Rice Functional Genomics: Challenges, Progress and Prospects by Narayana M. Upad

Description: Rice Functional Genomics by Narayana M. Upadhyaya This book details rice functional genomics. It takes a multi-pronged genome-wide approach using structural similarities, expression profiles, and mutant phenotypes. Coverage includes the current status of genome sequencing and annotation. FORMAT Hardcover LANGUAGE English CONDITION Brand New Publisher Description Rice has been chosen as the model cereal for functional genomics by the international scientific community not only because it is a major global food crop but also because of its small genome, the ease with which it can be transformed, its well understood genetics with detailed genome physical maps and dense molecular markers, and the existence of great similarities in gene sequence, gene structure, gene order and gene function among all the cereals and grasses. Genes identified in rice as being important agronomically are also important in other cereals, and any understanding of rice genes is directly applicable to other cereals. Rice Functional Genomics - Challenges, Progress and Prospects covers the whole spectrum of rice functional genomics. The contributed chapters reflect the collective wisdom of more than 70 leading scientists working in this emerging and fascinating area of science. In addition to overviews of the current status of genome sequencing and annotation, various chapters describe the tools and resources being developed worldwide such as expressed sequence tags (ESTs), full-length cDNAs, gene expression profiles (transcriptome, proteome and metabolome), chemical- and radiation-induced mutants, TILLING resources, insertional knockout mutants (T-DNA, transposon and retrotransposon) and activation tags. Exploitation of naturally occurring alleles, Oryza map alignments, gene targeting by homologous recombination and gene silencing by RNAi as well as the application of functional genomics tools for crop improvement and the power of comparative genomics are covered in separate chapters. Various bioinformatics tools and resources pertinent to rice functional genomics are also described and discussed. It is hoped that scientists involved in all aspects of rice research will find this book useful as it spans the divide between molecular biology and plant improvement. Notes Rice has been chosen as a model cereal for functional genomics by the international scientific community because the ease with which it can be transformed, its well understood genetics with detailed genome physical maps, and dense molecular markers. In addition, there is great similarities in gene sequence, gene structure, gene order, and gene function among all the cereals and grasses. Genes identified in rice as being important will also be important in other cereals and any understanding of rice genes is directly applicable to the genes of other cereals. This book details rice functional genomics. It takes a multi-pronged genome-wide approach using structural similarities, expression profiles, and mutant phenotypes. Coverage includes the current status of genome sequencing and annotation, various tools, and resources being developed worldwide in the form of expressed sequence tags (ESTs), full-length cDNA, gene expression profiles and gene tagging. Back Cover Rice has been chosen as the model cereal for functional genomics by the international scientific community not only because it is a major global food crop but also because of its small genome, the ease with which it can be transformed, its well understood genetics with detailed genome physical maps and dense molecular markers, and the existence of great similarities in gene sequence, gene structure, gene order and gene function among all the cereals and grasses. Genes identified in rice as being important agronomically are also important in other cereals, and any understanding of rice genes is directly applicable to other cereals. Rice Functional Genomics - Challenges, Progress and Prospects covers the whole spectrum of rice functional genomics. The contributed chapters reflect the collective wisdom of more than 70 leading scientists working in this emerging and fascinating area of science. In addition to overviews of the current status of genome sequencing and annotation, various chapters describe the tools and resources being developed worldwide such as expressed sequence tags (ESTs), full-length cDNAs, gene expression profiles (transcriptome, proteome and metabolome), chemical- and radiation-induced mutants, TILLING resources, insertional knockout mutants (T-DNA, transposon and retrotransposon) and activation tags. Exploitation of naturally occurring alleles, Oryza map alignments, gene targeting by homologous recombination and gene silencing by RNAi as well as the application of functional genomics tools for crop improvement