Principles and practices of plant genomics . Volume 1 Genome mapping / / editors, Chittaranjan Kole, Albert G. Abbott
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| Titolo: |
Principles and practices of plant genomics . Volume 1 Genome mapping / / editors, Chittaranjan Kole, Albert G. Abbott
|
| Pubblicazione: | Enfield, NH, : Science Publishers, c2008 |
| Edizione: | 1st ed. |
| Descrizione fisica: | xxvi, 393 p. : ill. (some col.) |
| Disciplina: | 572.8/62 |
| Soggetto topico: | Plant genetics |
| Plant genomes | |
| Altri autori: |
AbbottAlbert G
KoleChittaranjan
|
| Note generali: | Bibliographic Level Mode of Issuance: Monograph |
| Nota di bibliografia: | Includes bibliographical references and index. |
| Nota di contenuto: | Intro -- The Prologue -- Foreword -- Preface to the Series -- Preface to the Volume -- Contents -- List of Contributors -- List of Abbreviations -- 1. Fundamentals of Plant Genome Mapping -- 1. THE GENOME CONCEPTS -- 1.1 Types of Genomes -- 1.2 Nuclear DNA Content in Plant Genomes -- 1.3 Genome or Chromosome Mapping -- Genetic Map -- Physical Map -- 2. GENETIC MAPPING AND MARKERS IN THE ERA OF CLASSICAL GENETICS -- 3. GENETIC MAPPING AND MARKERS IN THE ERA OF MOLECULAR GENETICS -- 3.1 Isoenzyme Markers -- 3.2 Historical Background of DNA Markers -- 3.3 The DNA Markers -- 3.4 Molecular Genetic Mapping: New Concepts, Tools and Strategies -- 3.5 Mapping Populations and Genetic Stocks -- 3.6 Computer Programs for Molecular Mapping -- 4. APPLICATIONS OF GENETIC MAPPING -- 4.1 Marker-Assisted Crop Improvement -- 4.2 Map-Based Cloning of Genes and QTLs -- 4.3 Elucidation of Phylogenetic Relationships and Evolutionary Pathways -- 4.4 Construction of Third Generation Chromosome Maps -- 4.5 Role of Genetic Mapping in Genomics Arena -- 5. CONTRIBUTORY DISCIPLINES AND BENEFICIARIES -- 6. CONCERNS AND CAUTIONS -- 6.1 Selection of Crop -- 6.2 Selection of Traits -- 6.3 Selection of Base Materials -- 6.4 Converging Approach -- References -- 2. Molecular Markers-History, Features and Applications -- 1. INTRODUCTION -- 1.1 Genetic Markers -- 1.2 Molecular Markers -- 2. THE MAJOR CATEGORIES OF MOLECULAR MARKERS -- Restriction Fragment Length Polymorphism (RFLP) -- Dot Blot Assay -- PCR-based Markers -- Random Amplified Polymorphic DNA (RAPD) -- Amplified Fragment Length Polymorphism (AFLP) -- Sequence Characterized Amplified Region (SCAR) -- Simple Sequence Repeat (SSR) -- Expressed Sequence Tag-derived SSR (EST-SSR) -- Inter-Simple Sequence Repeat (ISSR) -- Cleaved Amplified Polymorphic Sequence (CAPS) -- Sequence-Specific Amplified Polymorphism (S-SAP). |
| Inter-Retrotransposon Amplified Polymorphism (IRAP) -- Retrotransposon-Microsatellite Amplified Polymorphism (REMAP) -- Retrotransposon-Based Insertional Polymorphism (RBIP) -- Sequence Related Amplification Polymorphism (SRAP) -- Target Region Amplification Polymorphism (TRAP) -- Single Nucleotide Polymorphism (SNP) -- 3. FEATURES OF MOLECULAR MARKERS -- 4. FUTURE PERSPECTIVES -- References -- 3. Mapping Populations: Development, Descriptions and Deployment -- 1. INTRODUCTION -- 2. MAPPING POPULATIONS -- 3. SELECTION OF PARENTS -- 4. POPULATIONS DERIVED FROM HOMOZYGOUS PARENTS -- 4.1 F2, Population -- Advantages -- Disadvantages -- 4.2 F2-derived F3 (F2:3) Population -- Advantages -- Disadvantages -- 4.3 Backcross (BC) Population -- Advantages -- Disadvantages -- 4.4 Doubled Haploid Lines (DHL) -- Aduantages -- Disadvantages -- 4.5 Recombinant Inbred Lines (RIL) -- Advantages -- Disadvantages -- 4.6 Near-lsogenic Lines (NIL) -- Advantages -- Disadvantages -- 5. CONSIDERATIONS FOR QTL MAPPING FROM HETEROZYGOUS PARENTS -- 5.1 Genetic Load, Heterozygosity and Mating Type -- 6. ESTIMATION OF ADDITIVITY AND DOMINANCE -- 7. MAPPING ACCURACY -- 7.1 Segregation Distortion in Linkage