Field experiments with transformed plants reveal the sense of floral scents.
about
Fruit aromas in mature fleshy fruits as signals of readiness for predation and seed dispersalIntraspecific combinations of flower and leaf volatiles act together in attracting hawkmoth pollinatorsInnate olfactory preferences for flowers matching proboscis length ensure optimal energy gain in a hawkmoth.Using theories of sexual selection and sexual conflict to improve our understanding of plant ecology and evolutionHow to get the best dealFloral scents repel facultative flower visitors, but attract obligate onesThe promise of genomics in the study of plant-pollinator interactions.Floral humidity as a reliable sensory cue for profitability assessment by nectar-foraging hawkmothsDrought and leaf herbivory influence floral volatiles and pollinator attraction.Natural variation in floral nectar proteins of two Nicotiana attenuata accessions.Extreme variation in floral characters and its consequences for pollinator attraction among populations of an Andean cactus.An ABC transporter mutation alters root exudation of phytochemicals that provoke an overhaul of natural soil microbiota.On 'various contrivances': pollination, phylogeny and flower form in the Solanaceae.Nicotine in floral nectar pharmacologically influences bumblebee learning of floral featuresDo flower color and floral scent of silene species affect host preference of Hadena bicruris, a seed-eating pollinator, under field conditions?The only African wild tobacco, Nicotiana africana: alkaloid content and the effect of herbivoryXylan-degrading enzymes in male and female flower nectar of Cucurbita pepo.Herbivory by a Phloem-feeding insect inhibits floral volatile productionThe post-pollination ethylene burst and the continuation of floral advertisement are harbingers of non-random mate selection in Nicotiana attenuata.RNAi-mediated silencing of the HD-Zip gene HD20 in Nicotiana attenuata affects benzyl acetone emission from corollas via ABA levels and the expression of metabolic genes.Ecological Observations of Native Geocoris pallens and G. punctipes Populations in the Great Basin Desert of Southwestern Utah'Real time' genetic manipulation: a new tool for ecological field studiesNectar chemistry is tailored for both attraction of mutualists and protection from exploiters.Progressive 35S promoter methylation increases rapidly during vegetative development in transgenic Nicotiana attenuata plants.Community genetics: what have we accomplished and where should we be going?Explaining intraspecific diversity in plant secondary metabolites in an ecological context.Transcriptome-wide analysis of SAMe superfamily to novelty phosphoethanolamine N-methyltransferase copy in Lonicera japonica.Using phylogenetics to detect pollinator-mediated floral evolution.Wounding tomato fruit elicits ripening-stage specific changes in gene expression and production of volatile compounds.Immediate effects of nectar robbing by Palestine sunbirds (Nectarinia osea) on nectar alkaloid concentrations in tree tobacco (Nicotiana glauca).Is the timing of scent emission correlated with insect visitor activity and pollination in long-spurred Satyrium species?Plant defense phenotypes determine the consequences of volatile emission for individuals and neighborsSilencing a key gene of the common symbiosis pathway in Nicotiana attenuata specifically impairs arbuscular mycorrhizal infection without influencing the root-associated microbiome or plant growth.Mechanisms and ecological consequences of