An H+ P-ATPase on the tonoplast determines vacuolar pH and flower colour.
about
New Challenges for the Design of High Value Plant Products: Stabilization of Anthocyanins in Plant VacuolesA Grapevine TTG2-Like WRKY Transcription Factor Is Involved in Regulating Vacuolar Transport and Flavonoid BiosynthesisJob Sharing in the Endomembrane System: Vacuolar Acidification Requires the Combined Activity of V-ATPase and V-PPase.The formation of Anthocyanic Vacuolar Inclusions in Arabidopsis thaliana and implications for the sequestration of anthocyanin pigments.Establishment of the model system between phytochemicals and gene expression profiles in Macrosclereid cells of Medicago truncatula.Natural product biosynthesis in Medicago species.Citrus PH5-like H(+)-ATPase genes: identification and transcript analysis to investigate their possible relationship with citrate accumulation in fruits.GFS9/TT9 contributes to intracellular membrane trafficking and flavonoid accumulation in Arabidopsis thaliana.Evaluating the involvement and interaction of abscisic acid and miRNA156 in the induction of anthocyanin biosynthesis in drought-stressed plants.A chimeric repressor of petunia PH4 R2R3-MYB family transcription factor generates margined flowers in torenia.Recent progress of flower colour modification by biotechnology.The mysteries of proanthocyanidin transport and polymerization.Genetic modification in floriculture.Genetic engineering of flavonoid pigments to modify flower color in floricultural plants.Molecular mechanisms of endolysosomal Ca2+ signalling in health and disease.Protoplasts: a useful research system for plant cell biology, especially dedifferentiation.Recent advances on the development and regulation of flower color in ornamental plants.Petunia, Your Next Supermodel?To deliver or to degrade - an interplay of the ubiquitin-proteasome system, autophagy and vesicular transport in plants.TRANSPARENT TESTA 13 is a tonoplast P3A -ATPase required for vacuolar deposition of proanthocyanidins in Arabidopsis thaliana seeds.The basic helix-loop-helix transcription factor BIS2 is essential for monoterpenoid indole alkaloid production in the medicinal plant Catharanthus roseus.Two showy traits, scent emission and pigmentation, are finely coregulated by the MYB transcription factor PH4 in petunia flowers.Regulators of floral fragrance production and their target genes in petunia are not exclusively active in the epidermal cells of petals.A peroxisomally localized acyl-activating enzyme is required for volatile benzenoid formation in a Petuniaxhybrida cv. 'Mitchell Diploid' flower.MATE transporters facilitate vacuolar uptake of epicatechin 3'-O-glucoside for proanthocyanidin biosynthesis in Medicago truncatula and Arabidopsis.Grapevine MATE-type proteins act as vacuolar H+-dependent acylated anthocyanin transporters.Expression of Terpenoids 1, a glandular trichome-specific transcription factor from tomato that activates the terpene synthase 5 promoter.Anthocyanin Vacuolar Inclusions Form by a Microautophagy Mechanism.The PH gene determines fruit acidity and contributes to the evolution of sweet melons.Genetic Control and Evolution of Anthocyanin Methylation.Two Silene vulgaris copper transporters residing in different cellular compartments confer copper hypertolerance by distinct mechanisms when expressed in Arabidopsis thaliana.The transcription factor EMISSION OF BENZENOIDS II activates the MYB ODORANT1 promoter at a MYB binding site specific for fragrant petunias.MdMYB1 Regulates Anthocyanin and Malate Accumulation by Directly Facilitating Their Transport into Vacuoles in Apples.Evolution of tonoplast P-ATPase transporters involved in vacuolar acidification.Ion Transport at the Vacuole during Stomatal Movements.Vacuolar transporters - Companions on a longtime journey.Extensive transcriptomic studies on the roles played by abscisic acid and auxins in the development and ripening of strawberry fruits.One protoplast is not the other!The R2R3-MYB transcription factor MdMYB73 is involved in malate accumulation and vacuolar acidification in apple.Anthocyanin Biosynthesis and Degradation Mechanisms in Solanaceous Vegetables: A Review.
