review article | Q7318358 |
scholarly article | Q13442814 |
P356 | DOI | 10.1111/PCE.12314 |
P698 | PubMed publication ID | 24588567 |
P50 | author | Natalia Dudareva | Q50662406 |
Joëlle Muhlemann | Q59544681 | ||
P2093 | author name string | Antje Klempien | |
P2860 | cites work | Identification of white campion (Silene latifolia) guaiacol O-methyltransferase involved in the biosynthesis of veratrole, a key volatile for pollinator attraction | Q21261997 |
Eugenol and isoeugenol, characteristic aromatic constituents of spices, are biosynthesized via reduction of a coniferyl alcohol ester | Q24550955 | ||
Plant terpenoid synthases: molecular biology and phylogenetic analysis | Q24646605 | ||
The multiple phenylpropene synthases in both Clarkia breweri and Petunia hybrida represent two distinct protein lineages | Q24657472 | ||
Evolution of floral scent in Clarkia: novel patterns of S-linalool synthase gene expression in the C. breweri flower | Q24673250 | ||
Terpenoid metabolism | Q24674090 | ||
Characterization of S-adenosyl-L-methionine:(iso)eugenol O-methyltransferase involved in floral scent production in Clarkia breweri | Q28259603 | ||
The shikimate pathway and aromatic amino Acid biosynthesis in plants | Q28265882 | ||
Purification and characterization of S-linalool synthase, an enzyme involved in the production of floral scent in Clarkia breweri | Q28307533 | ||
Regulation of circadian methyl benzoate emission in diurnally and nocturnally emitting plants | Q28361282 | ||
Developmental changes in the metabolic network of snapdragon flowers | Q28727234 | ||
Insect Reproduction and Floral Fragrances: Keys to the Evolution of the Angiosperms? | Q28956198 | ||
Mimicry in Plants | Q29398385 | ||
Hybrid floral scent novelty drives pollinator shift in sexually deceptive orchids. | Q30494646 | ||
(E)-β-Ocimene and Myrcene Synthase Genes of Floral Scent Biosynthesis in Snapdragon: Function and Expression of Three Terpene Synthase Genes of a New Terpene Synthase Subfamily | Q30922895 | ||
O-methyltransferases involved in the biosynthesis of volatile phenolic derivatives in rose petals | Q31103808 | ||
S-Adenosyl-L-methionine:salicylic acid carboxyl methyltransferase, an enzyme involved in floral scent production and plant defense, represents a new class of plant methyltransferases | Q33178546 | ||
Soil fungal effects on floral signals, rewards, and aboveground interactions in an alpine pollination web. | Q46945999 | ||
Production of 2-phenylethanol in roses as the dominant floral scent compound from L-phenylalanine by two key enzymes, a PLP-dependent decarboxylase and a phenylacetaldehyde reductase | Q46956420 | ||
Phenotypic selection to increase floral scent emission, but not flower size or colour in bee-pollinated Penstemon digitalis | Q47306893 | ||
Management of fire blight: a case study in microbial ecology | Q47872167 | ||
Formation of monoterpenes in Antirrhinum majus and Clarkia breweri flowers involves heterodimeric geranyl diphosphate synthases | Q47924773 | ||
The transcription factor EMISSION OF BENZENOIDS II activates the MYB ODORANT1 promoter at a MYB binding site specific for fragrant petunias | Q48058172 | ||
EOBII controls flower opening by functioning as a general transcriptomic switch. | Q48059050 | ||
Characterization of a petunia acetyltransferase involved in the biosynthesis of the floral volatile isoeugenol. | Q48082113 | ||
Reduction of benzenoid synthesis in petunia flowers reveals multiple pathways to benzoic acid and enhancement in auxin transport. | Q48082584 | ||
Plant phenylacetaldehyde synthase is a bifunctional homotetrameric enzyme that catalyzes phenylalanine decarboxylation and oxidation. | Q48086825 | ||
Structure and evolution of linalool synthase | Q48260746 | ||
Petunia flowers solve the defence/apparency dilemma of pollinator attraction by deploying complex floral blends. | Q50547975 | ||
Veratrole biosynthesis in white campion. | Q50750650 | ||
The R2R3-MYB-like regulatory factor EOBI, acting downstream of EOBII, regulates scent production by activating ODO1 and structural scent-related genes in petunia. | Q50767666 | ||