plant defence induction and suppression in herbivore communitiesEffects of Floral Scent, Color and Pollen on Foraging Decisions and Oocyte Development of Common Green Bottle Flies.Navigating natural variation in herbivory-induced secondary metabolism in coyote tobacco populations using MS/MS structural analysisHow scent and nectar influence floral antagonists and mutualistsOlfactory modulation by dopamine in the context of aversive learningInduced plant defences in biological control of arthropod pests: a double-edged sword.Defence on demand: mechanisms behind optimal defence patterns
P2860
Q27010436-6556745D-1132-4AC3-A973-D7F15A30BE18Q27308750-921B9DE2-4162-40D0-A911-62DC8C56B237Q27316233-52FC23E0-7A76-4761-B6F4-862B0BF74C0AQ28255812-C849B981-9EE3-409A-B487-1862567FE49FQ28631669-9EA869CD-929F-4D0A-8E79-4F1A3B7731E2Q28752439-75359760-C2FF-4224-9CA5-E3F3BF09DFBBQ30436190-28F3ED7F-9B6B-4D66-9389-3A3DEF49F0B4Q30519187-30BD784C-80FB-4D29-9294-E76F956065B5Q31019187-9EA4B21A-E3A8-4BFD-943C-E8253D921EDEQ31123081-B6E90A3B-F8A6-4F07-83EE-14DC5D669FD5Q33426227-3C0474E5-AEB4-4109-A108-C5044DED58B2Q33512267-D9888474-3B0D-4A8A-A956-08DCD4B1721AQ33521801-4CF63A5B-0AE1-49E2-B7B2-95A107C45810Q33694636-78897BE9-7560-4ABF-A455-B69AE39033ABQ33721414-59061401-65FD-4DCC-B726-B080D06EB636Q33904922-D388F720-CC3D-4FC6-9FE4-DCE7010B54A1Q33981006-9BC0DA3A-38D5-4A9F-9428-D0033D8B6E23Q34182133-20A1EA11-13F0-4A4A-8C8B-E6B5A086C6FEQ34212690-F2281B00-BD08-4BD5-8339-2DA7FB4DEF4EQ34252828-B1ABB3AB-7715-46BE-B2A9-B17DCDC73106Q34289854-0DC456EF-16C9-465F-B345-14AC39402E26Q34309707-BD75B6AF-E5EB-40ED-BF0F-6E698363AB55Q34613039-474B016A-1811-42EB-B5D2-8A2641E18AF4Q34803643-58A3BF62-D685-4BFF-A0B1-36FC79CA703AQ34845568-68929CCF-1E54-4942-AB0A-6E37AE8553BBQ35015487-CEED0FB6-D66B-4A35-B7B8-7D2CBD189FF2Q35016469-612EDD3F-9C45-4F98-8D80-1D69764EBC48Q35034287-20D626A0-D07E-4CD8-ADC6-FCBD3424FE1AQ35118681-7AD55B43-850F-4B60-9CC1-3D7C7E4F9D49Q35137794-6CF311C0-3487-4CEF-9633-931042797BA3Q35180106-EE4DBE0A-D1B4-4F3F-8ECC-CD3D7DD7E78FQ35422453-2DCABAC9-C56F-4868-A425-A883D30A40BFQ35617610-BA46F081-8832-48C2-8442-16B018B0BF05Q35644236-4EEDB4A1-A3AD-456D-93FA-7FAB232ED36AQ35881861-4552EA29-46C7-47FF-A1B6-26B7F6EC59CCQ35910173-4EFC51B0-98F3-4103-A045-FD1B55B15CD0Q35932239-B7C99494-8E78-4151-9738-DDFAECA58353Q36115908-02FAD3F4-F57D-43CD-BA8D-29E4B53370CDQ36339394-C6903B7F-7C0D-4119-9CAF-DE11F79108A8Q36415777-17B62095-6770-447C-A6FE-0C345BE0623A
P2860
Field experiments with transformed plants reveal the sense of floral scents.
description
2008 nî lūn-bûn
@nan
2008 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Field experiments with transformed plants reveal the sense of floral scents.
@ast
Field experiments with transformed plants reveal the sense of floral scents.
@en
Field experiments with transformed plants reveal the sense of floral scents.
@nl
type
label
Field experiments with transformed plants reveal the sense of floral scents.
@ast
Field experiments with transformed plants reveal the sense of floral scents.
@en
Field experiments with transformed plants reveal the sense of floral scents.
@nl
prefLabel
Field experiments with transformed plants reveal the sense of floral scents.
@ast
Field experiments with transformed plants reveal the sense of floral scents.
@en
Field experiments with transformed plants reveal the sense of floral scents.
@nl
P2860
P356
P1433
P1476
Field experiments with transformed plants reveal the sense of floral scents.
@en
P2093
Danny Kessler
P2860
P304
P356
10.1126/SCIENCE.1160072
P407
P577
2008-08-01T00:00:00Z