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Plant-Associated Volatile Organic Compound (VOC) Database (PVD)

A database supporting research and application of VOCs produced by plants and plant-associated microbes

(6E)-3,7,11-trimethyldodeca-1,6,10-trien-3-ol

Metabolic Pathways

Structure

IUPAC Name

(6E)-3,7,11-trimethyldodeca-1,6,10-trien-3-ol

PubChem CID

5284507

Synonymous Names

Formula

C15H26O

Molecular Weight

222.37

Chemical Class

Alcohol, Sesquiterpenoid, Aliphatic, Prenol

Reference Link

Altenburger, R., and Matile, P. 1990. Further observations on rhythmic emission of fragrance in flowers. Planta. 180:194–7.
Degen, T., Dillmann, C., Marion-Poll, F., and Turlings, T. C. J. 2004. High genetic variability of herbivore-induced volatile emission within a broad range of maize inbred lines. Plant Physiol. 135:1928–38.
Pontin, M., Bottini, R., Burba, J. L., and Piccoli, P. 2015. Allium sativum produces terpenes with fungistatic properties in response to infection with Sclerotium cepivorum. Phytochemistry. 115:152–160.
Loughrin, J. H., Hamilton-Kemp, T. R., Andersen, R. A., and Hildebrand, D. F. 1990. Headspace compounds from flowers of Nicotiana tabacum and related species. J Agric Food Chem. 38:455–460.
Suckling, D. M., Twidle, A. M., Gibb, A. R., Manning, L. M., Mitchell, V. J., Sullivan, T. E. S., et al. 2012. Volatiles from apple trees infested with light brown apple moth larvae attract the parasitoid Dolichogenidia tasmanica. J Agric Food Chem. 60:9
Ángeles López, Y. I., Martínez-Gallardo, N. A., Ramírez-Romero, R., López, M. G., Sánchez-Hernández, C., and Délano-Frier, J. P. 2012. Cross-kingdom effects of plant-plant signaling via volatile organic compounds emitted by tomato (Solanum lycopersicum)
González-Mas, M. C., Rambla, J. L., López-Gresa, M. P., Blázquez, M. A., and Granell, A. 2019. Volatile Compounds in Citrus Essential Oils: A Comprehensive Review. Front Plant Sci. 10:12.
Chamberlain, K., Briens, M., Jacobs, J. H., Clark, S. J., and Pickett, J. A. 2012. Use of honey bees (Apis mellifera L.) to detect the presence of Mediterranean fruit fly (Ceratitis capitata Wiedemann) larvae in Valencia oranges. J Sci Food Agric. 92:205
da Cruz, M. A., Plotto, A., Ferrarezi, R. S., Leite Junior, R. P., and Bai, J. 2023. Effect of Huanglongbing on the Volatile Organic Compound Profile of Fruit Juice and Peel Oil in “Ray Ruby” Grapefruit. Foods. 12.

Plants/Microbial Species and Abiotic/Biotic Stimuli

Plant/Microbial Species	Abiotic/Biotic Stimuli
Zea mays	Insect - Spodoptera littoralis
Allium sativum (Garlic)	Fungi - Sclerotium cepivorum
Citrus medica (Citron)	None
Nicotiana alata (Jasmine tobacco)	None
Malus domestica (Apple)	Insect - Epiphyas postvittana - Light Brown Apple Moth
Lycopersicon esculentum (Tomato)	Insect - Trialeurodes vaporariorum - Whitefly
Citrus reticulata (Mandarin orange)	None
Citrus grandis (Pummelo)	None
Citrus limon (Lemon)	None
Citrus aurantifolia (Lime)	None
Citrus aurantium (Bitter orange)	None
Citrus bergamia (Bergamot orange)	None
Citrus junos (Yuzu)	None
Citrus sinensis (Sweet orange)	Insect - Ceratitis capitata Wiedemann - Mediterranean Fruit Fly
Citrus paradisi (Grapefruit)	Insect - Diaphorina citri - Asian Citrus Psyllid
Citrus paradisi (Grapefruit)	Bacteria - Candidatus Liberibacter - asiaticus

Confirmed/Hypothesized Functions