Contribution of CoA ligases to benzenoid biosynthesis in petunia flowers.
about
Chemodiversity in Selaginella: a reference system for parallel and convergent metabolic evolution in terrestrial plantsPeroxisomal ATP-binding cassette transporter COMATOSE and the multifunctional protein abnormal INFLORESCENCE MERISTEM are required for the production of benzoylated metabolites in Arabidopsis seeds.Metabolic and transcriptional alternations for defense by interfering OsWRKY62 and OsWRKY76 transcriptions in rice.Barley has two peroxisomal ABC transporters with multiple functions in β-oxidationCinnamate:CoA ligase initiates the biosynthesis of a benzoate-derived xanthone phytoalexin in Hypericum calycinum cell cultures.Structural studies of cinnamoyl-CoA reductase and cinnamyl-alcohol dehydrogenase, key enzymes of monolignol biosynthesis.The last step in cocaine biosynthesis is catalyzed by a BAHD acyltransferase.Biphenyl 4-Hydroxylases Involved in Aucuparin Biosynthesis in Rowan and Apple Are Cytochrome P450 736A Proteins.Transcriptome profiling provides new insights into the formation of floral scent in Hedychium coronarium.Completion of the core β-oxidative pathway of benzoic acid biosynthesis in plants.A specialized flavone biosynthetic pathway has evolved in the medicinal plant, Scutellaria baicalensis.De novo Sequencing and Transcriptome Analysis of Pinellia ternata Identify the Candidate Genes Involved in the Biosynthesis of Benzoic Acid and Ephedrine.Cloning, Functional Characterization and Site-Directed Mutagenesis of 4-Coumarate: Coenzyme A Ligase (4CL) Involved in Coumarin Biosynthesis in Peucedanum praeruptorum Dunn.Methyl Salicylate Level Increase in Flax after Fusarium oxysporum Infection Is Associated with Phenylpropanoid Pathway ActivationPredicting the function of 4-coumarate:CoA ligase (LJ4CL1) in Lonicera japonica.Comparative Transcriptome Reveals Benzenoid Biosynthesis Regulation as Inducer of Floral Scent in the Woody Plant Prunus mume.Metabolic engineering of novel lignin in biomass crops.Arabidopsis peroxisome proteomicsFloral volatiles: from biosynthesis to function.Proteome analysis of peroxisomes from etiolated Arabidopsis seedlings identifies a peroxisomal protease involved in β-oxidation and development.PhERF6, interacting with EOBI, negatively regulates fragrance biosynthesis in petunia flowers.Four Isoforms of Arabidopsis 4-Coumarate:CoA Ligase Have Overlapping yet Distinct Roles in Phenylpropanoid Metabolism.Two showy traits, scent emission and pigmentation, are finely coregulated by the MYB transcription factor PH4 in petunia flowers.Identification of a plastidial phenylalanine exporter that influences flux distribution through the phenylalanine biosynthetic network.An alternative pathway contributes to phenylalanine biosynthesis in plants via a cytosolic tyrosine:phenylpyruvate aminotransferase.Phenylpropanoid Scent Compounds in Petunia x hybrida Are Glycosylated and Accumulate in Vacuoles.Emission of volatile organic compounds from petunia flowers is facilitated by an ABC transporter.CCoAOMT Down-Regulation Activates Anthocyanin Biosynthesis in Petunia.Peroxisome Function, Biogenesis, and Dynamics in Plants.Developmental Changes in Scots Pine Transcriptome during Heartwood Formation.Exploring genes involved in benzoic acid biosynthesis in the Populus davidiana transcriptome and their transcriptional activity upon methyl jasmonate treatment.The Origin and Biosynthesis of