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Gene mapping. --- Chromosome mapping --- Genetic mapping --- Genome mapping --- Linkage mapping (Genetics) --- Mapping, Gene --- Genetics --- Technique
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The common fruitfly, or drosophila, is the most extensively studied of all organisms from the standpoint of genetics and cytology. The aim of this reference is to summarize information about most of the drosophila genes for which the complete nucleotide sequence is known.
Drosophila --- Gene mapping --- Chromosome mapping --- Genetic mapping --- Genome mapping --- Linkage mapping (Genetics) --- Mapping, Gene --- Genetics --- Drosophilidae --- Fruit-flies --- Technique
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With the rise of genomics, the life sciences have entered a new era. This book provides a comprehensive history of mapping procedures as they were developed in classical genetics. An accompanying volume - From Molecular Genetics to Genomics - covers the history of molecular genetics and genomics.The book shows that the technology of genetic mapping is by no means a recent acquisition of molecular genetics or even genetic engineering. It demonstrates that the development of mapping technologies has accompanied the rise of modern genetics from its very beginnings. In Section One
Gene mapping --- Chromosome mapping --- Genetic mapping --- Genome mapping --- Linkage mapping (Genetics) --- Mapping, Gene --- Genetics --- History --- Technique --- Genetic research
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Analyse fonctionnelle --- Functionaalanalyse --- Functional analysis --- Gene mapping --- Genetic mapping --- Genetisch materiaal [In kaart brengen van ] --- Genome mapping --- In kaart brengen van genetisch materiaal --- Linkage mapping (Genetics) --- Mapping [Gene ] --- Représentation génétique --- Medical microbiology --- Automation --- MICROBIOLOGY --- METHODS
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Methodologies used to analyse the genomes of prokaryotes and eukaryotes are advancing very rapidly as it has been realized that there is a resolution gap between what can be viewed under the microscope and what molecular techniques can resolve. This book presents current, successful strategies for construction of physical maps to identify and analyse the arrangement and function of genes. These techniques, which are applicable to a range of organisms, are being used to move from linked markers to candidate genes in several human monogenic disorders. They are presented in a way that should enable any research or diagnostic laboratory to apply them to their particular systems. Also included are descriptions of new probes and approaches for the localization of human disorders whose analysis has so far eluded the molecular geneticist.
Chromosome mapping --- Chromosome Mapping --- Chromosomes --- Technique --- cartes --- Gene mapping --- -Chromosome mapping --- Genetic mapping --- Genome mapping --- Linkage mapping (Genetics) --- Mapping, Gene --- Genetics --- Chromosome Mapping. --- Basic Sciences. Bioinformatics --- Technique. --- Genome informatics --- -Technique --- Genome informatics.
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This book provides an overview of computational analysis of genes and genomes, and of some most notable findings that come out of this work. Foundations of Comparative Genomics presents a historical perspective, beginning with early analysis of individual gene sequences, to present day comparison of gene repertoires encoded by completely sequenced genomes. The author discusses the underlying scientific principles of comparative genomics, argues that completion of many genome sequences started a new era in biology, and provides a personal view on several state-of-the-art issues, such as
Genomics. --- Gene mapping. --- Physiology, Comparative. --- Comparative physiology --- Chromosome mapping --- Genetic mapping --- Genome mapping --- Linkage mapping (Genetics) --- Mapping, Gene --- Genome research --- Genomes --- Research --- Medicine, Comparative --- Zoology --- Genetics --- Molecular genetics --- Technique
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The Nucleic Acid Protocols Handbook is today's most comprehensive up-to-date treasury of all the key molecular biology methods-ranging from DNA extraction to gene localization in situ-needed to function effectively in the modern laboratory. Each of the 120 highly successful techniques follows the format of the much acclaimed Methods in Molecular Biology™ series, providing an introduction to the scientific basis of each technique, a complete listing of all the materials and reagents needed, and clear step-by-step instructions to permit error-free execution. Included for each technique are notes about pitfalls to avoid, troubleshooting tips, alternate methods, and explanations of the reasons for certain steps-all key elements contributing significantly to success in the lab. The authord are well-experienced masters of the techniques described, often having perfected and optimized them in their own laboratories. In The Nucleic Acid Protocols Handbook, Ralph Rapley has brought together the widest-ranging, one-volume collection of classic and cutting-edge techniques for the successful isolation, analysis, and manipulation of nucleic acids. Eminently practical and reproducible, these proven methods will help both experienced researchers and those entering the field attain the laboratory mastery needed-not only to deepen understanding of biological processes at the molecular level, but also to begin realizing the biotechnological bounty so clearly in prospect.
