about
The Selaginella genome identifies genetic changes associated with the evolution of vascular plantsExpression, purification, crystallization and preliminary X-ray analysis of perakine reductase, a new member of the aldo-keto reductase enzyme superfamily from higher plantsPhenolic Phytoalexins in Rice: Biological Functions and BiosynthesisInduced transcriptional profiling of phenylpropanoid pathway genes increased flavonoid and lignin content in Arabidopsis leaves in response to microbial productsStructural and mutational studies of anthocyanin malonyltransferases establish the features of BAHD enzyme catalysisStructural and functional characterization of the TRI101 trichothecene 3-O-acetyltransferase from Fusarium sporotrichioides and Fusarium graminearum: kinetic insights to combating Fusarium head blightStructural and functional characterization of TRI3 trichothecene 15-O-acetyltransferase fromFusarium sporotrichioidesA Structural Basis for the Biosynthesis of the Major Chlorogenic Acids Found in CoffeeElucidation of the Structure and Reaction Mechanism of Sorghum Hydroxycinnamoyltransferase and Its Structural Relationship to Other Coenzyme A-Dependent Transferases and SynthasesStructural basis for modification of flavonol and naphthol glucoconjugates by Nicotiana tabacum malonyltransferase (NtMaT1)Tropane and Granatane Alkaloid Biosynthesis: A Systematic AnalysisPrecursor-Directed Combinatorial Biosynthesis of Cinnamoyl, Dihydrocinnamoyl, and Benzoyl Anthranilates in Saccharomyces cerevisiaeStructural and Affinity Determinants in the Interaction between Alcohol Acyltransferase from F. x ananassa and Several Alcohol Substrates: A Computational StudyDefective Pollen Wall 2 (DPW2) Encodes an Acyl Transferase Required for Rice Pollen DevelopmentChemodiversity in Selaginella: a reference system for parallel and convergent metabolic evolution in terrestrial plantsOverexpression of the Novel Arabidopsis Gene At5g02890 Alters Inflorescence Stem Wax Composition and Affects Phytohormone HomeostasisA Jasmonate-Inducible Defense Trait Transferred from Wild into Cultivated Tomato Establishes Increased Whitefly Resistance and Reduced Viral Disease IncidenceExploiting members of the BAHD acyltransferase family to synthesize multiple hydroxycinnamate and benzoate conjugates in yeast.Monolignol ferulate conjugates are naturally incorporated into plant ligninsMATE Transporter-Dependent Export of Hydroxycinnamic Acid Amides.A genomic approach to suberin biosynthesis and cork differentiation.Structure and function of enzymes involved in the biosynthesis of phenylpropanoidsFunctional roles of three cutin biosynthetic acyltransferases in cytokinin responses and skotomorphogenesis.The isolation and mapping of a novel hydroxycinnamoyltransferase in the globe artichoke chlorogenic acid pathwayA role for differential glycoconjugation in the emission of phenylpropanoid volatiles from tomato fruit discovered using a metabolic data fusion approach.Isoflavone Malonyltransferases GmIMaT1 and GmIMaT3 Differently Modify Isoflavone Glucosides in Soybean (Glycine max) under Various Stresses.Transcriptome Analysis of Salicylic Acid Treatment in Rehmannia glutinosa Hairy Roots Using RNA-seq Technique for Identification of Genes Involved in Acteoside Biosynthesis.Metabolic and transcriptional alternations for defense by interfering OsWRKY62 and OsWRKY76 transcriptions in rice.Improving 10-deacetylbaccatin III-10-β-O-acetyltransferase catalytic fitness for Taxol production.Gene identification in black cohosh (Actaea racemosa L.): expressed sequence tag profiling and genetic screening yields candidate genes for production of bioactive secondary metabolites.Overexpression of the UGT73C6 alters brassinosteroid glucoside formation in Arabidopsis thaliana.Transcriptomic profiling of Melilotus albus near-isogenic lines contrasting for coumarin contentDifferential phylogenetic expansions in BAHD acyltransferases across five angiosperm taxa and evidence of divergent expression among Populus paralogues.The saponins: polar isoprenoids with important and diverse biological activities.Stress-responsive hydroxycinnamate glycosyltransferase modulates phenylpropanoid metabolism in Populus.Transcript and metabolite analysis in Trincadeira cultivar reveals novel information regarding the dynamics of grape ripening.Arabidopsis PIZZA has the capacity to acylate brassinosteroids.Characterization of a BAHD acyltransferase responsible for producing the green leaf volatile (Z)-3-hexen-1-yl acetate in Arabidopsis thaliana.The Arabidopsis DCR encoding a soluble BAHD acyltransferase is required for cutin polyester formation and seed hydration properties.Transcriptome analysis of buds and leaves using 454 pyrosequencing to discover genes associated with the biosynthesis of active ingredients in Lonicera japonica Thunb.