P2860
Q26766706-AD998C47-C655-4406-9868-5FB5539A6C03Q28468448-37C1D443-AA01-411D-99DB-673EBCB7C663Q33361956-B9A52E5F-56C3-464E-A521-411883004DB0Q33596356-1387B926-A593-4203-BC3E-BE2089BB5FE4Q33747201-68871BA8-1C49-4574-8623-39A2734D22ACQ34401171-4DF84E8D-7BEA-4419-8757-6BB21A209678Q35157900-D7C79D75-8F43-4CF1-AAA3-A20DB0BD89DEQ35223616-CDF5F396-AE65-4731-8662-1389E0066932Q36378422-A769E343-5FDD-4EBE-90C7-571F83352AC4Q37158286-F80B8D14-903F-4581-B070-01D9291F4921Q37669747-C9148B21-688C-4A1D-BF76-710446230415Q37730281-9C99D773-B764-4D92-A49E-E063A54C9332Q37794832-BFB17918-7471-42B5-822D-14AD77FA435DQ37807327-7DB2BB01-5323-4BCF-B4DC-288B4F2975A5Q37944859-599D9F52-AA58-4723-B237-9F13CFEDF191Q38110435-289328E2-47AD-4564-B9F4-4E1A7DA41EC6Q38474649-3A1AFD17-5343-46AB-9231-0795EBD7230FQ38730771-BDF3F302-598A-4C07-B905-3CB1101A0571Q38779949-1FB6EBAB-8322-4A6E-A5D9-C9D7884801DDQ41042800-DCD61B6A-3DE6-451B-AD38-D433BE6E7713Q41363101-D69C8437-921A-4372-9837-C6783873F9E1Q41642070-0FC4A82A-6965-45C2-8EC1-68DAA18100A9Q42159708-5226BA4B-0BFD-4D7C-A9CA-60DD71887168Q42321309-1FDD71DB-B9B4-4424-8078-273156325626Q43291176-5C88123D-4C1F-431D-AF4F-46B8E9810B9EQ46011106-C6031110-267B-4979-9697-4ED5D545A996Q46032908-48420EFD-14C1-4BD8-B9CE-0CCEACF21974Q46674030-E3189E16-C7CE-4102-9F44-501450BF08EDQ46884177-5CDDAD95-EBD9-4703-825A-BBD3322D3B04Q46894099-7CE6A655-4FFC-4A8C-A13A-1DCE10B6984AQ47207436-F9EFC6CA-9A32-4947-9C22-897DA6638DBFQ48058172-4C387678-7EA1-458D-BD46-AE0B797ED748Q48093830-6545C4F9-94D8-4350-921F-D08255515514Q48225310-28CFB335-1C61-470B-A4A2-F49ACB329105Q48315668-DEA09433-CD14-4967-8548-FD7494D0A1FCQ49358894-52F41AB1-12C9-4C9E-86E0-F0DF5571BC4DQ50483327-00B6B069-EA60-4589-93E2-89B8CFB4D207Q50523895-1D9809EB-6220-4CE5-9567-92E6D10F1DFFQ50910378-C4FC46A1-4C0D-4C5E-969E-2E9AAB3E7749Q51144045-BBDE59FE-BC9E-475E-8D07-41CAC4C49D63
P2860
An H+ P-ATPase on the tonoplast determines vacuolar pH and flower colour.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh-hant
name
An H+ P-ATPase on the tonoplast determines vacuolar pH and flower colour.
@en
An H+ P-ATPase on the tonoplast determines vacuolar pH and flower colour.
@nl
type
label
An H+ P-ATPase on the tonoplast determines vacuolar pH and flower colour.
@en
An H+ P-ATPase on the tonoplast determines vacuolar pH and flower colour.
@nl
prefLabel
An H+ P-ATPase on the tonoplast determines vacuolar pH and flower colour.
@en
An H+ P-ATPase on the tonoplast determines vacuolar pH and flower colour.
@nl
P2093
P2860
P50
P356
P1433
P1476
An H+ P-ATPase on the tonoplast determines vacuolar pH and flower colour.
@en
P2093
Cornelis Spelt
Joop Vermeer
Ronald Koes
Walter Verweij
P2860
P2888
P304
P356
10.1038/NCB1805
P577
2008-11-09T00:00:00Z
P5875
P6179
1017770808