the Benzenoid Moiety of Ubiquinone (Coenzyme Q) in Arabidopsis.Veratrole biosynthesis in white campion.The R2R3-MYB-like regulatory factor EOBI, acting downstream of EOBII, regulates scent production by activating ODO1 and structural scent-related genes in petunia.Two-dimensional analysis provides molecular insight into flower scent of Lilium 'Siberia'.A 13C isotope labeling method for the measurement of lignin metabolic flux in Arabidopsis stems.Transcriptome analysis of Polianthes tuberosa during floral scent formation
P2860
Q28704369-5B92AB3B-6638-4C77-B14D-CB037348423BQ33357142-7A71283B-AC13-4FAF-9FD1-92F6401B0036Q33740402-0B2ECFCD-3676-48A7-AB94-11D0B9622C47Q34089313-09C3EDB3-6900-4C42-B400-5645A34D8AB6Q34418435-4A1410C5-F146-4D63-ABDF-FFC780D42869Q34438336-B5097ADB-A3DE-4263-AE31-05FF2E671198Q35432993-FF298575-2A60-4DFA-AA2C-15EAA736341DQ35599425-2479F92B-5BA8-43FC-AECA-6672D0CA2F66Q35666634-4397A5BA-F034-40C4-A5CA-FFEC6C12D332Q36342866-899E835C-B809-41FD-89B5-75AD0BDEE370Q36839841-66A01914-7D6B-4954-B51F-0060A3256274Q37179737-4A391EEB-D274-489D-9C1A-BD1730F0A022Q37588611-FCB54B46-F6CD-4DDC-9E3E-6112642DDC1AQ37595003-BA3074D5-713C-43D8-804E-D0F2B520A8A3Q37645202-379CCFED-7B49-4821-A8FE-105EDB438EC3Q37692522-975B8E89-65C9-4E6B-B7FD-E7AB89428BD5Q38049338-D177BFC5-EE8A-438C-9397-696C2D07D29EQ38102992-64017B0E-4D8F-4548-B89C-6075FB2D77D0Q38192701-FE686113-F1FE-41E3-940E-389E6DBE1465Q39331788-F69D2A3F-8510-4E3E-AE38-6CC4FA1134A0Q40135729-4A6F7B66-0E05-4DE4-B456-6D72DA41C91FQ40404091-53445940-B181-46EF-A85F-4A35E2A3D6B4Q41642070-AFD4D5D1-C2AB-4E64-8FF5-F5962F3B3864Q41850468-58A87846-05E1-48EF-A1C6-39E940668188Q43975667-0166AFEF-E45A-4EF9-88E5-AD72A30B46E7Q46346817-F8D74898-3457-4336-94B5-432F482FAC60Q47972961-212CF128-E8AA-473D-B4A4-17BC0299736AQ48096233-0264B49B-E634-46D5-BC9F-93A4DF058B13Q48208031-9F9CDBCE-D1DB-4892-BF6C-A688915AA156Q48367473-40CE85C6-0F80-421D-AD4A-A4457454BE32Q50056688-9F0328A7-BF39-4799-8EE0-7C340DB4D31FQ50456132-4E1CB8D0-FCA3-49A6-8C07-232BBA82077EQ50750650-3ED6157D-69ED-4F31-81F4-44C788540194Q50767666-F99A8A84-E2ED-4F03-B677-59D527A155CBQ55340850-902E8CF0-BB0D-4108-91B8-EBEB4F6B1DD0Q55499611-6B2F0284-BA04-443F-8C33-E82FF8E56222Q58763754-9198FFAE-1D47-41A2-A2E4-6AC3201B0C45
P2860
Contribution of CoA ligases to benzenoid biosynthesis in petunia flowers.
description
2012 nî lūn-bûn
@nan
2012 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Contribution of CoA ligases to benzenoid biosynthesis in petunia flowers.
@ast
Contribution of CoA ligases to benzenoid biosynthesis in petunia flowers.
@en
Contribution of CoA ligases to benzenoid biosynthesis in petunia flowers.
@nl
type
label
Contribution of CoA ligases to benzenoid biosynthesis in petunia flowers.
@ast
Contribution of CoA ligases to benzenoid biosynthesis in petunia flowers.
@en
Contribution of CoA ligases to benzenoid biosynthesis in petunia flowers.
@nl
prefLabel
Contribution of CoA ligases to benzenoid biosynthesis in petunia flowers.
@ast
Contribution of CoA ligases to benzenoid biosynthesis in petunia flowers.
@en
Contribution of CoA ligases to benzenoid biosynthesis in petunia flowers.
@nl
P2093
P2860
P50
P356
P1433
P1476
Contribution of CoA ligases to benzenoid biosynthesis in petunia flowers
@en
P2093
Ajit Kumar Shasany
Anthony Qualley
Antje Klempien
Bruce R Cooper
Christine M Kish
David Rhodes
Eran Pichersky
Goro Taguchi
Irina Orlova
John C D'Auria
P2860
P304
P356
10.1105/TPC.112.097519
P577
2012-05-30T00:00:00Z