Genomics of cultivated palms /

Bioinformatics offers novel tools and resources to analyze plant genomes and genes. The complete genomes of two important commercial palms (dates and oil palm) have recently been sequenced. This offers scope for many computational tools to decipher the synteny, collinearity and common and unique gen...

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Detalles Bibliográficos
Clasificación:Libro Electrónico
Autor principal: Arunachalam, V.
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London : Elsevier, 2012.
Colección:Elsevier insights.
Temas:
Plant genomes.
Palms > Breeding.
Plantes > G�enomes.
Palms > Breeding
Plant genomes
genomica
genomics
arecaceae
palmen als sierplanten
ornamental palms
oliepalmen
oil palms
Genome informatics
Arecales
Genoominformatica
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover; Genomics of Cultivated Palms; Copyright Page; Contents; Preface; Acknowledgments; Abbreviations; 1 Introduction; 1.1 Palms: Taxonomy and Uses; 1.2 Genetics Cytology and Genomics of Palms; 1.3 Molecular Phylogeny and Evolution; 1.4 Marker-Trait Associations; 1.5 Molecular Cloning and Transgenics; 1.6 Cross-Transferrable Microsatellite Markers in Palms; 1.7 Databases and Software; 1.8 Constraints and Opportunities in Genomics of Palms; References; 2 Coconut; 2.1 Introduction; 2.2 Markers for Assessment of Diversity; 2.3 Maker-Trait Associations, QTL Mapping on Coconut
  • 2.4 Genome Biology of Coconut Endosperm and Fatty Acid Biosynthesis2.5 Coconut Tissue Culture-Related Genes; 2.6 Structural Biology of Hirsutellin; 2.7 Road Map for Coconut Genomics; References; 3 Oil Palm; 3.1 Introduction; 3.2 Markers, QTLS, Omics of Mesocarp, and Shell Thickness; 3.2.1 Markers and Genes for Shell Thickness; 3.2.2 Omics of Oil Palm Mesocarp Biology; 3.3 Transcriptomics and Genes of Somatic Embryogenesis and Mantled Disorder; 3.4 Molecular Markers for QTL Mapping and Diversity Analysis in Oil Palm; 3.5 Genes and Promoters of Oil Palm; 3.6 Bioinformatics
  • 3.7 Haploid Technologies3.8 Road Map for Oil Palm Genomics; References; 4 Date Palm; 4.1 Introduction; 4.2 Genetic Diversity using Molecular Markers; 4.2.1 Amplified Fragment Length Polymorphism; 4.2.2 RAPD, SSR, and ISSR Markers; 4.3 Molecular Biology of Sex Determination; 4.4 Resistance to Bayoud Disease; 4.5 Probes for Brittle Leaf Disease; 4.6 Somaclonal Variations, DNA Methylation, and Other Markers; 4.7 Complete Genomes, SNPs, and Genomic Libraries; 4.8 Proteomics; 4.9 Road Map for Date Palm Genomics; References; 5 Rattans and Palmyra; 5.1 Introduction; 5.2 Molecular Markers for Rattans
  • 5.2.1 Molecular Phylogeny5.2.2 Molecular Markers for Diversity in Rattans; 5.2.3 Marker-Sex Association in Rattans; 5.3 Molecular Markers for Diversity and Sex Association in Palmyra; References; 6 Arecanut; 6.1 Diversity of Areca; 6.2 Molecular Phylogeny of Areca; 6.3 Arecanut and Health Hazards; 6.4 Biomarkers for Arecoline-Induced Damage; 6.5 Xenobiosis, Metabolomics, and Pharmacogenomics; 6.6 Areca Damage and Herbal Remedies; 6.7 Road Map for Areca Genomics; References; 7 Peach Palm; 7.1 Introduction; 7.2 Molecular Phylogeny of Bactridinae
  • 7.3 Biochemical and Molecular Markers in Peach Palm7.4 Polyphenol Oxidase, Carotenoids, and Antioxidants in Bactris; References; 8 Ornamental, Underutilized, and Vulnerable Palms; 8.1 Attalea, Butia, Carpentaria and Ceroxylon; 8.2 Chamaedorea and Euterpe; 8.3 Geonoma, Howea, Johannesteijsma, Livistona, Licuala, Lodoicea and Metroxylon; 8.4 Nypa, Oenocarpus, Pinanga, and Pseudophoenix; 8.5 Conclusions; References; 9 Molecular Phylogeny of Palms; 9.1 Introduction; 9.2 Random Primers and DNA Barcodes [2-5]; 9.3 Markers for Palms from Other Monocot Plants [7-9]; 9.4 Slow Evolution in Palms

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