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Nucleotide sequence --- Methodology. --- Analysis, Nucleic acid sequence --- Analysis, Nucleotide sequence --- Base sequence (Nucleic acids) --- DNA sequence --- Nucleic acid sequence analysis --- Nucleotide sequence analysis --- RNA sequence --- Sequence, Nucleotide --- Nucleic acids --- Nucleotides --- Sequence alignment (Bioinformatics) --- Methodology --- Analysis
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"From a who's who of pioneers in the field comes a unique resource covering the latest advances in next generation genome sequencing and assembly. This groundbreaking book includes non-conventional techniques that are paving the way to potential new biomedical applications. Practitioners find unparalleled access to state-of-the-art DNA sequencing technologies, new algorithmic sequence assembly techniques, and emerging methods for both resequencing and de novo genome analysis, which all together offer the most solid foundation possible for tackling the full range of experimental and computational challenges in the genome sciences today."--Jacket.
Genomes --- Nucleotide sequence. --- Analysis, Nucleic acid sequence --- Analysis, Nucleotide sequence --- Base sequence (Nucleic acids) --- DNA sequence --- Nucleic acid sequence analysis --- Nucleotide sequence analysis --- RNA sequence --- Sequence, Nucleotide --- Nucleic acids --- Nucleotides --- Sequence alignment (Bioinformatics) --- Genetics --- Genomics --- Haploidy --- Analysis. --- Analysis
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Nucleotide sequence. --- Analysis, Nucleic acid sequence --- Analysis, Nucleotide sequence --- Base sequence (Nucleic acids) --- DNA sequence --- Nucleic acid sequence analysis --- Nucleotide sequence analysis --- RNA sequence --- Sequence, Nucleotide --- Nucleic acids --- Nucleotides --- Sequence alignment (Bioinformatics) --- Analysis --- Seqüència de nucleòtids --- ADN --- RNA
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Nucleotide sequence. --- RNA. --- Ribonucleic acid --- Ribose nucleic acid --- Nucleic acids --- Ribose --- Analysis, Nucleic acid sequence --- Analysis, Nucleotide sequence --- Base sequence (Nucleic acids) --- DNA sequence --- Nucleic acid sequence analysis --- Nucleotide sequence analysis --- RNA sequence --- Sequence, Nucleotide --- Nucleotides --- Sequence alignment (Bioinformatics) --- Analysis
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The Guide to Human Genome Computing is invaluable to scientists who wish to make use of the powerful computing tools now available to assist them in the field of human genome analysis. This book clearly explains access and use of sequence databases, and presents the various computer packages used to analyze DNA sequences, measure linkage analysis, compare and align DNA sequences from different genes or organisms, and infer structural and functional information about proteins from sequence data.This Second Edition contains completely updated material. Rather than a revision of the pr
Human gene mapping --- Nucleotide sequence --- Data processing. --- Computer network resources. --- Analysis, Nucleic acid sequence --- Analysis, Nucleotide sequence --- Base sequence (Nucleic acids) --- DNA sequence --- Nucleic acid sequence analysis --- Nucleotide sequence analysis --- RNA sequence --- Sequence, Nucleotide --- Human chromosome mapping --- Human genome mapping --- Mapping, Human gene --- Nucleic acids --- Nucleotides --- Sequence alignment (Bioinformatics) --- Gene mapping --- Analysis
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How to design, execute, and interpret experiments for protein sequencing using mass spectrometryThe rapid expansion of searchable protein and DNA databases in recent years has triggered an explosive growth in the application of mass spectrometry to protein sequencing. This timely and authoritative book provides professionals and scientists in biotechnology research with complete coverage of procedures for analyzing protein sequences by mass spectrometry, including step-by-step guidelines for sample preparation, analysis, and data interpretation.Michael Kinter and Nicholas Sherman present their own high-quality, laboratory-tested protocols for the analysis of a wide variety of samples, demonstrating how to carry out specific experiments and obtain fast, reliable results with a 99uccess rate. Readers will get sufficient experimental detail to apply in their own laboratories, learn about the proper selection and operation of instruments, and gain essential insight into the fundamental principles of mass spectrometry and protein sequencing. Coverage includes:* Peptide fragmentation and interpretation of product ion spectra* Basic polyacrylamide gel electrophoresis* Preparation of protein digests for sequencing experiments* Mass spectrometric analysis using capillary liquid chromatography* Techniques for protein identification by database searches* Characterization of modified peptides using tandem mass spectrometryAnd much more
Spectrometric and optical chemical analysis --- Organic spectroscopy --- Mass spectrometry. --- Nucleotide sequence. --- Proteins --- Analysis. --- Mass spectrometry --- Nucleotide sequence --- Analysis, Nucleic acid sequence --- Analysis, Nucleotide sequence --- Base sequence (Nucleic acids) --- DNA sequence --- Nucleic acid sequence analysis --- Nucleotide sequence analysis --- RNA sequence --- Sequence, Nucleotide --- Nucleic acids --- Nucleotides --- Sequence alignment (Bioinformatics) --- Mass spectra --- Mass spectrograph --- Mass spectroscopy --- Mass spectrum analysis --- Mass (Physics) --- Nuclear spectroscopy --- Spectrum analysis --- Analysis
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This volume provides a comprehensive description of the principles and methods used in DNA sequencing. Following a detailed introduction the chapters are: DNA sequencing; Chain terminator sequencing; Primed synthesis methods applied to DNA fragments cloned into phage M13; DNA sequencing by the Maxam-Gilbert chemical procedure; Computer methods for DNA sequencers; Appendices including contractions and special terms, cloning vectors, commercially available restriction endonucleases, and autoradiography.
