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575.116 --- 575.21 --- 575.22 --- Gene linkage. Chromosome map --- Phenotypic variation. Phenotype --- Genotypic variation. Genotype --- Genetic epidemiology --- Morton, Newton Ennis, --- 575.22 Genotypic variation. Genotype --- 575.21 Phenotypic variation. Phenotype --- 575.116 Gene linkage. Chromosome map --- Molecular epidemiology --- Morton, Newton E. --- Human gene mapping --- Congresses --- Genetic disorders --- Genotype --- Linkage (genetics) --- Lod score --- Phenotype --- Quantitative trait
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Plant diversity conservation. --- Germplasm resources, Plant. --- Plant diversity conservation --- Germplasm resources, Plant --- 574.472 --- 575.22 --- Conservation of plant genetic resources --- Conservation of plant germplasm resources --- Plant genetic resources --- Plant germplasm resources --- Plants, Cultivated --- Germplasm resources --- Conservation of plant diversity --- Plant diversity --- Biodiversity conservation --- Plant conservation --- Biodiversity --- Genotypic variation. Genotype --- Conservation --- CON Bioconservation --- biodiversity --- 575.22 Genotypic variation. Genotype --- 574.472 Biodiversity
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Plants --- Plantes --- Adaptation --- Congresses --- Physiology --- Congrès --- 575.22 --- 581.522.4 --- #WPLT:dd.prof.J.Vendrig --- Genotypic variation. Genotype --- Adjustment. Acclimatization --- 581.522.4 Adjustment. Acclimatization --- 575.22 Genotypic variation. Genotype --- Congrès --- Congresses. --- Plantes. Adaptation [Physiologie]. (Congrès) --- Planten. Adaptatie [Fysiologie]. (Congres) --- LEAVES --- FLOWERING --- SHOOT --- CELLS --- MORPHOGENESIS --- DETERMINATION --- CHLOROPLASTS --- AGROBACTERIUM --- TRANSFORMATION --- GENETIC STABILITY --- GROWTH SUBSTANCES --- PLANT ECOLOGY --- PLANTS --- PLASTICITY --- ALGAE --- FUNGI --- FERNS --- ELECTROPHYSIOLOGY --- DEVELOPMENT --- INTERACTIONS
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This book was established after closing the special issue “Water and Ion Transport in Plants: New and Older Trends Meet Together” edited by Dr. Vadim Volkov, Professor Lars Wegner and Dr Mary Beilby as Guest Editors and Mr. Everett Zhu as Manager Editor. This book represents a small collection of bright papers related to water and ion transport in plants; these exceptionally wide topic cannot be covered within a single Book, so the aim was to recall the main concepts established for water and ion transport, to introduce new ideas, including controversial ones, and to link these ideas for generating directions of potential future research and progress. The goal was reached pointing to the main traditionally studied ion transport systems: ion channels, ion transporters, sodium and proton ATPases and macroscopic effects of their activity. Water transport in roots was shown in full complexity with its links to ion transport systems and aquaporins. Nonconventional use of silicon particles as addition to fertilizers is a subject of a paper within the collection. We hope that the Book will be a good reading with excellent examples of modern research; we are also assured that the Book will stimulate the future interest in water and ion transport in plants.