Cytology. --- Cell Biology. --- Cell biology --- Cellular biology --- Biology --- Cells --- Cytologists --- Nucleic acids --- Polymerase chain reaction --- Gene mapping --- Chromosome mapping --- Genetic mapping --- Genome mapping --- Linkage mapping (Genetics) --- Mapping, Gene --- Genetics --- Polynucleotides --- Biomolecules --- Technique
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Published continuously since 1944, the Advances in Protein Chemistry and Structural Biology serial has been a continuous, essential resource for protein chemists. Covering reviews of methodology and research in all aspects of protein chemistry, including purification/expression, proteomics, modeling and structural determination and design, each volume brings forth new information about protocols and analysis of proteins while presenting the most recent findings from leading experts in a broad range of protein-related topics. This volume features articles on Challenges and Opportunities of Next
Gene mapping. --- Genomics --- Medicine --- Biology --- Biological research --- Biomedical research --- Health Workforce --- Genome research --- Genomes --- Molecular genetics --- Chromosome mapping --- Genetic mapping --- Genome mapping --- Linkage mapping (Genetics) --- Mapping, Gene --- Genetics --- Methodology. --- Research. --- Research --- Technique
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Mapping of animal genomes has generated huge databases and several new concepts and strategies, which are useful to elucidate origin, evolution and phylogeny. Genetic and physical maps of genomes further provide precise details on chromosomal location, function, expression and regulation of academically and economically important genes. The series "Genome Mapping and Genomics in Animals" provides comprehensive and up-to-date reviews on genomic research on a large variety of selected animal systems, contributed by leading scientists from around the world. Insects and other arthropods, the largest group of animals in number of species, have global impact on agriculture, industry, human health and environment. They are of particular economic importance for food production as pollinators, for natural products like silk and also as pests and parasites. Arthropods covered in this volume include honeybee, bumblebee, the parasitic Jewel Wasp, silkworm, pea aphid, mosquito, Hessian fly and tick.
Arthropoda --- Gene mapping. --- Genome mapping. --- Chromosome mapping --- Genetic mapping --- Genome mapping --- Linkage mapping (Genetics) --- Mapping, Gene --- Genetics --- Arthropods --- Bilateria --- Invertebrates --- Technique --- Animal genetics. --- Agriculture. --- Cytology. --- Entomology. --- Biotechnology. --- Invertebrates. --- Animal Genetics and Genomics. --- Cell Biology. --- Cell biology --- Cellular biology --- Biology --- Cells --- Cytologists --- Farming --- Husbandry --- Industrial arts --- Life sciences --- Food supply --- Land use, Rural --- Invertebrata --- Animals --- Chemical engineering --- Genetic engineering --- Insects --- Zoology --- Cell biology.
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This book offers a valuable resource that allows students, researchers, educators and the general public to learn about proteomics and genomics. Chromosomes form the basis for our genetic heritage and are the code for protein synthesis. The Human Genome Map was presented in 2002, and the Proteome Sequence Map is currently being created by a global consortia initiative. Proteome and genome building blocks already form the basis of scientific research areas and shape major areas of the pharmaceutical and biomedical industries. The book provides background information on and our current understanding of these gene and protein areas, and explains in detail how cutting-edge science is using these resources to develop new medicines and new diagnostics for patient treatment and care. The book will benefit all students and researchers who need a good understanding of genomics and proteomics within the clinical field. Its content is also suitable for a broad readership, including those not specialized in this field. Dr. Marko-Varga is head of Div. Clinical Protein Science & Imaging at the Biomedical Center, Dept. of Measurement Technology and Industrial Electrical Engineering, Lund University. He’s also Professor at the 1st Department of Surgery, Tokyo Medical University, Tokyo, Japan.
Gene mapping --- Proteins --- Data processing --- Analysis --- Data processing. --- Proteids --- Biomolecules --- Polypeptides --- Proteomics --- Chromosome mapping --- Genetic mapping --- Genome mapping --- Linkage mapping (Genetics) --- Mapping, Gene --- Genetics --- Technique --- Bioinformatics. --- Proteomics. --- DNA microarrays. --- Biology --- Microarrays. --- Computer Appl. in Life Sciences. --- DNA biochips --- Microarrays, DNA --- Biochips --- Immobilized nucleic acids --- Molecular biology --- Bio-informatics --- Biological informatics --- Information science --- Computational biology --- Systems biology --- Bioinformatics . --- Computational biology . --- Bioinformatics
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