Arabidopsis MYC2 interacts with DELLA proteins in regulating sesquiterpene synthase gene expression. | Q51560580 | ||
Advertising to the enemy: enhanced floral fragrance increases beetle attraction and reduces plant reproduction. | Q51561798 | ||
Fragrance of Canada thistle (Cirsium arvense) attracts both floral herbivores and pollinators. | Q51726271 | ||
Acyltransferases in plants: a good time to be BAHD. | Q51729071 | ||
The missing stink: sulphur compounds can mediate a shift between fly and wasp pollination systems. | Q51909021 | ||
Biosynthesis and emission of terpenoid volatiles from Arabidopsis flowers. | Q52109524 | ||
The chemical nature of fetid floral odours in stapeliads (Apocynaceae-Asclepiadoideae-Ceropegieae). | Q52673908 | ||
Pollinator and herbivore attraction to cucurbita floral volatiles. | Q52681846 | ||
Role of aromatic aldehyde synthase in wounding/herbivory response and flower scent production in different Arabidopsis ecotypes. | Q52714794 | ||
PAP1 transcription factor enhances production of phenylpropanoid and terpenoid scent compounds in rose flowers. | Q52737037 | ||
Functional characterization of aromatic amino acid aminotransferase involved in 2-phenylethanol biosynthesis in isolated rose petal protoplasts. | Q54344441 | ||
Floral volatile organic compounds: Between attraction and deterrence of visitors under global change | Q56990893 | ||
Florivores decrease pollinator visitation in a self-incompatible plant | Q57012505 | ||
Floral volatiles controlling ant behaviour | Q57230006 | ||
The Challenge of Attracting Pollinators While Evading Floral Herbivores: Patterns of Fragrance Emission in Cirsium arvense and Cirsium repandum (Asteraceae) | Q58071265 | ||
Unraveling the regulation of floral fragrance biosynthesis | Q33351555 | ||
Two terpene synthases are responsible for the major sesquiterpenes emitted from the flowers of kiwifruit (Actinidia deliciosa). | Q33465449 | ||
How to be an attractive male: floral dimorphism and attractiveness to pollinators in a dioecious plant | Q33491282 | ||
The nonmevalonate pathway supports both monoterpene and sesquiterpene formation in snapdragon flowers | Q33756633 | ||
Developmental regulation of methyl benzoate biosynthesis and emission in snapdragon flowers. | Q33905571 | ||
Biological effects of essential oils--a review | Q34008134 | ||
Composition of epiphytic bacterial communities differs on petals and leaves | Q34040353 | ||
Identification, functional characterization, and regulation of the enzyme responsible for floral (E)-nerolidol biosynthesis in kiwifruit (Actinidia chinensis). | Q34097715 | ||
The evolution of floral scent and insect chemical communication. | Q34106672 | ||
Characterization of an acyltransferase capable of synthesizing benzylbenzoate and other volatile esters in flowers and damaged leaves of Clarkia breweri | Q34149187 | ||
Prephenate aminotransferase directs plant phenylalanine biosynthesis via arogenate. | Q34151535 | ||
The family of terpene synthases in plants: a mid-size family of genes for specialized metabolism that is highly diversified throughout the kingdom | Q34173830 | ||
Regulation of methylbenzoate emission after pollination in snapdragon and petunia flowers. | Q34278237 | ||
The evolution of floral scent and olfactory preferences in pollinators: coevolution or pre-existing bias? | Q34285722 | ||
Contribution of CoA ligases to benzenoid biosynthesis in petunia flowers. | Q34287239 | ||
Understanding in vivo benzenoid metabolism in petunia petal tissue | Q34337620 | ||
Vitis vinifera terpenoid cyclases: functional identification of two sesquiterpene synthase cDNAs encoding (+)-valencene synthase and (-)-germacrene D synthase and expression of mono- and sesquiterpene synthases in grapevine flowers and berries | Q34355493 | ||
Two sesquiterpene synthases are responsible for the complex mixture of sesquiterpenes emitted from Arabidopsis flowers | Q34421712 | ||
Biosynthesis of plant volatiles: nature's diversity and ingenuity | Q34493293 | ||