P2860
Q22065618-40063681-0B08-4BDE-9C14-A4FD573362C3Q24656217-741C8C13-28DD-4E78-8778-37BAD039C992Q26774427-C988094A-714F-4E8D-ABB6-46BA3D7D01CEQ27496636-7DF487AB-A84A-4C37-A820-439A68C6D826Q27644220-23D77D10-6DBD-4A1F-8543-B76967A4A89BQ27648732-3413BB9A-07B6-464D-963A-44FA3E2C15D6Q27654326-BB854A90-913A-48F9-95EA-AB3E18A5D51AQ27670876-F773C885-C44E-4354-AA00-D713E2A9C5D6Q27677824-D7B96A33-237A-403E-8622-0E22642B37F3Q27679199-1FC4A0EF-39D5-4C06-8D5C-196B0B7B3B45Q28075500-54757BA7-1CC5-4209-9BEA-5374C103BD69Q28548700-6BCBF623-35A9-493B-ADD2-93527483292EQ28551352-ECFE5C3E-3FDD-44AB-B229-FF278B8137EEQ28584382-C02691E5-BDB7-4CC0-BA0C-0C545F79A55FQ28704369-58E84A1F-3ED8-41E9-BC26-C162EDE48D76Q28818227-47AAC8C2-CA39-4E33-A031-25C1D5DA594FQ28820938-D7B2AD6F-6514-496C-B512-E50A3E4B546FQ28820960-B8E2F8B2-A66F-43BF-9284-E4C8A18DAE08Q28821961-2FDAFB11-1123-4CCE-AEB0-506654E4A1F1Q30315823-DDC9044E-54A2-4CF2-B376-D4FDBEAE7BA3Q33277811-48A725A7-A662-40C7-93BD-EBA9046666DEQ33319662-00CF36E1-8132-46FF-96E5-03F7FCD015ECQ33360357-B0698844-3FBB-48F2-B79D-55D56E8F33FCQ33418965-672671E5-F1C8-4265-90B0-A0D50B5B0D8EQ33514989-1D5E7723-9F49-4320-8092-207C6B9AA7C3Q33692406-F381E5B4-ED52-4AFE-92F7-0B203C97E503Q33695190-A0578D64-905A-4B05-9E4C-621E13FB5A19Q33740402-D440397F-8D3B-48DC-8911-6612EA165295Q33753832-1DC1CE3E-12BD-46EF-82AD-7B2710F25A43Q33781284-D5591E94-C864-4148-B965-DBD2F750B2F4Q33853385-7769FDA6-CD70-4E65-B941-884FD34381E2Q33870719-F0495FC4-65E0-4AF5-BC61-5229FAE146F3Q33898925-24DA95D8-8B42-47FA-80AB-21EE04ED04BEQ33902446-125061C4-E8CB-4F76-8A34-4AB488AD696FQ33957470-D091B47A-1F04-4655-AA6D-E396C191BB9AQ34065144-522D63E2-935D-453F-9290-EC10C534464CQ34447492-B97ABD53-01E1-4E3B-AD62-4C3B51D4732FQ34590172-502BD9AF-869C-452E-9F4B-9051610BEFD7Q34612776-B3C49A15-9517-4870-B8CA-3411DCBEBDA6Q34702162-DD44A4A9-6C62-4998-8C48-D729DAEDC622
P2860
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh-hant
name
Acyltransferases in plants: a good time to be BAHD.
@en
Acyltransferases in plants: a good time to be BAHD.
@nl
type
label
Acyltransferases in plants: a good time to be BAHD.
@en
Acyltransferases in plants: a good time to be BAHD.
@nl
prefLabel
Acyltransferases in plants: a good time to be BAHD.
@en
Acyltransferases in plants: a good time to be BAHD.
@nl
P1476
Acyltransferases in plants: a good time to be BAHD.
@en
P2093
John C D'Auria
P304
P356
10.1016/J.PBI.2006.03.016
P577
2006-04-17T00:00:00Z