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Record Nr. |
UNINA9910797849503321 |
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Titolo |
Genetic and genomic resources for grain cereals improvement / / edited by Mohar Singh, Hari D. Upadhyaya |
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Pubbl/distr/stampa |
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London : , : Elsevier, , [2016] |
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©2016 |
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ISBN |
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0-12-802037-7 |
0-12-802000-8 |
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Descrizione fisica |
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1 online resource (386 p.) |
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Disciplina |
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Soggetti |
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Germplasm resources, Plant |
Grain |
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Lingua di pubblicazione |
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Formato |
Materiale a stampa |
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Livello bibliografico |
Monografia |
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Note generali |
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Nota di contenuto |
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Cover; Title Page; Copyright Page; Contents; List of contributors; Preface; Introduction; 1 - Rice; 2 - Wheat; 3 - Barley; 4 - Oat; 5 - Sorghum; 6 - Pearl millet; 7 - Finger and foxtail millets; 8 - Proso, barnyard, little, and kodo millets; References; 1 - Rice; 1.1 - Introduction; 1.2 - Origin, distribution, and diversity; 1.3 - Germplasm exploration and collection; 1.3.1 - Germplasm introduction/acquisition; 1.3.2 - Collection of wild relatives; 1.3.3 - Wild species and its importance; 1.3.4 - Collection of trait-specific germplasm; 1.3.4.1 - Nerice rice; 1.3.4.2 - Medicinal (njavara) rice |
1.4 - Germplasm introduction1.5 - Germplasm conservation; 1.6 - Germplasm evaluation and utilization; 1.6.1 - Disease resistance; 1.6.2 - Insect resistance; 1.6.3 - Abiotic stress tolerance; 1.6.4 - Donors identified for different traits; 1.7 - Limitations in germplasm use; 1.8 - Germplasm enhancement through wide crosses; 1.9 - Rejuvenation of cultivated germplasm; 1.10 - Sharing of germplasm; 1.11 - Registration of germplasm; 1.12 - Integration of genomic and genetic resources in crop improvement; 1.12.1 - Structural and functional genomic resources; 1.12.2 - Rice genome |
1.12.3 - Rice whole-genome sequencing1.12.3.1 - Cultivated rice; 1.12.3.2 - Wild rice; 1.12.4 - The Oryza map alignment project; 1.12.5 - Rice genome resequencing project (3000 accs.); 1.12.6 - Plastome |
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genome: plastid and mitochondrial genomes; 1.12.7 - Resequencing of rice genome; 1.12.8 - Structural genomics; 1.12.8.1 - Molecular marker; 1.12.8.2 - Gene identification and characterization; 1.12.8.2.1 - Conventional approaches: map-based cloning; 1.12.8.2.2 - Next-generational sequencing technology approach; 1.12.9 - Functional genomics; 1.12.10 - Mutant resources of rice |
1.12.10.1 - Mutants developed through physical and chemical mutagenesis1.12.10.2 - Mutants developed through insertional mutagenesis; 1.12.10.3 - T-DNA insertion mutagenesis; 1.12.10.4 - Transposon mutagenesis; 1.12.10.5 - Retrotransposon mutagenesis; 1.12.11 - Transcriptomic resources; 1.12.11.1 - Study of transcriptome composition; 1.12.11.1.1 - Sequencing of ESTs and FL-cDNA; 1.12.11.1.2 - Genomic tiling microarray analysis; 1.12.11.2 - Study of transcriptome dynamics; 1.12.11.2.1 - Microarray analysis; 1.12.11.2.2 - RNA-Seq analysis; 1.12.12 - Proteomic resources of rice |
1.12.13 - Rice systems biology1.13 - Conclusions; References; Further Readings; 2 - Wheat; 2.1 - Introduction; 2.2 - Evolution and origin of Triticum; 2.2.1 - Evolution; 2.2.2 - Origin and distribution of Triticum; 2.3 - Wheat genetic resources and gene pools; 2.4 - Genetic diversity and erosion from the traditional areas; 2.5 - Conservation of genetic resources; 2.5.1 - In situ conservation; 2.5.2 - Ex situ conservation; 2.6 - Processing to conservation; 2.6.1 - Characterization; 2.6.2 - Documentation; 2.6.3 - Multiplication and regeneration; 2.6.4 - Distribution |
2.7 - Role of genetic resources in wheat breeding |
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