Biology of Plant Volatiles
-10%
portes grátis
Biology of Plant Volatiles
Dudareva, Natalia; Pichersky, Eran
Taylor & Francis Ltd
06/2020
412
Dura
Inglês
9781138316492
15 a 20 dias
1202
Descrição não disponível.
Part 1: Chemistry of plant volatiles 1. Practical approaches to plant volatile collection and analysis 2. Analysis of internal pools of plant volatiles 3. Bioassay-guided semiochemical discovery in volatile-mediated specialized plant-pollinator interactions with a practical guide to fast-track progress 4. The Chemical diversity of floral scent 5. Vegetative and fruit volatiles for human consumption Part 2: Biochemistry, molecular biology, and evolution of plant volatiles 6. The role of transcriptome analysis in shaping the discovery of plant volatile genes: past, present, and future 7. Flux distribution dynamics at the interface of central carbon metabolism and terpenoid volatile formation 8. Floral scent metabolic pathways and their regulation 9. Biosynthesis and regulation of vegetative plant volatiles 10. Biosynthesis and regulation of fruit volatiles 11. Biosynthesis and regulation of below-ground signaling molecules 12. Evolution of scent genes 13. Volatiles in glands 14. Emission and perception of plant volatiles Part 3: Plant-plant, plant-insect and plant-microbial interactions 15. Floral volatiles for pollinator attraction and speciation in sexually deceptive orchids 16. Behavioral responses to floral scent: experimental manipulations and multimodal plant-pollinator communication 17. Herbivore-induced plant volatiles as a source of information in plant-insect networks 18. Belowground plant volatiles: plant-plant, plant-herbivore and plant-microbial interactions 19. Tree volatiles: effects of biotic and abiotic factors on emission and biological roles Part 4: Commercial Aspects of Plant Volatiles 20. Metabolic engineering of plant volatiles: floral scent, flavors, defense
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Cinnamoyl CoA Reductase;Terpene Synthase;vegetative/fruit volatiles;TPS;scent production;Floral Volatiles;floral scent/evolution;Plant Volatile;plant chemicals;Floral Scent;pollination;GLV;plant defense;Entomopathogenic Nematodes;atmospheric chemistry;MEP Pathway;biosynthesis;Glandular Trichomes;transcriptome profiling;TPS Gene;stable isotope labelling;Pollinator Attraction;genome-scale modelling;Herbivore Induced Plant Volatiles;plant-plant/plant-insect;Plant Plant Communication;plant-microbial interactions;Voc Profile;floral volatile biology;Voc Emission;scent genes;Field Bioassays;plant's pollination ecology;IE;floral scent compounds;Petunia Flowers;herbivores;Secretory Cavities;microbes;Clarkia Breweri;plant volatiles;Lima Bean;plant scent biology;Lima Bean Plants;plant organs;Monoterpene Synthases;Proton Transfer Reaction Mass Spectrometry
Part 1: Chemistry of plant volatiles 1. Practical approaches to plant volatile collection and analysis 2. Analysis of internal pools of plant volatiles 3. Bioassay-guided semiochemical discovery in volatile-mediated specialized plant-pollinator interactions with a practical guide to fast-track progress 4. The Chemical diversity of floral scent 5. Vegetative and fruit volatiles for human consumption Part 2: Biochemistry, molecular biology, and evolution of plant volatiles 6. The role of transcriptome analysis in shaping the discovery of plant volatile genes: past, present, and future 7. Flux distribution dynamics at the interface of central carbon metabolism and terpenoid volatile formation 8. Floral scent metabolic pathways and their regulation 9. Biosynthesis and regulation of vegetative plant volatiles 10. Biosynthesis and regulation of fruit volatiles 11. Biosynthesis and regulation of below-ground signaling molecules 12. Evolution of scent genes 13. Volatiles in glands 14. Emission and perception of plant volatiles Part 3: Plant-plant, plant-insect and plant-microbial interactions 15. Floral volatiles for pollinator attraction and speciation in sexually deceptive orchids 16. Behavioral responses to floral scent: experimental manipulations and multimodal plant-pollinator communication 17. Herbivore-induced plant volatiles as a source of information in plant-insect networks 18. Belowground plant volatiles: plant-plant, plant-herbivore and plant-microbial interactions 19. Tree volatiles: effects of biotic and abiotic factors on emission and biological roles Part 4: Commercial Aspects of Plant Volatiles 20. Metabolic engineering of plant volatiles: floral scent, flavors, defense
Este título pertence ao(s) assunto(s) indicados(s). Para ver outros títulos clique no assunto desejado.
Cinnamoyl CoA Reductase;Terpene Synthase;vegetative/fruit volatiles;TPS;scent production;Floral Volatiles;floral scent/evolution;Plant Volatile;plant chemicals;Floral Scent;pollination;GLV;plant defense;Entomopathogenic Nematodes;atmospheric chemistry;MEP Pathway;biosynthesis;Glandular Trichomes;transcriptome profiling;TPS Gene;stable isotope labelling;Pollinator Attraction;genome-scale modelling;Herbivore Induced Plant Volatiles;plant-plant/plant-insect;Plant Plant Communication;plant-microbial interactions;Voc Profile;floral volatile biology;Voc Emission;scent genes;Field Bioassays;plant's pollination ecology;IE;floral scent compounds;Petunia Flowers;herbivores;Secretory Cavities;microbes;Clarkia Breweri;plant volatiles;Lima Bean;plant scent biology;Lima Bean Plants;plant organs;Monoterpene Synthases;Proton Transfer Reaction Mass Spectrometry