Terpene synthases and the regulation, diversity and biological roles of terpene metabolism | Q34511468 | ||
The genetics and molecular genetics of terpene and sterol origami | Q34539619 | ||
The deoxyxylulose phosphate pathway of isoprenoid biosynthesis: studies on the mechanisms of the reactions catalyzed by IspG and IspH protein | Q34760928 | ||
Stearoyl-acyl carrier protein desaturases are associated with floral isolation in sexually deceptive orchids | Q34804470 | ||
Field experiments with transformed plants reveal the sense of floral scents | Q34816501 | ||
The lipoxygenase pathway. | Q34833694 | ||
Variation in highbush blueberry floral volatile profiles as a function of pollination status, cultivar, time of day and flower part: implications for flower visitation by bees | Q35003827 | ||
Monoterpene and sesquiterpene synthases and the origin of terpene skeletal diversity in plants | Q35005789 | ||
Metabolomic analysis of Arabidopsis reveals hemiterpenoid glycosides as products of a nitrate ion-regulated, carbon flux overflow | Q35081516 | ||
Crosstalk between cytosolic and plastidial pathways of isoprenoid biosynthesis in Arabidopsis thaliana | Q35144579 | ||
Biochemistry of plant volatiles | Q35869793 | ||
Volatile emissions of scented Alstroemeria genotypes are dominated by terpenes, and a myrcene synthase gene is highly expressed in scented Alstroemeria flowers. | Q35940320 | ||
Completion of the core β-oxidative pathway of benzoic acid biosynthesis in plants | Q36342866 | ||
Isoprenoid biosynthesis: the evolution of two ancient and distinct pathways across genomes. | Q37285967 | ||
The evolutionary context for herbivore-induced plant volatiles: beyond the 'cry for help'. | Q37667232 | ||
Network analysis of the MVA and MEP pathways for isoprenoid synthesis | Q38085641 | ||
Peroxisomal localisation of the final steps of the mevalonic acid pathway in planta | Q41428618 | ||
Characterization of benzylalcohol acetyltransferases in scented and non-scented Clarkia species | Q41705929 | ||
A model for combinatorial regulation of the petunia R2R3-MYB transcription factor ODORANT1. | Q41999782 | ||
Pollinator choice in Petunia depends on two major genetic Loci for floral scent production | Q42017585 | ||
Spatial and temporal patterns of floral scent emission in Dianthus inoxianus and electroantennographic responses of its hawkmoth pollinator | Q42018018 | ||
Disease status and population origin effects on floral scent:: potential consequences for oviposition and fruit predation in a complex interaction between a plant, fungus, and noctuid moth | Q42026186 | ||
The effect of decoupling olfactory and visual stimuli on the foraging behavior of Manduca sexta | Q42033894 | ||
Making sense of nectar scents: the effects of nectar secondary metabolites on floral visitors of Nicotiana attenuata | Q42034338 | ||
Postpollination changes in floral odor in Silene latifolia: adaptive mechanisms for seed-predator avoidance? | Q42036899 | ||
Nursery pollination by a moth in Silene latifolia: the role of odours in eliciting antennal and behavioural responses | Q42038544 | ||
The composition and timing of flower odour emission by wild Petunia axillaris coincide with the antennal perception and nocturnal activity of the pollinator Manduca sexta | Q42041075 | ||
Qualitative and quantitative analyses of flower scent in Silene latifolia | Q42042656 | ||
Volatiles released from cotton plants in response to Helicoverpa zea feeding damage on cotton flower buds | Q42046084 | ||
Fragrance chemistry, nocturnal rhythms and pollination “syndromes” in Nicotiana | Q42048132 | ||
Regulators of floral fragrance production and their target genes in petunia are not exclusively active in the epidermal cells of petals. | Q42159708 | ||
Circadian regulation of the PhCCD1 carotenoid cleavage dioxygenase controls emission of beta-ionone, a fragrance volatile of petunia flowers | Q42164225 | ||
PhMYB4 fine-tunes the floral volatile signature of Petunia×hybrida through PhC4H | Q42267090 | ||