Analytical biochemistry --- Molecular biology --- Dna --- Nucleotide sequence. --- Base sequence. --- Dna. --- Analysis. --- DNA --- Nucleotide sequence --- Analysis, Nucleic acid sequence --- Analysis, Nucleotide sequence --- Base sequence (Nucleic acids) --- DNA sequence --- Nucleic acid sequence analysis --- Nucleotide sequence analysis --- RNA sequence --- Sequence, Nucleotide --- Nucleic acids --- Nucleotides --- Sequence alignment (Bioinformatics) --- Analysis
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Bryan John Smith updates his much-acclaimed first edition of Protein Sequencing Protocols with new and refreshed techniques for determining the sequence of proteins and peptides. This edition includes not only novel approaches to the validation of quality assurance methods, reflecting the current importance of biopharmaceuticals, but also offers a guide to the analysis of protein sequence information via the powerful new tools of bioinformatics. Each readily reproducible protocol contains detailed step-by-step instructions to ensure successful experimental results, along with notes on troubleshooting and how to avoid pitfalls. Valuable appendices summarize changes in mass arising from protein modification, as well as consensus sequences for protein modification. Comprehensive and up-to-date, Protein Sequencing Protocols, Second Edition, provides both novice and expert investigators alike a ready source of easy-to-follow protocols that simplify choosing the most appropriate method for protein sequence determination and thus help assure robust results.
Nucleotide sequence --- Nucleotides --- Analysis. --- Analysis, Nucleic acid sequence --- Analysis, Nucleotide sequence --- Base sequence (Nucleic acids) --- DNA sequence --- Nucleic acid sequence analysis --- Nucleotide sequence analysis --- RNA sequence --- Sequence, Nucleotide --- Nucleic acids --- Sequence alignment (Bioinformatics) --- Analysis --- Biochemistry. --- Biochemistry, general. --- Biological chemistry --- Chemical composition of organisms --- Organisms --- Physiological chemistry --- Biology --- Chemistry --- Medical sciences --- Composition
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Nucleotide sequence. --- Medical genetics. --- Clinical genetics --- Diseases --- Heredity of disease --- Human genetics --- Medical sciences --- Pathology --- Genetic disorders --- Analysis, Nucleic acid sequence --- Analysis, Nucleotide sequence --- Base sequence (Nucleic acids) --- DNA sequence --- Nucleic acid sequence analysis --- Nucleotide sequence analysis --- RNA sequence --- Sequence, Nucleotide --- Nucleic acids --- Nucleotides --- Sequence alignment (Bioinformatics) --- Genetic aspects --- Analysis
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It is widely recognized that analytical technologies and techniques are playing a pioneering role in a range of today's foremost challenging scientific endeavours, including especially biological and biomedical research. Worthy of mention, for example, are the role that high performance separation techniques played in mapping the human genome and the pioneering work done within mass spectrometry. It is also apparent that state-of-the-art pharmaceutical and biomedical research is the major driving force of the development of new analytical techniques. Advancements in genomics research h
Proteins --- Nucleotide sequence. --- Chromatographic analysis. --- Mass spectrometry. --- Analysis. --- Mass spectra --- Mass spectrograph --- Mass spectroscopy --- Mass spectrum analysis --- Analysis, Chromatographic --- Chromatography --- Analysis, Nucleic acid sequence --- Analysis, Nucleotide sequence --- Base sequence (Nucleic acids) --- DNA sequence --- Nucleic acid sequence analysis --- Nucleotide sequence analysis --- RNA sequence --- Sequence, Nucleotide --- Mass (Physics) --- Nuclear spectroscopy --- Spectrum analysis --- Chemistry, Analytic --- Phase partition --- Nucleic acids --- Nucleotides --- Sequence alignment (Bioinformatics) --- Analysis --- Analytical chemistry
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