vacuole --- potassium --- homeostasis --- NHX --- auxin distribution --- PIN --- intracellular trafficking --- root pressure --- exudation --- xylem embolism --- mechanosensitive ion channels --- ion transporters --- aquaporins --- water transport --- silicon fertiliser --- wheat --- osmotic stress --- drought stress --- landraces --- genotypic variation --- Dunaliella --- cloning --- expression --- H+-ATPase --- microalgae --- Na+-ATPase --- qRT-PCR --- salt shock --- salt tolerance --- Suaeda altissima --- anion transporters --- chloride channel family --- CLC family --- halophytes --- molecular cloning --- SaCLCd --- SaCLCf --- SaCLCg
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575.22 --- 636.082.2 --- 636.4 --- 636.32/.38 --- 636.39 --- Swine --- -Sheep --- -Goats --- -Swine --- -Swine breeds --- Sheep breeds --- Goat breeds --- #ABIB:CHGS --- Goats --- Livestock breeds --- Sheep --- Capra hircus --- Dairy goats --- Goats, Domestic --- Milk goats --- Capra --- Livestock --- Domestic sheep --- Ovis aries --- Red sheep --- Ovis --- Shepherds --- Wool --- Domestic pig --- Hogs --- Pig --- Pig farming --- Pigs --- Sus domestica --- Sus domesticus --- Sus scrofa domestica --- Sus scrofa domesticus --- Sus --- Genotypic variation. Genotype --- Choice of stock for selective breeding --- Pigs. Swine --- Germplasm resources --- Breeding --- Breeds --- Goat breeds. --- Sheep breeds. --- Swine breeds. --- Zoology and Animal Sciences. Animal Breeding and Genetics --- Zoology and Animal Sciences. Farm and Captive Animals --- Breeding. --- Germplasm resources. --- Animal Gene Banks and Genetic Resources --- Farm and Captive Animals (General) --- Animal Gene Banks and Genetic Resources. --- Farm and Captive Animals (General). --- 636.39 Goats --- 636.32/.38 Sheep --- 636.4 Pigs. Swine --- 636.082.2 Choice of stock for selective breeding --- 575.22 Genotypic variation. Genotype --- Swine breeds --- Swine breeding --- Sheep breeding --- Goat breeding
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Statistical methods for the analysis of quantitative trait locus (QTL), in conjunction with genome-wide screening technologies, are today yielding exciting results in the study of human disease, experimental organisms, and agriculture. In Quantitative Trait Loci: Methods and Protocols, Drs. Nicola Camp and Angela Cox have assembled a highly experienced panel of statistical geneticists who demonstrate in a step-by-step fashion how to use this powerful methodology and associated software for the detection and fine mapping of quantitative trait loci. Writing for the nonmathematician, these experts guide the investigator from the design stage of a project onwards, providing detailed explanations of how best to proceed with each specific analysis, to find and use appropriate software, and to interpret results. Worked examples, citations to key papers, and useful variations and/or extensions to standard methods are included that ease the reader toward understanding and successful studies. Among the cutting-edge techniques presented are QTDT methods, variance components methods, and the Markov chain Monte Carlo method for joint linkage and segregation analysis. Up-to-date and highly practical, Quantitative Trait Loci: Methods and Protocols makes available to nonmathematical investigators a step-by-step guide to the productive use today of all the latest techniques for localizing genes involved in complex quantitative traits.
575.22 --- 616.8-056.7 --- 581.154 --- 575.17 --- 591.15 --- Genetics --- -Gene mapping --- Phenotype --- Phenotypes --- Genotype-environment interaction --- Chromosome mapping --- Genetic mapping --- Genome mapping --- Linkage mapping (Genetics) --- Mapping, Gene --- 591.15 Variation. Heredity --- Variation. Heredity --- 575.17 Population genetics. Genetic processes in populations --- Population genetics. Genetic processes in populations --- 581.154 Hereditary variations. Mutations. --- Hereditary variations. Mutations. --- 616.8-056.7 Hereditary, congenital nervous disorders. Genetic neuropathology --- Hereditary, congenital nervous disorders. Genetic neuropathology --- 575.22 Genotypic variation. Genotype --- Genotypic variation. Genotype --- Biology --- Embryology --- Mendel's law --- Adaptation (Biology) --- Breeding --- Chromosomes --- Heredity --- Mutation (Biology) --- Variation (Biology) --- Statistical methods --- Technique --- Gene mapping. --- Phenotype. --- Statistical methods. --- Gene mapping --- Hereditary variations. Mutations --- Human genetics. --- Human Genetics. --- Heredity, Human --- Human biology --- Physical anthropology
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This book was established after closing the special issue “Water and Ion Transport in Plants: New and Older Trends Meet Together” edited by Dr. Vadim Volkov, Professor Lars Wegner and Dr Mary Beilby as Guest Editors and Mr. Everett Zhu as Manager Editor. This book represents a small collection of bright papers related to water and ion transport in plants; these exceptionally wide topic cannot be covered within a single Book, so the aim was to recall the main concepts established for water and ion transport, to introduce new ideas, including controversial ones, and to link these ideas for generating directions of potential future research and progress. The goal was reached pointing to the main traditionally studied ion transport systems: ion channels, ion transporters, sodium and proton ATPases and macroscopic effects of their activity. Water transport in roots was shown in full complexity with its links to ion transport systems and aquaporins. Nonconventional use of silicon particles as addition to fertilizers is a subject of a paper within the collection. We hope that the Book will be a good reading with excellent examples of modern research; we are also assured that the Book will stimulate the future interest in water and ion transport in plants.
