Multiple genes, tissue specificity, and expression-dependent modulationcontribute to the functional diversity of potassium channels in Arabidopsis thaliana.
about
Potassium channels in plant cellsExpression and stress-dependent induction of potassium channel transcripts in the common ice plantThe AKT3 potassium channel protein interacts with the AtPP2CA protein phosphatase 2CAKT3, a phloem-localized K+ channel, is blocked by protonsPhysical and functional interaction of the Arabidopsis K(+) channel AKT2 and phosphatase AtPP2CA.Rice shaker potassium channel OsKAT1 confers tolerance to salinity stress on yeast and rice cells.Heteromerization of Arabidopsis Kv channel alpha-subunits: Data and prospects.Competition between uptake of ammonium and potassium in barley and Arabidopsis roots: molecular mechanisms and physiological consequences.New structure and function in plant K+ channels: KCO1, an outward rectifier with a steep Ca2+ dependency.Plant K+ channel alpha-subunits assemble indiscriminately.Histidine(118) in the S2-S3 linker specifically controls activation of the KAT1 channel expressed in Xenopus oocytes.Escherichia coli as an expression system for K(+) transport systems from plants.A new family of K+ transporters from Arabidopsis that are conserved across phyla.Pollen tube development and competitive ability are impaired by disruption of a Shaker K(+) channel in ArabidopsisStructure and function of potassium channels in plants: some inferences about the molecular origin of inward rectification in KAT1 channels (Review).Voltage-dependent gating characteristics of the K+ channel KAT1 depend on the N and C terminiDetermination of transmembrane topology of an inward-rectifying potassium channel from Arabidopsis thaliana based on functional expression in Escherichia coliMutations in the SLAC1 anion channel slow stomatal opening and severely reduce K+ uptake channel activity via enhanced cytosolic [Ca2+] and increased Ca2+ sensitivity of K+ uptake channels.An Arabidopsis mutant that requires increased calcium for potassium nutrition and salt tolerance.Cloning, yeast expression, and characterization of the coupling of two distantly related Arabidopsis thaliana NADPH-cytochrome P450 reductases with P450 CYP73A5.Arbuscular Mycorrhizal Fungus Rhizophagus irregularis Increased Potassium Content and Expression of Genes Encoding Potassium Channels in Lycium barbarum.Genome-wide patterns of differentiation and spatially varying selection between postglacial recolonization lineages of Populus alba (Salicaceae), a widespread forest tree.A shaker-like K(+) channel with weak rectification is expressed in both source and sink phloem tissues of Arabidopsis.Inward potassium channel in guard cells as a target for polyamine regulation of stomatal movements.Enhanced Photosynthesis and Growth in atquac1 Knockout Mutants Are Due to Altered Organic Acid Accumulation and an Increase in Both Stomatal and Mesophyll Conductance.The AKT2 potassium channel mediates NaCl induced depolarization in the root of Arabidopsis thaliana.AKT2/3 subunits render guard cell K+ channels Ca2+ sensitive.The baculovirus/insect cell system as an alternative to Xenopus oocytes. First characterization of the AKT1 K+ channel from Arabidopsis thaliana.Functional expression of the plant K+ channel KAT1 in insect cells.2,4-D attenuates salinity-induced toxicity by mediating anatomical changes, antioxidant capacity and cation transporters in the roots of rice cultivars.A unique voltage sensor sensitizes the potassium channel AKT2 to phosphoregulationAssociation of plant K+(in) channels is mediated by conserved C-termini and does not affect subunit assembly.Outer pore residues control the H(+) and K(+) sensitivity of the Arabidopsis potassium channel AKT3.Functional expression and characterization of a plant K+ channel gene in a plant cell model.Comparative transcriptional profiling of two contrasting rice genotypes under salinity stress during the vegetative growth stage.Expression of a Cs(+)-resistant guard cell K+ channel confers Cs(+)-resistant, light-induced stomatal opening in transgenic arabidopsis.Identification of regions responsible for the function of the plant K+ channels KAT1 and AKT2 in Saccharomyces cerevisiae and Xenopus laevis oocytes.Single mutations strongly alter the K+-selective pore of the K(in) channel KAT1.Impaired Malate and Fumarate Accumulation Due to the Mutation of the Tonoplast Dicarboxylate Transporter Has Little Effects on Stomatal Behavior.The HAK1 gene of barley is a member of a large gene family and encodes a high-affinity potassium transporter.
