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Look at the genetics of plants through historical scientific achievements, discussions of diversity, agricultural practices, and comparisons to animal and human genetics.

Plant genetics

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Due to rapid population growth, climate change, and decreasing natural resources, growing sufficient crops with high productivity, resistance to abiotic and biotic stresses, and other attractive traits is a major challenge. Conventional breeding methods require time-consuming genetic crosses between different parents for multiple generations. By contrast, plant transformation is defined as the insertion of DNA from any organism into the genome of a plant species, and it is considered to be a powerful tool in plant breeding. This book aims to provide professional state-of-the-art information for basic and applied scientists and plant breeders, focusing on key crop plants. Papers related to the principle and application of Agrobacterium-mediated transformation, step-by-step protocols of DNA delivery to the important crop Brassica oleracea and higher-plant chloroplasts, current progress and prospects of virus-induced gene silencing (VIGS) in higher plants, improvement of grapevine through biotechnology, and public concern of biosafety issues regarding genetically modified organisms (GMOs) are all included in this book. It should be useful for students, breeders, and researchers in the field of transgenic crops around the world.

Plant genetics.

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Due to rapid population growth, climate change, and decreasing natural resources, growing sufficient crops with high productivity, resistance to abiotic and biotic stresses, and other attractive traits is a major challenge. Conventional breeding methods require time-consuming genetic crosses between different parents for multiple generations. By contrast, plant transformation is defined as the insertion of DNA from any organism into the genome of a plant species, and it is considered to be a powerful tool in plant breeding. This book aims to provide professional state-of-the-art information for basic and applied scientists and plant breeders, focusing on key crop plants. Papers related to the principle and application of Agrobacterium-mediated transformation, step-by-step protocols of DNA delivery to the important crop Brassica oleracea and higher-plant chloroplasts, current progress and prospects of virus-induced gene silencing (VIGS) in higher plants, improvement of grapevine through biotechnology, and public concern of biosafety issues regarding genetically modified organisms (GMOs) are all included in this book. It should be useful for students, breeders, and researchers in the field of transgenic crops around the world.

Plant genetics.

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This volume explores the latest methods used by researchers to study the detection, characterization, and various aspects of viroids. The chapters in this book are organized into seven parts and cover topics such as detection methods based on the biology of viroids; detection techniques based on electrophoresis and hybridization techniques; PCR-based techniques that provide high degrees of sensitivity; emerging area of nucleic acid sequence-based technology; and emerging techniques in viroid research such as RNA silencing, splicing, and viroid structure. Written in the highly successful Methods in 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 tips on troubleshooting and avoiding known pitfalls. Cutting-edge and comprehensive, Viroids: Methods and Protocols is a valuable resource for researchers and graduate students who are working with viroid diseases. .

Plant genetics. --- Plant Genetics. --- Plants --- Genetics

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Plant genetics --- agriculture. --- Plant genetics. --- Agriculture.