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Agri Gene publishes papers that focus on the regulation, expression, function and evolution of genes in crop plants, farm animals, and agriculturally important insects and microorganisms.
Genetics --- Agriculture --- Evolutionary genetics --- Crop improvement --- Genetic markers --- Plant gene expression
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Plants --- Genomics. --- Plant Physiological Phenomena. --- RNA, Plant --- Plant molecular genetics --- Plant gene expression --- Genomics --- Génétique moléculaire végétale --- Plantes --- Génomique --- genetics. --- Expression génique --- Plant gene expression. --- Plant molecular genetics. --- Genetics.
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Animal genetics --- Agriculture --- Evolutionary genetics --- Crop improvement --- Genetic markers --- Plant gene expression --- Genetic Phenomena --- Animals --- Génétique animale --- Agriculture --- Génétique évolutive --- Cultures --- Marqueurs génétiques --- Plantes --- Agriculture --- Animal genetics --- Crop improvement --- Evolutionary genetics --- Genetic markers --- Plant gene expression --- Amélioration --- Expression génique
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Plant genetics --- Plants --- Genetics --- Plant gene expression --- Plant genetic regulation --- Plant gene expression. --- Plant genetic regulation. --- Plant genetics. --- Genes, Plant. --- Gene Expression Regulation, Plant. --- Genetic regulation --- Plant cellular control mechanisms --- Plant molecular genetics --- Gene expression --- Regulation, Gene Expression, Plant --- Plant Gene Expression Regulation --- Regulation of Gene Expression, Plant --- Plant Genes --- Gene, Plant --- Plant Gene --- Genome, Plant --- Regulation --- Plant Ecology
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Except for one area of gene expression control, plant research has significantly fallen behind studies in insects and vertebrates. The advances made in animal gene expression control have benefited plant research, as we continue to find that much of the machinery and mechanisms controlling gene expression have been preserved in all eukaryotes. Through comparison, we have learned that certain aspects of gene regulation are shared by plants and animals, i.e. both contain introns separating the coding regions of most genes and both utilize similar machinery to process the introns to form mature mRNAs. Yet there are some interesting differences in gene structure and regulation between plants and animals. For example, unlike animal genes, plant genes are generally much smaller with fewer and smaller introns. Regulation of Gene Expression in Plants presents some of the most recent, novel and fascinating examples of transcriptional and posttranscriptional control of gene expression in plants and, where appropriate, provides comparison to notable examples of animal gene regulation. About the Editors: Dr. Carole L. Bassett is a molecular biologist at the USDA – ARS’s Appalachian Fruit Research Station in Kearneysville, West Virginia. Her research emphasizes the identification and characterization of different mechanisms controlling gene expression in plants. She has worked on flowering in the Japanese morning glory (Ipomoea nil L.) and in fruit quality and development in peach (Prunus persica L. [Batsch]). Her current area of interest is in understanding how genes respond to cold and drought stress in peach and apple (Malus X domestica) and using this information to reduce the impact of adverse environmental conditions on orchard production and fruit quality.
Plant gene expression. --- Plant genetic regulation. --- Plant gene expression --- Genetic regulation --- Plant cellular control mechanisms --- Plant molecular genetics --- Gene expression --- Regulation --- Plant genetics. --- Plant anatomy. --- Botany. --- Plant Genetics and Genomics. --- Plant Anatomy/Development. --- Plant Sciences. --- Botanical science --- Phytobiology --- Phytography --- Phytology --- Plant biology --- Plant science --- Biology --- Natural history --- Plants --- Botany --- Plant structure --- Structural botany --- Vegetable anatomy --- Anatomy --- Genetics --- Structure --- Plant development. --- Plant science. --- Development of plants --- Plant development --- Developmental biology --- Growth (Plants) --- Ontogeny --- Floristic botany
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This second edition volume discusses the revolutionary development of faster and less expensive DNA sequencing technologies from the past 10 years and focuses on general technologies that can be utilized by a wide array of plant biologists to address specific questions in their favorite model systems. This book is organized into five parts. Part I examines the tools and methods required for identifying epigenetic and conformational changes at the whole-genome level. Part II presents approaches used to determine key aspects of a gene’s function, such as techniques used to identify and characterize gene regulatory networks. This is followed by a discussion of tools used to analyze the levels of mRNA, mRNA translation rates, and metabolites. Part III features a compilation of forward and reverse genetic approaches that include recent implementation of high-throughput sequencing in classical methodologies such as QTL mapping. The final two parts explore strategies to facilitate and accelerate the generation and testing of functional DNA elements, and basic computational tools used to facilitate the use of systems biology approached by a broad spectrum of plant researchers. Written in the highly successful Methods of Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and key tips on troubleshooting and avoiding known pitfalls. Practical and timely, Plant Functional Genomics: Methods and Protocols, Second Edition highlights the latest developments in DNA sequencing technologies that are likely to continue shaping the future of functional genomics.
