Varshney, R. & Tuberosa, R. ed.
Genomics-Assisted Crop Improvement Vol.1
Genomics Approaches and Platforms
Springer-Verlag 2008.
386 pp.(H)
ISBN 1-4020-6294-X
26,400円
Contents
1.Genomics-assisted crop improvement: an overview/ 2. Genic molecular markers in plants: development and applications/ 3. Molecular breeding: maximizing the exploitation of genetic diversity/ 4. Modeling QTL effects and marker-assisted selection in plant breeding;/ 5. Applications of linkage disequilibrium and association mapping in crop plants/ 6. Exploitation of natural biodiversity through genomics/ 7. Genomeless genomics in crop improvement/ 8. Comparative genomics of cereals/ 9. Cloning QTLs in plants/ 10. Use of serial analysis of gene expression (SAGE) for transcript profiling in plants/11. Genetical genomics: successes and prospects in plant/ 12. Analysis of salt stress-related transcriptome fingerprints from diverse plant species/ 13. Auxin and cytokinin signaling component genes and their potential for crop improvementi/ 14. Statistical advances in functional genomics/ 15. TILLING and EcoTILLING for crop improvement/ 16. Characterization of epigenetic biomarkers using new molecular approaches/ index/
* Genomics research has great potential to revolutionize the discipline of plant breeding. This two-volume set provides a critical assessment of genomics tools and approaches for crop breeding. Volume 1, entitled "Genomics Approaches and Platforms", illustrates state-of-the-art genomics approaches and platforms presently available for crop improvement. Volume 2, entitled "Genomics Applications in Crops", compiles crop-specific studies that summarize both the achievements and limitations of genomics research for crop improvement. We hope that these two volumes, while providing new ideas and opportunities to those working in crop breeding, will help graduate students and teachers to develop a better understanding of the applications of crop genomics to plant research and breeding. *
Varshney, R. & Tuberosa, R. ed.
Genomics-Assisted Crop Improvement Vol.2
Genomics Applications in Crops
Springer-Verlag 2008.
516 pp.(H)
ISBN 1-4020-6296-6
30,800円
Contents
1. Microsatellite and SNP markers in wheat breeding/ 2. Molecular markers and QTL analysis for grain quality improvement in wheat/ 3. Molecular approaches and breeding strategies for drought tolerance in barley/ 4. Molecular markers for gene pyramiding and disease resistance breeding in barley/ 5. Cloning genes and QTLs for disease resistance in cereals/ 6. Maize breeding and genomics/ 7. Molecular markers and marker-assisted selection in rice/ 8. Application of genomics for molecular breeding in rice/ 9. Marker-assisted selection in sorghum/ 10. Molecular genetics and breeding of grain legume crops for the semi-arid tropics/ 11. Genomics approaches to soybean improvement/ 12. Application of genomics to forage crop breeding for quality traits/ 13. Molecular mapping, marker-assisted selection and map-based cloning in tomato/ 14. Genomics for improvement of Rosaceae temperate tree fruit/ 15. DNA markers: development and application for genetic improvement of coffee/ 16. Genomics of root nodulation in soybean/ 17. Genomics of wheat domestication/ 18. Transcriptome analysis of the sugarcane genome for crop improvement/ index/ *
Brar, D. S. et al. ed.
Rice Genetics V
World Scientific Publishing Co.Pte. Ltd. 2007.6
368 PP. (H)
ISBN 98-1270-772-7
12,700円
Proceedings of the Fifth International Rice Genetics Symposium The Philippines 19 - 23 November 2005
Contents
PART1.Rice A Model Genome for Cereal Research: 1.Rice as a Reference Genome and More (R L Phillips et al.)/ 2.Annotation of the Rice Genome (S Ouyang et al.)/ PART2.Structural Genomics and Resources: 3.Analysis of Oligo Hybridization Properties by High-Resolution Tiling Microarrays in Rice (X Wang et al.)/ 4.Analysis of Genome Sequences from the Maternal and Paternal Parents of an Elite Rich Hybrid (J Yu et al.)/ PART3. Developmental Biology and Gene Regulation: 5.T-DNA Tagging for Developmental Biology (G An et al.)/ 6.Molecular Signaling in Disease Resistance of Rice (K Shimamoto et al.)/ PART4.Applied Genetics: 7.QTLs in Rice Breeding: Examples for Abiotic Stresses (D J Mackill et al.)/ 8.From Gene to Adaptation in Rice (K Onishi & Y Sano)/ PART5.Functional Genomics and Rice Improvement: 9.Functional Genomics for Gene Discovery in Abiotic Stress Response and Tolerance (K Shinozaki & K Yamaguchi-Shinozaki)/ 10.Rice: An Emerging Model for Plant Systems Biology (A von Zychlinski et al.)/ and other papers/
* Rice is now the model plant for genetic research on crop plants; and those who work on rice do so not only to help grow and eat it, but also to advance the frontiers of genetics and molecular biology. Progress made in the last 20 years, since the first International Rice Genetics Symposium (IRGS), has made rice the organism of choice for research on crop plants, and it has become a reference genome. *
Murphy, D.
