Arabidopsis MYC2 interacts with DELLA proteins in regulating sesquiterpene synthase gene expression.
about
Abscisic Acid synthesis and responseMolecular interaction of jasmonate and phytochrome A signallingGrowth-defence balance in grass biomass production: the role of jasmonatesViral effector protein manipulates host hormone signaling to attract insect vectorsGibberellin regulates the Arabidopsis floral transition through miR156-targeted SQUAMOSA promoter binding-like transcription factorsTranscriptome Sequencing of Chemically Induced Aquilaria sinensis to Identify Genes Related to Agarwood FormationGenome-wide analysis reveals diverged patterns of codon bias, gene expression, and rates of sequence evolution in picea gene familiesInteraction between two timing microRNAs controls trichome distribution in ArabidopsisJasmonate controls leaf growth by repressing cell proliferation and the onset of endoreduplication while maintaining a potential stand-by mode.Natural variation in monoterpene synthesis in kiwifruit: transcriptional regulation of terpene synthases by NAC and ETHYLENE-INSENSITIVE3-like transcription factors.Genome Wide Binding Site Analysis Reveals Transcriptional Coactivation of Cytokinin-Responsive Genes by DELLA ProteinsBiotechnological Advancements for Improving Floral Attributes in Ornamental Plants.RNA sequencing on Solanum lycopersicum trichomes identifies transcription factors that activate terpene synthase promoters.Growth-defense tradeoffs in plants: a balancing act to optimize fitness.Jasmonate-dependent induction of polyphenol oxidase activity in tomato foliage is important for defense against Spodoptera exigua but not against Manduca sexta.GbTCP, a cotton TCP transcription factor, confers fibre elongation and root hair development by a complex regulating systemIdentification of genes related to agarwood formation: transcriptome analysis of healthy and wounded tissues of Aquilaria sinensis.The bHLH subgroup IIId factors negatively regulate jasmonate-mediated plant defense and development.Proteomic and virus-induced gene silencing (VIGS) Analyses reveal that gossypol, brassinosteroids, and jasmonic acid contribute to the resistance of cotton to Verticillium dahliae.Transcriptome sequencing and differential gene expression analysis of delayed gland morphogenesis in Gossypium australe during seed germinationThe R3-MYB gene GhCPC negatively regulates cotton fiber elongation.A systems-wide comparison of red rice (Oryza longistaminata) tissues identifies rhizome specific genes and proteins that are targets for cultivated rice improvement.The jasmonate-responsive GTR1 transporter is required for gibberellin-mediated stamen development in Arabidopsis.Transcriptional profiling in dioecious plant Populus cathayana reveals potential and sex-related molecular adaptations to solar UV-B radiation.Cloning and characterization of AabHLH1, a bHLH transcription factor that positively regulates artemisinin biosynthesis in Artemisia annua.A terpenoid phytoalexin plays a role in basal defense of Nicotiana benthamiana against Potato virus X.Transcriptome profiling provides new insights into the formation of floral scent in Hedychium coronarium.Genome-wide characterisation and analysis of bHLH transcription factors related to tanshinone biosynthesis in Salvia miltiorrhiza.Far-Red Light-Mediated Seedling Development in Arabidopsis Involves FAR-RED INSENSITIVE 219/JASMONATE RESISTANT 1-Dependent and -Independent PathwaysThe bHLH transcription factor BIS1 controls the iridoid branch of the monoterpenoid indole alkaloid pathway in Catharanthus roseus.Changes in cytokinins are sufficient to alter developmental patterns of defense metabolites in Nicotiana attenuata.Subtractive transcriptome analysis of leaf and rhizome reveals differentially expressed transcripts in Panax sokpayensis.Using the combined analysis of transcripts and metabolites to propose key genes for differential terpene accumulation across two regions.Defence on demand: mechanisms behind optimal defence patternsGenetic basis for glandular trichome formation in cotton.Jasmonic acid is a crucial signal transducer in heat shock induced sesquiterpene formation in Aquilaria sinensisEndophytic Bacterium-Triggered Reactive Oxygen Species Directly Increase Oxygenous Sesquiterpenoid Content and Diversity in Atractylodes lancea.SmMYC2a and SmMYC2b played similar but irreplaceable roles in regulating the biosynthesis of tanshinones and phenolic acids in Salvia miltiorrhiza.The Mechanism of Ethylene Signaling Induced by Endophytic Fungus Gilmaniella sp. AL12 Mediating Sesquiterpenoids Biosynthesis in Atractylodes lancea.Transcriptional regulatory networks in Arabidopsis thaliana during single and combined stresses.