Plant molecular genetics --- Plant gene expression --- Genomics --- Genome --- Eukaryota --- Gene Expression Regulation --- Organisms --- Genetic Processes --- Genetic Structures --- Genetic Phenomena --- Phenomena and Processes --- Gene Expression Regulation, Plant --- Plants --- Genome, Plant --- Botany --- Earth & Environmental Sciences --- Plant Ecology --- Plant molecular genetics. --- Plant gene expression. --- Genomics. --- Génétique moléculaire végétale --- Plantes --- Génomique --- Expression génique --- Plant Genome --- Genomes, Plant --- Plant Genomes --- Plant --- Regulation, Gene Expression, Plant --- Plant Gene Expression Regulation --- Regulation of Gene Expression, Plant --- Genetic Concepts --- Genetic Phenomenon --- Genetic Process --- Concept, Genetic --- Concepts, Genetic --- Genetic Concept --- Phenomena, Genetic --- Phenomenon, Genetic --- Process, Genetic --- Processes, Genetic --- Genetic Structure --- Structure, Genetic --- Structures, Genetic --- Expression Regulation, Gene --- Regulation, Gene Action --- Regulation, Gene Expression --- Gene Action Regulation --- Regulation of Gene Expression --- Eucarya --- Eukarya --- Eukaryotes --- Eukaryotas --- Eukaryote --- Genomes --- Genome research --- Research --- Life sciences. --- Plant science. --- Botany. --- Life Sciences. --- Plant Sciences. --- Botanical science --- Phytobiology --- Phytography --- Phytology --- Plant biology --- Plant science --- Biology --- Natural history --- Biosciences --- Sciences, Life --- Science --- Floristic botany
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Plant Transcription Factors: Evolutionary, Structural and Functional Aspects is the only publication that provides a comprehensive compilation of plant transcription factor families and their complex roles in plant biology. While the majority of information about transcription factors is based on mammalian systems, this publication discusses plant transcription factors, including the important aspects and unifying themes to understanding transcription factors and the important roles of particular families in specific processes. Provides an entry point for transcription factor literatureO
Plant genetic regulation. --- Plant cell differentiation. --- Genetic transcription. --- Transcription (Genetics) --- Genetic code --- Cell differentiation --- Plant cells and tissues --- Plant gene expression --- Genetic regulation --- Plant cellular control mechanisms --- Plant molecular genetics --- Regulation --- Plant genetic regulation --- Plant cell differentiation --- Genetic transcription --- Plantes --- Transcription génétique --- Régulation génétique --- Cellules et tissus --- Différenciation
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As more and more plant genomes are sequenced, plant researchers have been inundated with an avalanche of novel methodologies to identify the function of tens of thousands of plant genes. In Plant Functional Genomics, Erich Grotewold has assembled a team of leading plant scientists to describe in detail the most commonly used methods for investigating plant gene function in a wide variety of plants, during plant pathogen interactions, and even in algae. These readily reproducible protocols include computational, molecular, and genetic methodologies designed for both general and specific problems. Here the reader will learn how to identify genes in complex systems that have large genomes, few cells, and mixed cell systems. Readers will also learn the use of powerful computational and statistical tools to help predict gene function, either on the basis of comparative genomics, or from the analysis of complex genome sequences. Because establishing gene function relies on the identification of phenotypes, the authors expand the concept of phenotypes, including the use of multiple outputs as the ultimate phenotypic result of changes in gene activity. Numerous loss-of-function and gain-of-function techniques for discovering gene function are presented in step-by-step detail. Comprehensive and highly practical, Plant Functional Genomics offers plant biologists readily reproducible computational, molecular, and genetic protocols, powerful tools that will enable them, with little or no experience, successfully to investigate any gene function with the most recent methodologies.