Diurnal regulation of scent emission in rose flowers | Q42697580 | ||
Volatile composition, emission pattern, and localization of floral scent emission in Mirabilis jalapa (Nyctaginaceae). | Q42732647 | ||
EOBII, a gene encoding a flower-specific regulator of phenylpropanoid volatiles' biosynthesis in petunia | Q43027486 | ||
RNAi suppression of Arogenate Dehydratase1 reveals that phenylalanine is synthesized predominantly via the arogenate pathway in petunia petals. | Q43136755 | ||
Petunia floral volatile benzenoid/phenylpropanoid genes are regulated in a similar manner. | Q43248549 | ||
Identification of rose phenylacetaldehyde synthase by functional complementation in yeast | Q43250821 | ||
A plant thiolase involved in benzoic acid biosynthesis and volatile benzenoid production | Q43297681 | ||
Fragrance volatiles of developing and senescing carnation flowers | Q43583748 | ||
Gene coexpression analysis reveals complex metabolism of the monoterpene alcohol linalool in Arabidopsis flowers | Q43821770 | ||
An alternative pathway contributes to phenylalanine biosynthesis in plants via a cytosolic tyrosine:phenylpyruvate aminotransferase. | Q43975667 | ||
Biosynthesis of the major scent components 3,5-dimethoxytoluene and 1,3,5-trimethoxybenzene by novel rose O-methyltransferases. | Q44068376 | ||
Floral odor bouquet loses its ant repellent properties after inhibition of terpene biosynthesis | Q44155797 | ||
Rose scent: genomics approach to discovering novel floral fragrance-related genes | Q44170718 | ||
Differences in the fragrances of pollen, leaves, and floral parts of garland (Chrysanthemum coronarium) and composition of the essential oils from flowerheads and leaves | Q44386643 | ||
Volatile Ester Formation in Roses. Identification of an Acetyl-Coenzyme A. Geraniol/Citronellol Acetyltransferase in Developing Rose Petals | Q44401360 | ||
Metabolic cross talk between cytosolic and plastidial pathways of isoprenoid biosynthesis: unidirectional transport of intermediates across the chloroplast envelope membrane | Q44494796 | ||
A single gene encodes isopentenyl diphosphate isomerase isoforms targeted to plastids, mitochondria and peroxisomes in Catharanthus roseus. | Q44525370 | ||
Acetyl-CoA:benzylalcohol acetyltransferase--an enzyme involved in floral scent production in Clarkia breweri | Q44564148 | ||
The major volatile organic compound emitted from Arabidopsis thaliana flowers, the sesquiterpene (E)-β-caryophyllene, is a defense against a bacterial pathogen | Q44971700 | ||
Transport of isoprenoid intermediates across chloroplast envelope membranes | Q45235331 | ||
Involvement of snapdragon benzaldehyde dehydrogenase in benzoic acid biosynthesis. | Q46085431 | ||
Chemical mimicry of insect oviposition sites: a global analysis of convergence in angiosperms | Q46086176 | ||
Floral scent production in Clarkia breweri (Onagraceae). II. Localization and developmental modulation of the enzyme S-adenosyl-L-methionine:(iso)eugenol O-methyltransferase and phenylpropanoid emission | Q46136287 | ||
Florivory affects pollinator visitation and female fitness in Nemophila menziesii | Q46353343 | ||
A novel homodimeric geranyl diphosphate synthase from the orchid Phalaenopsis bellina lacking a DD(X)2-4D motif | Q46410061 | ||
ODORANT1 regulates fragrance biosynthesis in petunia flowers. | Q46417733 | ||
Two nearly identical terpene synthases catalyze the formation of nerolidol and linalool in snapdragon flowers. | Q46684609 | ||
Chloroplast localization of methylerythritol 4-phosphate pathway enzymes and regulation of mitochondrial genes in ispD and ispE albino mutants in Arabidopsis | Q46781626 | ||
??? | Q56639645 | ||
P433 | issue | 8 | |
P921 | main subject | floral volatile | Q125404652 |
P1104 | number of pages | 14 | |
P304 | page(s) | 1936-1949 | |
P577 | publication date | 2014-04-14 | |
P1433 | published in | Plant, Cell and Environment | Q15766307 |
P1476 | title | Floral volatiles: from biosynthesis to function | |
P478 | volume | 37 |
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