Part A, its companion, VOLUME 317 focuses on structural biology methods.The critically acclaimed laboratory standard for more than forty years, Methods in Enzymology is o
Acide nucleique [Ribo] --- Acide ribonucléique --- Fixation protéique --- Ligand (Biochimie) --- Ligand binding (Biochemistry) --- Ligans (Biochemie) --- Protein binding --- Proteïnenbinding --- RNA (Nucleic acid) --- Ribonucleic acid --- Ribonucleïnezuur --- Ribose nucleic acid --- Zuur [Nucleine] [Ribo] --- Ligands (Biochemistry). --- Human Anatomy & Physiology --- Health & Biological Sciences --- Animal Biochemistry --- Ligands. --- Models, Molecular. --- RNA. --- Structure-Activity Relationship. --- Ligands --- Structure-Activity Relationship --- RNA --- Models, Molecular --- Models, Theoretical --- Nucleic Acids --- Laboratory Chemicals --- Pharmacological Phenomena --- Biochemical Phenomena --- Nucleic Acids, Nucleotides, and Nucleosides --- Chemical Phenomena --- Specialty Uses of Chemicals --- Physiological Phenomena --- Investigative Techniques --- Phenomena and Processes --- Analytical, Diagnostic and Therapeutic Techniques and Equipment --- Chemicals and Drugs --- Chemical Actions and Uses --- Ligands (Biochemistry) --- Congresses --- Molecular dynamics --- Nucleic acids --- Ribose --- Biochemistry --- Nucleic acid structure --- Protein conformation --- Rna processes --- Probes (nucleic acid) --- Rna --- Rna binding proteins
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An up-to-date reference book on phylogenetic methods and applications for evolutionary biologistsThe increasingly widespread availability of genomic data is transforming how biologists estimate evolutionary relationships among organisms and broadening the range of questions that researchers can test in a phylogenetic framework. Species Tree Inference brings together many of today’s leading scholars in the field to provide an incisive guide to the latest practices for analyzing multilocus sequence data.This wide-ranging and authoritative book gives detailed explanations of emerging new approaches and assesses their strengths and challenges, offering an invaluable context for gauging which procedure to apply given the types of genomic data and processes that contribute to differences in the patterns of inheritance across loci. It demonstrates how to apply these approaches using empirical studies that span a range of taxa, timeframes of diversification, and processes that cause the evolutionary history of genes across genomes to differ.By fully embracing this genomic heterogeneity, Species Tree Inference illustrates how to address questions beyond the goal of estimating phylogenetic relationships of organisms, enabling students and researchers to pursue their own research in statistically sophisticated ways while charting new directions of scientific discovery.
Phylogeny. --- Biology --- Accuracy and precision. --- Addition. --- Akaike information criterion. --- Algebraic geometry. --- Algorithm. --- Allele. --- Ammunition. --- Amplicon. --- Analysis. --- Approximation. --- Bayesian inference. --- Biological process. --- CPU time. --- Chromosome. --- Coalescent theory. --- Common descent. --- Computation. --- Computational phylogenetics. --- Conditional expectation. --- Conditional probability distribution. --- Confidence interval. --- Consideration. --- Data set. --- Detection. --- Determinant. --- East Asia. --- Effective population size. --- Empiricism. --- Error term. --- Error. --- Estimation. --- Evolution. --- F1 hybrid. --- Gene duplication. --- Gene flow. --- Gene. --- Genre. --- Graphics processing unit. --- Horizontal gene transfer. --- Hybrid (biology). --- Identifiability. --- Implementation. --- Inference. --- Introgression. --- Likelihood function. --- Linear regression. --- Lycopersicon. --- Markov chain Monte Carlo. --- Molecular evolution. --- Molecular marker. --- Monocotyledon. --- Monte Carlo method. --- NP-hardness. --- Narration. --- Network topology. --- Normal distribution. --- Nucleic acid sequence. --- Nucleic acid structure. --- Nucleotide. --- Null hypothesis. --- Order of magnitude. --- Outgroup (cladistics). --- Parameter (computer programming). --- Parameter. --- Phylogenetic network. --- Phylogenetic tree. --- Phylogenetics. --- Phylogenomics. --- Polyploid. --- Posterior probability. --- Prediction. --- Probability distribution. --- Probability. --- Pseudolikelihood. --- Quantity. --- Rational number. --- Requirement. --- Result. --- Reticulation (single-access key). --- Sample Size. --- Scalability. --- Selection bias. --- Sequence alignment. --- Shading. --- Singular value decomposition. --- Solanum. --- Speciation (genetic algorithm). --- Speciation. --- Species. --- Statistical model. --- Statistical significance. --- Statistics. --- Subset. --- Substitution model. --- Suggestion. --- Tax. --- Taxon. --- Test statistic. --- Trade-off. --- Uncertainty.
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