Plant Breeding and Biotechnology
Societal Context and the Future of Agriculture
(育種学とバイオテクノロジー)
Cambridge University Press 2007.9
452 pp.(H)
ISBN 0-52182-389-7
16,900円
Contents
Part I. The Science of Plant Breeding: 1. Origins of plant breeding/ 2. Creating new genetic variation/ 3. Modern high-tech breeding/ Part II. The Societal Context of Plant Breeding: 4. Rise of the public sector: the US pioneers/ 5. The public sector in the UK/ 6. Breeding goes global: the Green Revolution and beyond/ Part III. Turmoil and Transition: The legacy of the 1980s: 7. Resurgence of the private sector/ 8. Emergence of a new crop improvement paradigm/ 9. Decline of the public sector/ 10. Reaping the consequences/ Part IV. The Agbiotech Paradigm: 11. Agbiotech: genes and dreams/ 12. The future of transgenic crops I. Improving the technology/ 13. The future of transgenic crops II. Improving the products/ Part V. Increasing Global Crop Production: The New Challenges: 14. Feeding the world - fallacies and realities/ 15. The roles of management, subsidies, and breeding in crop improvement/ Part VI. Plant Breeding in the Twenty-First Century: 16. The future of international plant breeding/ 17. Rebalancing our approach to crop improvement/ 18. Where do we go from here?/ 19. Conclusions and recommendations/ index/
* This comprehensive survey of modern plant breeding traces its history from the earliest experiments at the dawn of the scientific revolution in the seventeenth century to the present day and the existence of high tech agribusiness. Murphy tells the story from the perspective of a scientist working in this field, offering a rationale and evidence-based insight into its development. Crop improvement is examined from both a scientific and socio-economic perspective and the ways in which these factors interact and impact on agricultural development are discussed, including debates on genetically-modified food.
* Murphy highlights concerns over the future of plant breeding, as well as potential options to enable us to meet the challenges of feeding the world in the 21st century. This thoroughly interdisciplinary and balanced account serves as an essential resource for everyone involved with plant breeding research, policy and funding, as well as those wishing to engage with current debates. *
Dolezel, J. et al. ed.
Flow Cytometry with Plant Cells
Analysis of Genes, Chromosomes and Genomes
(植物細胞とフローサイトメトリー)
Wiley -VCH 2007.5
479 pp. (H)
ISBN 3-527-31487-3
25,500円
Contents
Preface. List of Contributors/ 1 Cytometry and Cytometers: Development and Growth / 2 Principles of Flow Cytometry / 3 Flow Cytometry with Plants: an Overview / 4 Nuclear DNA Content Measurement / 5 Flow Cytometry and Ploidy: Applications in Plant Systematics, Ecology and Evolutionary Biology / 6 Reproduction Mode Screening / 7 Genome Size and its Uses: the Impact of Flow Cytometry / 8 DNA Base Composition of Plant Genomes / 9 Detection and Viability Assessment of Plant Pathogenic Microorganisms using Flow Cytometry / 10 Protoplast Analysis using Flow Cytometry and Sorting / 11 Flow Cytometry of Chloroplasts / 12 DNA Flow Cytometry in Non-vascular Plants / 13 Phytoplankton and their Analysis by Flow Cytometry / 14 Cell Cycle Analysis in Plants / 15 Endopolyploidy in Plants and its Analysis by Flow Cytometry / 16 Chromosome Analysis and Sorting / 17 Analysis of Plant Gene Expression Using Flow Cytometry and Sorting / 18 FLOWER: A Plant DNA Flow Cytometry Database / Index.