Research & information: general --- Biology, life sciences --- vacuole --- potassium --- homeostasis --- NHX --- auxin distribution --- PIN --- intracellular trafficking --- root pressure --- exudation --- xylem embolism --- mechanosensitive ion channels --- ion transporters --- aquaporins --- water transport --- silicon fertiliser --- wheat --- osmotic stress --- drought stress --- landraces --- genotypic variation --- Dunaliella --- cloning --- expression --- H+-ATPase --- microalgae --- Na+-ATPase --- qRT-PCR --- salt shock --- salt tolerance --- Suaeda altissima --- anion transporters --- chloride channel family --- CLC family --- halophytes --- molecular cloning --- SaCLCd --- SaCLCf --- SaCLCg --- vacuole --- potassium --- homeostasis --- NHX --- auxin distribution --- PIN --- intracellular trafficking --- root pressure --- exudation --- xylem embolism --- mechanosensitive ion channels --- ion transporters --- aquaporins --- water transport --- silicon fertiliser --- wheat --- osmotic stress --- drought stress --- landraces --- genotypic variation --- Dunaliella --- cloning --- expression --- H+-ATPase --- microalgae --- Na+-ATPase --- qRT-PCR --- salt shock --- salt tolerance --- Suaeda altissima --- anion transporters --- chloride channel family --- CLC family --- halophytes --- molecular cloning --- SaCLCd --- SaCLCf --- SaCLCg
Choose an application
This book was established after closing the special issue “Water and Ion Transport in Plants: New and Older Trends Meet Together” edited by Dr. Vadim Volkov, Professor Lars Wegner and Dr Mary Beilby as Guest Editors and Mr. Everett Zhu as Manager Editor. This book represents a small collection of bright papers related to water and ion transport in plants; these exceptionally wide topic cannot be covered within a single Book, so the aim was to recall the main concepts established for water and ion transport, to introduce new ideas, including controversial ones, and to link these ideas for generating directions of potential future research and progress. The goal was reached pointing to the main traditionally studied ion transport systems: ion channels, ion transporters, sodium and proton ATPases and macroscopic effects of their activity. Water transport in roots was shown in full complexity with its links to ion transport systems and aquaporins. Nonconventional use of silicon particles as addition to fertilizers is a subject of a paper within the collection. We hope that the Book will be a good reading with excellent examples of modern research; we are also assured that the Book will stimulate the future interest in water and ion transport in plants.
Research & information: general --- Biology, life sciences --- vacuole --- potassium --- homeostasis --- NHX --- auxin distribution --- PIN --- intracellular trafficking --- root pressure --- exudation --- xylem embolism --- mechanosensitive ion channels --- ion transporters --- aquaporins --- water transport --- silicon fertiliser --- wheat --- osmotic stress --- drought stress --- landraces --- genotypic variation --- Dunaliella --- cloning --- expression --- H+-ATPase --- microalgae --- Na+-ATPase --- qRT-PCR --- salt shock --- salt tolerance --- Suaeda altissima --- anion transporters --- chloride channel family --- CLC family --- halophytes --- molecular cloning --- SaCLCd --- SaCLCf --- SaCLCg
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