and the power of comparative genomics are covered in separate chapters. Various bioinformatics tools and resources pertinent to rice functional genomics are also described and discussed. It is hoped that scientists involved in all aspects of rice research will find this book useful as it spans the divide between molecular biology and plant improvement. About the Editor: Narayana M. Upadhyaya is currently a Principal Research Scientist at CSIRO Plant Industry, Canberra, Australia and leads the group working on Rice Functional Genomics. Previously, he pioneered research into the sequencing of the Rice Ragged Stunt Oryzavirus (RRSV) genome and produced RRSV genome-based synthetic resistance gene constructs while working on a Rockefeller Foundation-funded Rice Biotechnology project (1990-1997) which involved international collaboration. He has been the principal investigator in the bilateral science and technology collaborative research with China (1997-2000). He was instrumental in developing and setting up the rice transformation facility at CSIRO Plant Industry not only for RRSV research but also for other research projects where rice has been used as a model system. He has developed the T-DNA double right border (DRB) vector technology for generating selectable marker-free (SMF) transgenic plants. Since then he has developed a research project on "Rice Functional Genomics" (funded by Australias RIRDC and the NSW Centre for Agricultural Genomics) aimed at determining the function of rice genes using an insertional mutagenesis approach. The tools and resources being developed in the group are internationally competitive and as a result CSIRO Plant Industry has become an active member of the International Rice Functional Genomics Consortium. Dr. Upadhyaya has 50 refereed papers, 11 invited presentations and over 50 conference presentations to his credit. Author Biography Narayana M. Upadhyaya is currently a Principal Research Scientist at CSIRO Plant Industry, Canberra, Australia and leads the group working on Rice Functional Genomics. Previously, he pioneered research into the sequencing of the Rice Ragged Stunt Oryzavirus (RRSV) genome and produced RRSV genome-based synthetic resistance gene constructs while working on a Rockefeller Foundation-funded Rice Biotechnology project (1990-1997) which involved international collaboration. He has been the principal investigator in the bilateral science and technology collaborative research with China (1997-2000). He was instrumental in developing and setting up the rice transformation facility at CSIRO Plant Industry not only for RRSV research but also for other research projects where rice has been used as a model system. He has developed the T-DNA double right border (DRB) vector technology for generating selectable marker-free (SMF) transgenic plants. Since then he has developed a research project on "Rice Functional Genomics" (funded by Australias RIRDC and the NSW Centre for Agricultural Genomics) aimed at determining the function of rice genes using an insertional mutagenesis approach. The tools and resources being developed in the group are internationally competitive and as a result CSIRO Plant Industry has become an active member of the International Rice Functional Genomics Consortium. Dr. Upadhyaya has 50 refereed papers, 11 invited presentations and over 50 conference presentations to his credit. Table of Contents Rice Genome Sequence: The Foundation for Understanding the Genetic Systems.- Rice Genome Annotation: Beginnings of Functional Genomics.- Genome-Wide RNA Expression Profiling in Rice.- Rice Proteomics: A Step Toward Functional Analysis of the Rice Genome.- Metabolomics: Enabling Systems-Level Phenotyping in Rice Functional Genomics.- Use of Naturally Occurring Alleles for Crop Improvement.- Chemical- and Irradiation-Induced Mutants and TILLING.- T-DNA Insertion Mutants as a Resource for Rice Functional Genomics.- Transposon Insertional Mutants: A Resource for Rice Functional Genomics.- Gene Targeting by Homologous Recombination for Rice Functional Genomics.- RNA Silencing and Its Application in Functional Genomics.- Activation Tagging Systems in Rice.- Informatics Resources for Rice Functional Genomics.- The Oryza Map Alignment Project (OMAP): A New Resource for Comparative Genome Studies within Oryza.- Application of Functional Genomics Tools for Crop Improvement.