P2860
Q26861385-3B0E6EE8-F5E5-4643-B25C-FCB474B77A4EQ28346627-64EEF858-7DE7-4AA8-B31F-F44251A9E7ECQ28593847-9E69F365-8DBB-4A33-9F13-683AE7DCD843Q30721141-F5A9E229-28F0-42D5-8631-4343CFE835F4Q31063370-986482BB-9528-457C-AB0E-37815E0E4652Q33288605-D31C691F-BA57-4272-B165-F8794CD90214Q33464977-34080A40-041B-44F7-80ED-1A1C9AB7E097Q33546292-50A27175-8082-40B8-9DD7-F5068C58AFF7Q33886612-07579E8F-3C5F-4DBD-8AEA-146781DBB205Q33915432-6E2BA55C-F1B4-4AFB-A123-82F8CE66DC4CQ34172572-A3AB99D5-D838-4A1A-99C0-A2E3E5DD1A73Q34335722-B10BB5CC-B7B8-48DB-8130-485A2508CD5FQ34444391-103451A0-EF6D-42E8-8CD5-EA23D6927954Q35005283-A33669CE-F8B5-4571-A8F8-EFF5997CD4DDQ35127093-DD3DE2D2-8225-4856-82DA-0C89975610FEQ36086810-5F6706E8-D186-4465-8FF2-ECEAA8BBBDA5Q36275863-683F55DD-2296-4FBE-96D3-FDBCDB8108CCQ36428909-92F1CD1F-27E5-4556-9039-2F57B2D8E07DQ36834480-5DB83DE7-F942-421A-B32D-DF551B004720Q36872775-FE288FD8-45F8-4A49-8B9D-2FE966A7B1A5Q37729541-FB04B8EE-E0C8-4860-91C7-A294BB90FC3AQ38465262-549A3E8B-BE79-48AF-9048-610F3D0A3A7AQ39156012-FCF15C67-C999-4749-A6E2-EB54B3B609B4Q39183961-02281935-AE5E-4AF2-AC1A-197C10FFABC9Q39239330-BD40F730-E6B0-43E0-B7EE-9D8376A3E2E2Q39864675-7B1A58B2-A81A-4DC0-AE00-B5749DEEF660Q40436416-B104AACB-1B50-44F3-B7D6-1B8EA5FF4BE1Q41168148-847A6FAA-9781-4821-92CA-65F3A7F4F4FDQ41227285-292D49B3-72FC-44EC-8A77-0A154A0E2350Q41621288-10D0C60F-AADF-462A-A0B9-C9A02043AB44Q41833755-C1139282-475F-446F-ADB5-57D00648BC92Q42062170-520882F9-50C5-472F-8726-23A1E800A231Q44097473-0966DC49-7367-49BE-8226-820C1A84EC75Q46164505-7F1535A8-37D2-450E-9C13-ABCF7265A097Q46336212-6BFAC913-CC6C-49A3-B8C3-4E9DC91A9526Q46983136-5E77E7ED-1848-4101-92D3-400AB40640DFQ47652394-20DA5523-55BC-45B8-AD58-3EFA64A03F86Q47749596-1C2E28C7-1ADF-4C47-A233-EF0DDF8B9E0EQ47775179-7474F77B-796C-472A-8911-586E8F53C0A5Q48040992-66859144-86BF-4099-A1FF-30A2304C2ED7
P2860
Multiple genes, tissue specificity, and expression-dependent modulationcontribute to the functional diversity of potassium channels in Arabidopsis thaliana.
description
1995 nî lūn-bûn
@nan
1995年の論文
@ja
1995年学术文章
@wuu
1995年学术文章
@zh-cn
1995年学术文章
@zh-hans
1995年学术文章
@zh-my
1995年学术文章
@zh-sg
1995年學術文章
@yue
1995年學術文章
@zh
1995年學術文章
@zh-hant
name
Multiple genes, tissue specifi ...... nnels in Arabidopsis thaliana.
@en
Multiple genes, tissue specifi ...... nnels in Arabidopsis thaliana.
@nl
type
label
Multiple genes, tissue specifi ...... nnels in Arabidopsis thaliana.
@en
Multiple genes, tissue specifi ...... nnels in Arabidopsis thaliana.
@nl
prefLabel
Multiple genes, tissue specifi ...... nnels in Arabidopsis thaliana.
@en
Multiple genes, tissue specifi ...... nnels in Arabidopsis thaliana.
@nl
P2093
P356
P1433
P1476
Multiple genes, tissue specifi ...... nnels in Arabidopsis thaliana.
@en
P2093
A M Ichida
J A Anderson
N M Crawford
P304
P356
10.1104/PP.109.3.1093
P407
P577
1995-11-01T00:00:00Z