This book provides a first hand and complete information on orchid biotechnology for orchid lovers, graduate students, researchers and industry growers. It contains comprehensive genomics and transcriptomics data, and a thorough discussion of the molecular mechanism of orchid floral morphogenesis. The contributors to the book are all orchid enthusiasts with more than 20 years' experience in the field.
With more than 25,000 species, orchids are the most species-rich of all angiosperm families. They show wide diversity of epiphytic and terrestrial growth forms and have successfully colonized almost every habitat on earth. Orchids are fantastic for their spectacular flowers with highly evolved petal, labellum, and fused androecium and gynoecium, gynostemium, to attract pollinators for effective pollination. In addition, orchids have attracted the interest of many evolutionary biologists due to their highly specialized evolution and adaptation strategies.
Orchid Biotechnology III covers the most update knowledge of orchid biotechnology research on Phalaenopsis, Oncidium, Cymbidium, Anoectohilus, Paphiopedilum, and Erycina pusilla. It will provide graduate students, researchers, orchid lovers and breeders with an opportunity to understand the mechanism why the orchids are so mysterious and spectacular. Hopefully, this information will be helpful for breeders to enhance orchid breeding and create even more elegant and grace flowers.
This book provides a first hand and complete information on orchid biotechnology for orchid lovers, graduate students, researchers and industry growers. It contains comprehensive genomics and transcriptomics data, and a thorough discussion of the molecular mechanism of orchid floral morphogenesis. The contributors to the book are all orchid enthusiasts with more than 20 years' experience in the field.
With more than 25,000 species, orchids are the most species-rich of all angiosperm families. They show wide diversity of epiphytic and terrestrial growth forms and have successfully colonized almost every habitat on earth. Orchids are fantastic for their spectacular flowers with highly evolved petal, labellum, and fused androecium and gynoecium, gynostemium, to attract pollinators for effective pollination. In addition, orchids have attracted the interest of many evolutionary biologists due to their highly specialized evolution and adaptation strategies.
Orchid Biotechnology III covers the most update knowledge of orchid biotechnology research on Phalaenopsis, Oncidium, Cymbidium, Anoectohilus, Paphiopedilum, and Erycina pusilla. It will provide graduate students, researchers, orchid lovers and breeders with an opportunity to understand the mechanism why the orchids are so mysterious and spectacular. Hopefully, this information will be helpful for breeders to enhance orchid breeding and create even more elegant and grace flowers.
The Orchid Viruses Found in the 21th Century; Virus Resistance; Screening for Virus Free Using Multiplex RT-PCR and Microchip; Pathogenic Bacteria Resistance; Orchid Transformation; Low Ambient Temperature-Responsive and Tissue-Specific Micrornas; Comparative Chloroplast Genomic Analysis and Developing DNA Markers; Development of SSR Markers in Phalaenopsis Orchids; DNA Barcodes Derived from Plastid trnL Intron in Phalaenopsis Species; Polyploidy in Orchids; Model for Perianth Formation in Orchids; Delay of Flower Senescence and Abscission by FOREVER YOUNG FLOWER Homolog from Oncidium Orchid; Virus-Induced Gene Silencing for Functional Genomics Research in Orchids; Databases for Orchid Genomic and Transcriptomic Research; C/D-Class MADS-Box Genes on Orchid Gynostemium and Ovule Development; Flower Development of Phalaenopsis Orchid Involves Functionally Divergent B-Class and SEPALLATA-Like Genes; Three R2R3-MYB Transcription Factors Regulate Distinct Floral Pigmentation Patterning in Phalaenopsis Spp.; Promoter Studies of B-Class MADS-Box Genes for Phalaenopsis and Oncidium Floral Morphogenesis; Current Status of Genomics Research in Erycina Pusilla; Elevated Temperature Induces Floral Transition via Up-Regulation of Cytosolic Ascorbate Peroxidase 1 and Subsequent Reduction of the Ascorbate Redox Ratio in Oncidium Hybrid Orchid; Warm-Night Temperature Delays Spike Emergence and Alters Dawn-Dusk Changes in Carbon Pool Metabolism in the Stem and Leaves of Phalaenopsis Aphrodite; RNA Interference-Based Gene Silencing of Phytoene Synthase Impairs Growth; Carotenoids, and Plastid Phenotype in Oncidium Hybrid Orchid; Chromosome Pairing Affinities in Interspecific Hybrids Reflect Phylogenetic Distances Among Lady's Slipper Orchids (Paphiopedilum); Temperature Acclimation Before Shipping and Light Acclimation After Shipping Improve the Performance of Phalaenopsis After Prolonged Dark Shipping; LED Lights Manipulation to Speed Up Tissue Culture Mass Propagation in Phaleanopsis Orchid, Estimating Nuclear DNA Content within 50 Species of the Genus Phalaenopsis Blume (Orchidaceae); A de Novo Floral Transcriptome Reveals;
 |
Ask a Question About this Product More... |
|