577.212 --- 575.113 --- 57.088 --- 631.528.2 --- Central dogma of molecular biology. Coding of inheritance information. The genetic code and its chemical nature --- Gene. Genetic apparatus. Genome --- Special methods and techniques for studing biological molecules. Separation. Centrifuging. X-ray study. Radioisotope methods --- Genome mutations, polyploidy, haploidy --- Electronic books. -- local. --- Genomics. --- Plant gene expression. --- Plant molecular genetics. --- Plant molecular genetics --- Plant gene expression --- Genomics --- Botany --- Earth & Environmental Sciences --- Plant Ecology --- Economic sanctions. --- Security, International. --- 631.528.2 Genome mutations, polyploidy, haploidy --- 57.088 Special methods and techniques for studing biological molecules. Separation. Centrifuging. X-ray study. Radioisotope methods --- 575.113 Gene. Genetic apparatus. Genome --- 577.212 Central dogma of molecular biology. Coding of inheritance information. The genetic code and its chemical nature --- Sanctions. --- Molecular genetics --- Plant genetics --- Plant molecular biology --- Gene expression --- Genome research --- Genomes --- Research --- Sanctions économiques --- Sécurité internationale --- United Nations --- Botany. --- Plant Sciences. --- Botanical science --- Phytobiology --- Phytography --- Phytology --- Plant biology --- Plant science --- Biology --- Natural history --- Plants --- Floristic botany
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An international journal of broad scope bringing together the different subdisciplines, such as physiology, molecular biology, cell biology, development, genetics, systematics, ecology, evolution, ecophysiology, etc
Botany --- Botanique --- Periodicals. --- Périodiques --- Plants --- Plant Proteins --- Gene Expression Regulation, Plant --- genetics --- growth & development --- #ANTIL0003 --- #TS:WBIB --- 58 --- Periodicals --- Agriculture Sciences --- Life Sciences --- Plant Pathology --- duplicates available --- current periodical --- Germany --- plant biology --- bimonthly --- 58 Botany --- Périodiques --- EJBIOLO EPUB-ALPHA-P EPUB-PER-FT WILEY-E --- Regulation, Gene Expression, Plant --- Plant Gene Expression Regulation --- Regulation of Gene Expression, Plant --- Proteins, Plant --- Plant --- Endosperm --- Ethnopharmacology --- 58 Botanie --- Botanie --- Plant Protein --- Protein, Plant --- Genetics --- Proteins --- Growth & development --- Plant Proteins. --- Gene Expression Regulation, Plant. --- genetics. --- growth & development. --- Plant Morphogenesis --- Development, Plant --- Developments, Plant --- Morphogeneses, Plant --- Morphogenesis, Plant --- Plant Developments --- Plant Morphogeneses
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Gene Expression Regulation, Plant. --- Epigenesis, Genetic. --- Gene Silencing. --- Plant genetic regulation --- Epigenesis. --- Plantes --- Epigénèse --- Régulation génétique --- Plante --- plants --- Expression des gènes --- gene expression --- Transformation génétique --- genetic transformation --- Arn ribosomal --- ribosomal RNA --- Génie génétique --- genetic engineering --- Allélopathie --- Allelopathy --- Mutation --- mutation --- ADN recombiné --- Recombinant DNA --- Zea mays --- Arabidopsis thaliana --- Plant genetic regulation. --- Plant and Crop Sciences. Plant Breeding and Genetics --- Plant Breeding and Genetics (General) --- Plant Breeding and Genetics (General). --- Epigénèse --- Régulation génétique --- mutation. --- Epigenesis --- Plant gene expression --- Genetic regulation --- Plant cellular control mechanisms --- Plant molecular genetics --- Embryology --- Evolution (Biology) --- Genetics --- Regulation
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