Mapping -- 8. COMBINING MARKERS AND POPULATIONS -- Conclusions -- References -- 4. Construction of Genetic Linkage Maps -- Overview -- 1. INTRODUCTION -- 2. FROM MARKERS TO LINKAGE MAPPING -- 2.1 Basic Concepts -- 2.2 Two- and Three-point Analysis -- 2.3 Genetic Distance and Mapping Functions -- 2.4 Estimating Genetic Distance from Experimental Data -- 2.5 Formation of Linkage Groups -- 2.6 Ordering of Markers within a Linkage Group -- 2.7 Special Considerations -- 3. MAPPING OUTBREEDING SPECIES -- 4. MAPPING WITH A REDUCED POPULATION SIZE -- 4.1 The Deterministic Approach -- Greedy Algorithm -- 4.2 The Stochastic Approach -- Application. | |
| 5. HIGH- AND ULTRA HIGH-DENSITY MAPS -- 5.1 Construction of High-Density Linkage Maps -- 5.2 Ultra High-Density Maps (UHD-maps) -- Construction of UHD maps -- 6. LINKAGE MAPS IN POLYPLOIDS -- 7. CONCLUDING REMARKS -- References -- 5. Mapping and Tagging of Genes Controlling Simple-inherited Traits -- 1. INTRODUCTION -- 1.1 Simple-Inherited Traits -- 1.2 The Early History of Genetic Maps -- 1.3 The Evolution of Genetic Maps -- 1.4 Integrated Cytogenetic Maps -- 1.5 Generating Cytogenetic Maps -- 2. IDENTIFICATION OF MARKERS LINKED TO TRAITS OF INTEREST -- 2.1 Use of NILs to Identify Linkage with Molecular Markers -- 2.2 Use of Bulked Segregant Analysis (BSA) to Identify Linkage with Molecular Markers -- 2.3 Targeting Disease Resistance Genes by NBS Profiling -- 3. CONVERSION OF DOMINANT TO CO-DOMINANT MARKERS -- 4. USE OF GENOMICS TOOLS FOR MAPPING -- 5. STATISTICAL CONSIDERATIONS -- 6. APPLICATION OF GENETIC MAPPING -- References -- 6. Genetic Mapping of Quantitative Trait Loci -- 1. INTRODUCTION -- 2. NATURE OF QUANTITATIVE VARIATION -- 3. MAPPING POPULATIONS -- 3.1 Controlled Crosses -- 3.2 Structured Pedigrees -- 3.3 Natural Populations -- 3.4 Joint linkage and linkage disequilibrium mapping -- 4. STATISTICAL MODELS, METHODS AND ALGORITHMS -- 4.1 Models -- 4.2 The QTL. Model -- 4.3 The Marker Model -- 4.4 Marker-conditional QTL. Model -- 4.5 Methods and Algorithms -- 4.5.1 Marker Analysis -- 4.5.1.1 Testing -- 4.5.1.2 Linkage analysis -- 4.5.2 Interval Mapping -- 4.5.2.1 Mixture model -- 4.5.2.2 Conditional probabilities -- 4.5.2.3 Likelihood and algorithm -- 4.5.2.4 Hypothesis testing -- 4.5.2.5 Example -- 4.5.3 Composite and Multiple Interval Mapping -- 5. CONCLUDING REMARKS -- Acknowledgements -- References -- 7. Comparative Mapping -- 1. INTRODUCTION -- 2. METHODOLOGY AND HISTORY -- 3. APPLICATIONS OF COMPARATIVE MAPPING. | |
| 3.1 Development of Linkage Maps -- 3.2 Predicting Gene Location and Function -- 3.3 Gene Cloning -- 3.4 Analysis of Genome Evolution -- 4. COMPARATIVE MAPPING IN GRASSES (POACEAE) -- 5. THE SOLANACEAE -- 6. THE BRASSICACEAE -- 7. THE FABACEAE -- 8. COMPARATIVE MAPPING BEYOND FAMILIES -- Conclusions -- References -- 8. Map-based Cloning of Genes and Quantitative Trait Loci -- 1. INTRODUCTION -- 2. DETAILED PROCEDURE OF W-BASED CLONING -- 2.1 Genetic Mapping or Tagging of the Targeted Genes or QTLs with DNA Markers -- 2.1.1 Genome-wide Interval Mapping -- Bulked Segregant Analysis (BSA) -- Near-Isogenic Line (NIL) Analysis -- 2.2 Physical Mapping of the Targeted Region -- 2.3 High-Resolution or Fine-Mapping of Targeted Gene Locus -- 2.4 Chromosome Walking or Landing -- 2.5 Gene Identification -- BLAST Search -- Comparative Sequence Analysis -- Gene Expression Analysis -- Genomic DNA Transformation -- cDNA Transformation -- RNA Interference (RNAi) -- 3. EXAMPLES OF MAP-BASED CLONING IN PLANTS -- 3.1 Map-based Cloning of Genes Controlling Mendelian Traits -- 3.2 Map-based Cloning of QTLs -- 4. NOTES OF MAP-BASED CLONING -- 4.1 Phenotyping Accuracy -- 4.2 Variation of Genetic Recombination Rate along a Chromosome -- 4.3 Use of Plant-Transformation-Competent BIBAC and TAC Libraries -- 4.4 