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BL
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| Record Number
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859232
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| Title & Author
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Genetics and genomics of pineapple /\ Ray Ming, editor.
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| Publication Statement
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Cham, Switzerland :: Springer,, [2018]
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| Series Statement
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Plant Genetics and Genomics: Crops and Models ;; volume 22
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| Page. NO
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1 online resource :: illustrations, maps
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| ISBN
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3030006131
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: 303000614X
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: 9783030006136
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: 9783030006143
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9783030006136
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| Bibliographies/Indexes
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Includes bibliographical references and index.
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| Contents
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Intro; Preface; Contents; Contributors; Chapter 1: The Pineapple Success Story: From Domestication to Pantropical Diffusion; Morphological and Genetic Diversity of Wild and Domesticated Pineapples; Wild Pineapples; Domesticated Pineapples; Domestication Syndrome in the Cultivated Botanical Varieties of Ananas comosus; Pineapple Domestications in Space and Time; Ananas comosus var. comosus; Ananas comosus var. erectifolius; Ananas comosus var. bracteatus; Diffusion of the most Common Pre-Columbian Pineapple Cultivars; Early South-South Diffusion of Cultivars from the Brazilian Coast
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Bromeliaceae: A CAM Photosynthetic PathwayReferences; Chapter 4: Genetic Diversity of Pineapple; Introduction; Genetic Diversity in Pineapple Germplasm; Genetic Diversity Analysis in Pineapple; References; Chapter 5: Genetic Mapping in Pineapple; Genetic Mapping; How Accurate Is the Final Pineapple Genetic Map?; Mapping Phenotypic Traits: The Locus P; References; Chapter 6: Genetic Transformation of Pineapple; Genetic Transformation of Pineapple for Economically Important Traits; Flowering Control; Fruit Ripening Control; Fruit Quality Improvement; Nutritional Value Improvement
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Evolution of CAM Photosynthesis in PineapplePineapple Karyotype Evolution; A Model Reference Genome of Monocot; Concluding Remarks and Future Prospects; References; Chapter 9: The Draft Genome of the MD-2 Pineapple; Introduction; Sample Materials; De Bruijn-Based Assembly Using Only Short Reads; De Novo Assembly of Error-Corrected Long Reads by Mapping; De Novo Assembly of Error-Corrected Long Reads; Draft of MD-2 Pineapple Genome; References; Chapter 10: Comparative Genomics of Pineapple and Other Angiosperm Genomes; Introduction; Genome Duplications in the Pineapple Genome
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Herbicide ToleranceDisease/Pest Resistance; Pollution Control; Multiple Traits; Technical Aspects to Be Considered for Pineapple Transformation; DNA Constructs; Tissue Culture Process; Gene Transfer Method; Selection Agents and Schemes; Future Perspectives; References; Chapter 7: The History of Pineapple Improvement; Introduction; References; Chapter 8: Sequencing and Assembly of the Pineapple Genome; Introduction; Sequencing and Assembly of the Pineapple Genome; Genetic Mapping and Scaffold Anchoring; Genome Annotation; The Transposable Elements and Repeat Sequences in Pineapple
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Origin and Diffusion of 'Queen'Origin and Diffusion of 'Smooth Cayenne'; Conclusions; References; Chapter 2: Biology of the Pineapple Plant; Introduction; Taxonomy of Pineapple; Morphology of Pineapple; Root; Stem; Leaf; Inflorescence; Fruit; Seed; Reproduction and Propagation; Sexual Reproduction; Asexual Reproduction; CAM Photosynthesis and Gas Exchange; References; Chapter 3: The Phylogeny of the Family Bromeliaceae; Bromeliaceae: The Plant Family; Bromeliaceae: Subfamilies and Its Features; Bromeliaceae: Historical Biogeography and Systematic Classification
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| Abstract
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This book is the first comprehensive volume on the genetics and genomics of pineapple and provides an overview of the current state of pineapple research. Pineapple [Ananas comosus (L.) Merr.] is the second most important tropical fruit after banana in term of international trade. Its features are advantageous for genomic research: it has a small genome of 527 Mb which is diploid and vegetatively propagated; it is monocot, closely related to the grass family that includes major cereal crops, wheat, rice, corn, sorghum, and millet; and it serves as an out group for genetic and genomic research in grasses. In addition to exploring the evolution and improvement of pineapple, this work examines the pineapple genome with respect to genome structure and organization, comparative analyses with other angiosperm genomes, transcription factors, disease resistance, and circadian clock regulation of CAM related genes. With chapters covering botanical, genetic, genomic, and applied aspects of pineapple, this text also encourages the application of genomic technologies and suggests future prospects.
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| Subject
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Genomics.
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| Subject
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Pineapple-- Genetics.
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Pineapple-- Molecular genetics.
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Botany plant sciences.
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Genomics.
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NATURE-- Plants-- General.
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Plant physiology.
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| Subject
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Plant reproduction propagation.
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| Dewey Classification
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584/.98
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| LC Classification
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QK495.B76
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| Added Entry
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Ming, Ray
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