* Targeted at beginners as well as experienced users, this handy reference explains the benefits and uses of flow cytometery in the study of plants and their genomes. Following a brief introduction that highlights general considerations when analyzing plant cells by flow cytometric methods, the book goes on to discuss examples of application in plant genetics, genomic analysis, cell cycle analysis, marine organism analysis and breeding studies. * With its list of general reading and a glossary of terms, this first reference on FCM in plants fills a real gap by providing first-hand practical hints for the growing community of plant geneticists. *
Galun, E.
Plant Patterning
Structural and Molecular Genetic Aspects
World Scientific Publishing Co.Pte. Ltd. 2007.12
512 pp.
ISBN 981-270-408-6
11,000円
Contents
1.Basic Issues Relevant to Plant Patterning: Plant Hormones/ 2.The Cytoskeleton of Plant Cells/ 3. Phylogeny, Taxonomy and Gene Duplication/ 4.Regulation of Gene Expression/ 5.Systems Biology/ 6.The Patterning of Plant Components: Patterning of the Angiosperm Embryo/ 7.The Shoot Apical Meristem/ 8.Patterning of Roots/ 9.The Vegetative Shoot and Transition to Flowering/ 10.The Angiosperm Leaf/ 11. Patterning of Flowers and Their Members/
* This book is unique in that it provides, in one volume, comprehensive information on all the main organs of flowering plants. There is no other book similar to this, written by a single author, that has been published in the last 10 years. *
Edwards, D. ed.
Plant Bioinformatics
Methods and Protocols
Humana Press 2007.11
640 pp. (H) * 179 illus
ISBN 1-58829-653-9
16,000円
Contents
1 The EMBL Nucleotide Sequence and Genome Reviews Databases/ 2 Using GenBank/ 3 A Collection of Plant-Specific Genomic Data and Resources at the National Center for Biotechnology Information/ 4 UniProtKB/Swiss-Prot, the manually annotated section of the UniProt KnowledgeBase/ 5 Plant Database Resources at The Institute for Genomic Research/ 6 MIPS Plant Genome Information Resources (PlantsDB) / 7 HarvEST: an EST database-and viewing software/ 8 The TAIR Database/ 9 AtEnsembl - A post-genomic resource browser for Arabidopsis/ 10 Accessing integrated Brassica genetic and genomic data using the BASC server/ 11 Leveraging model legume information to find candidate genes for soybean Sudden Death Syndrome using the Legume Information System (LIS)/ 12 Legume resources: MtDB and medicago.org/ 13 BGI-RIS V2: Rice Information System at the Beijing Genomics Institute/ 14 GrainGenes: A Genomic Database for Triticeae and Avena/ 15 Gramene: A Resource for Comparative Grass Genomics/ 16 MaizeGDB: The Maize Genetics and Genomics Database/ 17 BarleyBase/PLEXdb: A Unified Expression Profiling Database for Plants and Plant Pathogens/ 18 Reaping the benefits of SAGE/ 19 Methods for analysis of gene expression in plants using MPSS/ 20 Metabolomics Data Analysis, Visualization, and Integration/ 21 KEGG Bioinformatics Resource for Plant Genomics Research / 22 Using ICIS to Integrate Crop Phenotype Data from Different Sources / 23 Automated discovery of Single Nucleotide Polymorphism (SNP) and Simple Sequence Repeat (SSR) molecular genetic markers/ 24 Methods for Gene Ontology Annotation / 25 Gene Structure Annotation at PlantGDB/ 26 An Introduction to BioPerl /
* Bioinformatics is a rapidly developing field. Data volumes continue to grow and there is an increasing breadth of available data, including sequence, gene expression, protein, metabolite and phenotypic data. Novel databases are being developed for specific species or experiment types. These databases and tools may greatly assist in the application of plant biotechnology, though they require a basic set of skills to identify and utilize the most appropriate resource. *
42-73 登録日 08.01.20