Chromosome Walking versus Whole-Genome Physical Mapping and Sequencing -- 4.5 Targeted Gene Source Genotypes and Source Libraries -- 5. CONCLUDING REMARKS -- References -- 9. Bioinformatics: Fundamentals and Applications in Plant Genetics, Mapping and Breeding -- 1. WHAT IS BIOINFORMATICS? -- 2. UNDERSTANDING THE GENOME -- 3. GENE AND GENOME SEQUENCE DATABASES -- 4. GENE EXPRESSION INFORMATION -- 5. GENE EXPRESSION DATABASES -- 6. THE PROTEOME AND METABOLOME -- 7. THE PHENOME -- 8. FROM GENETICS AND GENOMICS TO PHENOMICS -- 9. MOLECULAR GENETIC MARKERS: SSRs AND SNPs. | |
| 10. MOLECULAR MARKER DATABASES -- 11. MOLECULAR MARKER APPLICATIONS -- 12. POPULATION GENETIC SOFTWARE PACKAGES -- 13. GENETIC DIVERSITY -- 14. HARDY-WEINBERG EQUILIBRIUM (HWE) -- 15. LINKAGE DISEQUILIBRIUM -- 16. POPULATION SUBDIVISION -- 17. PHYLOGENETIC ANALYSIS -- 17.1 Phylogenetic Analysis Software Packages -- 18. APPLICATION OF GENOTYPIC DATA TO GENETIC MAPPING ANALYSIS -- 19. QTL ANALYSIS -- 20. GENETIC MAPPING AND QTL SOFTWARE PACKAGES -- 21. INTEGRATED BIOINFORMATICS FOR CROP BREEDING -- References -- 10. An Overview on Plant Genome Initiatives -- 1. INTRODUCTION -- 1.1 What is a Plant Genome Initiative? -- 1.2 Plant Nuclear DNA Content -- 1.3 Molecular Maps -- 1.4 Molecular Markers -- 2. GENOME SEQUENCING INITIATIVES -- 3. EXAMPLES OF GENOME INITIATIVES -- 3.1 The Maize Sequencing Project -- 3.2 Wheat Genome Initiative -- 4. NON-GENOME SEQUENCING ACTIVITIES -- 4.1 The Identification of Genes -- 4.2 The Identification of Gene Function -- 5. FUTURE EXTENDED SEQUENCING OF PLANT GENOMES -- 6. CONCLUDING REMARKS -- References -- 11. Computing Strategies and Software for Gene Mapping -- 1. INTRODUCTION -- 2. QTL ANALYSIS WITH INBRED LINES -- 2.1 Single QTL Mapping -- 2.1.1 Missing Genotypes -- 2.1.2 Detection of QTL -- 2.1.3 Model Selection for Multiple QTL -- 2.1.4 Multiple QTL Estimation Approaches -- 2.1.5 Detailed Analysis of Multiple QTL Simulated Cross -- 2.1.6 Covariates and Gene-Environment Interactions -- 2.1.7 Overview of Available Packages -- 2.1.8 QTL Analysis with Outbred Lines -- 3. ASSOCIATION ANALYSIS -- 3.1 Association Analysis Examples -- Acknowledgements -- References -- Index. | |
| Sommario/riassunto: | Genome of an organism is depicted by genetic linkage mapping and physical mapping. Genome mapping stated with genetic linkage mapping and contributed enormously in genome analysis and its improvement. Physical mapping emerged later and is the prelude to structural and functional genomics. Volume One of Principles and Practices of Plant Genomics introduces the historical background of genome mapping, and delineates modern methods in the field. This volume briefly introduces the historical background and overview on genome mapping. Chapters deliberating on different types of molecular markers, their detection, relative merits, shortcomings and applications; types of mapping populations, methods of their generation, applications; basic concepts and schematic depiction of construction of genetic linkage maps; concepts and strategies of mapping genes controlling qualitative and quantitative traits on framework genetic linkage maps; rationale, methodologies and implications of comparative mapping; principles, strategies, and outcome of map-based cloning; overviews on the recent advances on plant genomics and genome initiatives; and finally computer strategies and software. |
| Titolo autorizzato: | Principles and practices of plant genomics |
| ISBN: | 1-04-027730-6 |
| 1-003-57929-9 | |
| 1-281-94848-9 | |
| 9786611948481 | |
| 1-57808-620-5 | |
| Formato: | Materiale a stampa  |
| Livello bibliografico | Monografia |
| Lingua di pubblicazione: | Inglese |
| Record Nr.: | 9910968947103321 |
| Lo trovi qui: | Univ. Federico II |
| Opac: | Controlla la disponibilità qui |