- From Rice to Other Cereals: Comparative Genomics. Review From the reviews:"This book represents an excellent set of (reviewed) reviews that explains what is happening in the world of rice genomic research now. … This is a useful book for genetic resources workers because understanding the way in which the genome works is generating huge numbers of mutants required for forward (from phenotype to genome sequence) and reverse genetics (genome sequence to phenotype)." (D. Vaughan, Genetic Resources and Crop Evolution, Vol. 54, 2007) Long Description Rice has been chosen as the model cereal for functional genomics by the international scientific community not only because rice is a major food crop of the world but also because of its small genome (~430 Mb which is the smallest among cereal genomes); the ease with which it can be transformed; its well understood genetics with detailed genome physical maps and dense molecular markers; and the existence of great similarities in gene sequence, gene structure, gene order and gene function among all the cereals and grasses. Genes identified in rice as being important agronomically are also important in other cereals, and any understanding of rice genes is directly applicable to other cereals. Rice Functional Genomics - Challenges, Progress and Prospects covers the whole spectrum of rice functional genomics. In addition to overviews of current status of genome sequencing and annotation, various tools and resources being developed worldwide such as expressed sequence tags (ESTs), full-length cDNAs, gene expression profiles (transcriptome, proteome and metabolome), chemical- and radiation-induced mutants, TILLING resources, insertional knockout mutants (T-DNA, transposon and retrotransposon) and activation tags have been described in various chapters. Exploitation of naturally occurring alleles, Oryza alignment maps (OMAP), gene targeting by homologous recombination and gene silencing by RNAi as well as the application of functional genomics tools for crop improvement and the power of comparative genomics are covered in separate chapters. Various bioinformatics tools and resources pertinent to rice functional genomics are also described and discussed. It is hoped that scientists involved in all aspects of rice research will find this book useful as it spans the divide between molecular biology and plant improvement. Review Quote From the reviews:"This book represents an excellent set of (reviewed) reviews that explains what is happening in the world of rice genomic research now. … This is a useful book for genetic resources workers because understanding the way in which the genome works is generating huge numbers of mutants required for forward (from phenotype to genome sequence) and reverse genetics (genome sequence to phenotype)." (D. Vaughan, Genetic Resources and Crop Evolution, Vol. 54, 2007) Feature First book in the market on rice functional genomics Takes a multi-pronged genome-wide approach using structural similarities, expression profiles and mutant phenotypes Includes the current status of genome sequencing and annotation, various tools and resources being developed worldwide in the form of expressed sequence tags (ESTs), full-length cDNA, gene expression profiles and gene tagging (knockouts and activation tags) Description for Sales People Rice has been chosen as a model cereal for functional genomics by the international scientific community because the ease with which it can be transformed, its well understood genetics with detailed genome physical maps, and dense molecular markers. In addition, there is great similarities in gene sequence, gene structure, gene order, and gene function among all the cereals and grasses. Genes identified in rice as being important will also be important in other cereals and any understanding of rice genes is directly applicable to the genes of other cereals. This book details rice functional genomics. It takes a multi-pronged genome-wide approach using structural similarities, expression profiles, and mutant phenotypes. Coverage includes the current status of genome sequencing and annotation, various tools, and resources being developed worldwide in the form of expressed sequence tags (ESTs), full-length cDNA, gene expression profiles and gene tagging. Details ISBN0387489037 Short Title RICE FUNCTIONAL GENOMICS Language English ISBN-10 0387489037 ISBN-13 9780387489032 Media Book Format Hardcover Year 2007 Imprint Springer-Verlag New York Inc. Subtitle Challenges, Progress and Prospects Place of Publication New York, NY Country of Publication United States Edited by Narayana M. Upadhyaya DOI 10.1604/9780387489032;10.1007/0-387-48914-2 AU Release Date 2007-04-16 NZ Release Date 2007-04-16 US Release Date 2007-04-16 UK Release Date 2007-04-16 Author Narayana M. Upadhyaya Pages 500 Publisher Springer-Verlag New York Inc. Edition Description 2007 ed. Edition 2007th Publication Date 2007-04-16 Alternative 9781441923752 DEWEY 572.86249 Audience Professional & Vocational Illustrations 59 Illustrations, black and white; XXXIV, 500 p. 59 illus. We've got this At The Nile, if you're looking for it, we've got it. With fast shipping, low prices, friendly service and well over a million items - you're bound to find what you want, at a price you'll love! TheNile_Item_ID:96286914;

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