about
Cellular and subcellular localization of S-adenosyl-L-methionine:benzoic acid carboxyl methyltransferase, the enzyme responsible for biosynthesis of the volatile ester methylbenzoate in snapdragon flowersAn investigation of the storage and biosynthesis of phenylpropenes in sweet basilTwo terpene synthases are responsible for the major sesquiterpenes emitted from the flowers of kiwifruit (Actinidia deliciosa).Metabolomics of plant volatiles.The nonmevalonate pathway supports both monoterpene and sesquiterpene formation in snapdragon flowersDevelopmental regulation of methyl benzoate biosynthesis and emission in snapdragon flowers.Prephenate aminotransferase directs plant phenylalanine biosynthesis via arogenate.Regulation of methylbenzoate emission after pollination in snapdragon and petunia flowers.Contribution of CoA ligases to benzenoid biosynthesis in petunia flowers.Structural studies of cinnamoyl-CoA reductase and cinnamyl-alcohol dehydrogenase, key enzymes of monolignol biosynthesis.Biosynthesis, function and metabolic engineering of plant volatile organic compounds.Biochemistry of plant volatiles.Orthologs of the archaeal isopentenyl phosphate kinase regulate terpenoid production in plantsPractical applications of research into the regulation of plant volatile emission.Phenotypic Space and Variation of Floral Scent Profiles during Late Flower Development in AntirrhinumFunctional identification of valerena-1,10-diene synthase, a terpene synthase catalyzing a unique chemical cascade in the biosynthesis of biologically active sesquiterpenes in Valeriana officinalis.The function of terpene natural products in the natural world.Structural organization and transcription of plant mitochondrial and chloroplast genomes.The challenges of cellular compartmentalization in plant metabolic engineering.Floral volatiles: from biosynthesis to function.Rethinking how volatiles are released from plant cells.Genetic manipulation of lignocellulosic biomass for bioenergy.Carnivore Attractant or Plant Elicitor? Multifunctional Roles of Methyl Salicylate Lures in Tomato Defense.Insight into the evolution of the Solanaceae from the parental genomes of Petunia hybrida.Identification of a plastidial phenylalanine exporter that influences flux distribution through the phenylalanine biosynthetic network.RNAi suppression of Arogenate Dehydratase1 reveals that phenylalanine is synthesized predominantly via the arogenate pathway in petunia petals.The small subunit of snapdragon geranyl diphosphate synthase modifies the chain length specificity of tobacco geranylgeranyl diphosphate synthase in planta.An alternative pathway contributes to phenylalanine biosynthesis in plants via a cytosolic tyrosine:phenylpyruvate aminotransferase.Phylobiochemical characterization of class-Ib aspartate/prephenate aminotransferases reveals evolution of the plant arogenate phenylalanine pathway.Tomato Fruits-A Platform for Metabolic Engineering of Terpenes.A recruiting protein of geranylgeranyl diphosphate synthase controls metabolic flux toward chlorophyll biosynthesis in rice.Intensity and the ratios of compounds in the scent of snapdragon flowers affect scent discrimination by honeybees (Apis mellifera).Involvement of snapdragon benzaldehyde dehydrogenase in benzoic acid biosynthesis.Differences in Monoterpene Biosynthesis and Accumulation in Pistacia palaestina Leaves and Aphid-Induced Galls.Two nearly identical terpene synthases catalyze the formation of nerolidol and linalool in snapdragon flowers.Interlinking showy traits: co-engineering of scent and colour biosynthesis in flowers.Synthesis of the food flavoring methyl benzoate by genetically engineered Saccharomyces cerevisiae.Evolution of Cinnamate/p-coumarate carboxyl methyltransferases and their role in the biosynthesis of methylcinnamate.Generation of phenylpropanoid pathway-derived volatiles in transgenic plants: rose alcohol acetyltransferase produces phenylethyl acetate and benzyl acetate in petunia flowers.Structure of the mitochondrial genome of Beta vulgaris L.