P2860
Q24597773-0F1F73E5-519D-46F2-9F2C-7EAAD0CECAC4Q27010328-BEC479AE-48D3-49A9-A608-C88810C78EA1Q28082408-E0E804EE-1789-43C9-97D2-C7229F6784ADQ28223574-DB942C81-4B1F-4FFD-948F-9FEB134CDD68Q28274072-4308E0C7-51DF-4761-AAD9-0D00BBFDFAA4Q28552071-BDD5C548-D2A9-4CFC-9433-0513875CF3FEQ28648066-3DD71431-1EE6-4192-A9B0-CC56519D41B2Q31155389-706660EA-9811-44AD-8DC9-37A3BDEF4725Q33355374-9313CABA-DB43-4F00-8276-79F9BF86970DQ33359979-28B9FAA8-48F4-42C6-A99C-98771209D059Q33361050-22BEECF2-1371-44DC-8F84-175966A8F0BBQ33581280-D566200B-DA64-470A-8A28-B0BF5DAD19EBQ33701054-42262BD9-DE8A-4725-BE2C-40DEFB809AF9Q34208987-B85CCB25-596E-46CA-8AF0-E2AC4CD40FC8Q34305771-7D657C4C-161C-4F66-ABEA-49ACB3912EFCQ34459053-E6662BA3-E84D-4598-B6F3-0D7FE4AED17EQ34658823-C5515BC1-50AA-42DB-A201-6EC6B76D1D1BQ34917068-7ABED7CD-DCA5-4B93-85D3-5CA9D09A08A3Q34982502-C2B43153-29BC-42FD-B46B-0E475F7E45A2Q35000863-AEF7A1C9-8F71-429F-9319-6140657AF1CBQ35043374-89FA46F4-B8DC-4624-B8AB-3953DC1E5E43Q35093202-AE205727-A174-4ED5-8CE6-899B4DFAD153Q35139927-A97A62CF-E666-4B85-98E9-A5B3D8FADA9DQ35166018-06A59D77-25E4-4F1B-B885-5BBD1ACA7625Q35195899-F38192C1-57A8-4D72-9CFD-8E1760E2FB57Q35627092-DF6A9238-4ACB-4AB6-8612-78FE702ECE23Q35666634-E37678BF-499D-44EF-A786-63A398983EB0Q35691470-76AE3806-BFD7-43E1-BA6E-0C24A30FBC29Q35692133-0C177F25-0DE8-46C1-B31F-C6DC3FBD4B3FQ35818649-903F70ED-9F6F-41ED-8605-8C92466ABE02Q36111831-F9E3854C-6DEB-4002-98AD-5B36DDE2DF45Q36120815-45D3BA34-5240-4E63-BB0D-02F4934CB536Q36127336-6AA3F4A8-F65E-4EF3-8DE9-1AACAAC592DBQ36415777-19016B51-362D-42A8-95D9-5D65F7206DFFQ36528770-FFAB6077-63E5-406E-8942-41BE9CA41854Q36605783-35F3071A-81AB-4DA3-A75C-7A1F786BDD15Q36631243-7D84E278-1B2E-40EB-B48B-3BD9C5DF79B3Q36656897-C5F07FD9-F8AD-4F02-9729-634AA1492527Q36719097-B14F4545-D37E-44B2-8000-E8FE324C9214Q36817906-3FCEECEC-17C3-4F16-93AD-CADBE894E822
P2860
Arabidopsis MYC2 interacts with DELLA proteins in regulating sesquiterpene synthase gene expression.
description
2012 nî lūn-bûn
@nan
2012年の論文
@ja
2012年学术文章
@wuu
2012年学术文章
@zh-cn
2012年学术文章
@zh-hans
2012年学术文章
@zh-my
2012年学术文章
@zh-sg
2012年學術文章
@yue
2012年學術文章
@zh
2012年學術文章
@zh-hant
name
Arabidopsis MYC2 interacts wit ...... pene synthase gene expression.
@en
Arabidopsis MYC2 interacts wit ...... pene synthase gene expression.
@nl
type
label
Arabidopsis MYC2 interacts wit ...... pene synthase gene expression.
@en
Arabidopsis MYC2 interacts wit ...... pene synthase gene expression.
@nl
prefLabel
Arabidopsis MYC2 interacts wit ...... pene synthase gene expression.
@en
Arabidopsis MYC2 interacts wit ...... pene synthase gene expression.
@nl
P2093
P2860
P356
P1433
P1476
Arabidopsis MYC2 interacts wit ...... rpene synthase gene expression
@en
P2093
Gao-Jie Hong
Ling-Jian Wang
Ying-Bo Mao
P2860
P304
P356
10.1105/TPC.112.098749
P577
2012-06-05T00:00:00Z