P50
Q28344158-BBFC9871-B7A5-4BED-8682-EA0C003C036FQ28346615-B128DC34-B1A6-4C8F-9B0D-12F9187395B3Q33465449-7F5D8329-CF21-45B1-86E8-DDC3A13649B2Q33480091-D14B00C0-BB6B-443F-AB12-3914003D065CQ33756633-580FF317-9F5E-4142-95B0-49F2F4D2A9A2Q33905571-6D38F0C9-4C92-4D3D-8916-1245E5899405Q34151535-17EEFC0B-AA8E-41D5-89D6-B2E468C7C309Q34278237-0B33F5E2-0E87-4B57-803F-623ABAFF3903Q34287239-45A67AD1-1E75-4D05-9822-597F55A13324Q34438336-32A8E7BD-D11B-4FDB-AC83-ED95D6CC6D65Q34577507-D72ED63D-20F2-43B9-9E24-FEFF38BF209EQ35869793-477E5184-8D4B-4DEC-8D3F-AA4AEF30ABABQ35961158-A061F487-7804-40E1-81D3-E714F6600494Q36011129-D020CC04-467D-44C8-8D0C-5688F4527A7CQ36244077-DABA800D-AB2B-44A8-8B99-599A0C908CC9Q36579490-187F8FC1-9F72-4A8F-8B92-1B5B26988DB1Q36852242-E4055E09-430A-4E3A-9287-0582E58DAF2CQ37424839-00E381EB-CAE0-4244-8233-60B663D0D9B4Q38067961-56DE2484-2542-46A4-AD8C-12CE7F8539F7Q38192701-57EDA779-C48C-4003-9098-63464FA59334Q38550242-F0A6533C-03D9-456D-B199-5D60C9D5539AQ38581475-67DB84D5-12C6-4CA3-B99B-8CB62C9879CAQ40178195-7878A80F-4EE5-42F1-B93B-061EDE5C4ABEQ40721941-2D7B9719-5D3D-44C0-AAF3-FEA1ED106B6DQ41850468-A169D7B0-8E24-49E4-B937-07C61F6F4C01Q43136755-2AE11CCF-64C4-444D-8394-D1EE7ED850B3Q43211421-1104BFC6-6C42-441D-84D3-13CAEE801A53Q43975667-354D01BE-9A13-4507-AD7C-109EB0C4271EQ45001166-5FDEC5A3-FA16-4386-A6B0-A1B0AA0EDA48Q45039363-BB76CD9F-64F4-485B-8A61-54430D4BB602Q45061233-7BBB413B-7D67-45E3-8C13-6C6DA8A0E0BFQ45265727-C504B2C8-6546-4C4C-B051-8F34928E1B72Q46085431-9835D756-20F0-4C44-96FF-C8E16CE0B50DQ46429828-F85A988D-A52B-489F-9B57-DFC3D0D823D8Q46684609-BBD81915-BA94-4640-979A-1D4797210C46Q46697400-968AA3C6-36C9-4C85-B178-4D3107FC7E2CQ46916030-462B1F99-14B9-47E9-9FBF-BF477BCBB5ABQ46939153-4E21AE0B-4BE9-4B3E-B64F-236CD739BF9BQ46981981-08CE8190-320F-4D15-88A9-0826E85714E4Q47720848-8A725CED-1F1B-4936-A98F-85274BADD4E5
P50
description
hulumtuese
@sq
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Natalia Dudareva
@ast
Natalia Dudareva
@en
Natalia Dudareva
@es
Natalia Dudareva
@nl
Natalia Dudareva
@sl
type
label
Natalia Dudareva
@ast
Natalia Dudareva
@en
Natalia Dudareva
@es
Natalia Dudareva
@nl
Natalia Dudareva
@sl
prefLabel
Natalia Dudareva
@ast
Natalia Dudareva
@en
Natalia Dudareva
@es
Natalia Dudareva
@nl
Natalia Dudareva
@sl
P1053
S-8710-2017
P106
P21
P31
P496
0000-0003-0777-7763