An essential 'set' of K+ channels conserved in flies, mice and humans.
about
TWIK-1, a ubiquitous human weakly inward rectifying K+ channel with a novel structureCloning, functional expression and brain localization of a novel unconventional outward rectifier K+ channelDimerization of TWIK-1 K+ channel subunits via a disulfide bridgeA family of potassium channel genes related to eag in Drosophila and mammalsA prokaryotic potassium ion channel with two predicted transmembrane segments from Streptomyces lividansThe beta subunit increases the Ca2+ sensitivity of large conductance Ca2+-activated potassium channels by retaining the gating in the bursting statesSelective interaction of voltage-gated K+ channel beta-subunits with alpha-subunitsExpression and function of voltage-dependent potassium channel genes in human airway smooth muscleHeteroligomers of type-I and type-III inositol trisphosphate receptors in WB rat liver epithelial cellsPancreatic islet cells express a family of inwardly rectifying K+ channel subunits which interact to form G-protein-activated channelsDistal spike initiation zone location estimation by morphological simulation of ionic current filtering demonstrated in a novel model of an identified Drosophila motoneuronChanges in activation gating of IsK potassium currents brought about by mutations in the transmembrane sequenceFunctional expression of a rat homologue of the voltage gated either á go-go potassium channel reveals differences in selectivity and activation kinetics between the Drosophila channel and its mammalian counterpartLocalization and targeting of voltage-dependent ion channels in mammalian central neurons.Functional evolution of Erg potassium channel gating reveals an ancient origin for IKrA secretory-type protein, containing a pentraxin domain, interacts with an A-type K+ channel.Shaker and Shal mediate transient calcium-independent potassium current in a Drosophila flight motoneuron.100 years of Drosophila research and its impact on vertebrate neuroscience: a history lesson for the futureNeural Circuits Underlying Fly Larval LocomotionShal/K(v)4 channels are required for maintaining excitability during repetitive firing and normal locomotion in Drosophila.The eag family of K+ channels in Drosophila and mammals.K+ channel inactivation mediated by the concerted action of the cytoplasmic N- and C-terminal domains.Plant K+ channel alpha-subunits assemble indiscriminately.In vivo functional role of the Drosophila hyperkinetic beta subunit in gating and inactivation of Shaker K+ channels.A potassium channel beta subunit related to the aldo-keto reductase superfamily is encoded by the Drosophila hyperkinetic locus.Rescue of lethal subunits into functional K+ channelsMembranes with the same ion channel populations but different excitabilities.A screen for genes expressed in the olfactory organs of Drosophila melanogaster identifies genes involved in olfactory behaviourMolecular basis of hypoxia-induced pulmonary vasoconstriction: role of voltage-gated K+ channels.Assembly of voltage-gated potassium channels. Conserved hydrophilic motifs determine subfamily-specific interactions between the alpha-subunits.A novel beta subunit increases rate of inactivation of specific voltage-gated potassium channel alpha subunits.Drosophila larvae as a model to study physiological alcohol dependence.Modes of regulation of shab K+ channel activity by the Kv8.1 subunit.Neuronal tolerance to O2 deprivation in drosophila: novel approaches using genetic models.Expanded functional diversity of shaker K(+) channels in cnidarians is driven by gene expansion.The genetic analysis of functional connectomics in DrosophilaMajor diversification of voltage-gated K+ channels occurred in ancestral parahoxozoans.Integrative physiology and functional genomics of epithelial function in a genetic model organism.TREK-1, a K+ channel involved in neuroprotection and general anesthesia.Effects of caffeine and 3-isobutyl-1-methylxanthine on voltage-activated potassium currents in vertebrate neurones and secretory cells.
P2860
Q24323355-57D7CC7F-3E5F-4494-82AE-24DEEEBE3C55Q24561735-D183569D-B905-4EB4-A4EE-588913664574Q24561816-B95A1263-8487-4C99-AE33-BABA651E78E7Q24563554-AB3DFDFE-DF34-4143-9E71-D1111845B0A1Q24597881-BD3EF1BF-CAD4-402B-834E-ED5FF4E28988Q24642378-C8F4802B-E919-49D6-BB52-354A98035DB0Q28279423-53C45170-0A29-4D2F-A194-4C058561DB64Q28281692-6D13AC38-A700-46F2-B9D8-E6217AE4F5EAQ28289408-2DD36916-FE39-4CF6-96FF-4A40101782F2Q28291839-C8C3C323-3F7D-4C30-BBFD-C07CDC55BC7AQ28547254-E3C361FC-5896-4040-9128-6D9C48894E19Q28576361-9EF3050A-6DD5-4AA1-9A89-C317EE053878Q28582046-D85F304C-35FA-44AF-83AE-4FBE48E2EA0BQ30492681-F81D285F-D569-465A-AB2D-D29A09E99B35Q30576425-41242193-62E3-4FDC-8A15-DEB1DB9D70B1Q33211866-4E9936C8-BE2D-4342-8F43-E3605C59ABA0Q33582196-E198CE06-AE8A-44F6-9F8A-61CC46EC92B8Q33615730-C93BC990-0998-4495-8040-637EC3E3E83BQ33795143-8E760065-18C0-435C-B918-21222B92C01AQ33802560-3A21BF32-2AAB-426F-8051-BA6853DAC82CQ33868674-5D576240-7439-4973-A917-B7D9029B739CQ33915093-13B343D8-C628-436A-8648-7611FD1D2EEFQ33915432-B4E57AFB-C8B5-4397-9FA7-3EF741DFD8DEQ34041283-1B24DD62-8A6B-4D1A-A547-8FE4D16B0D5EQ34075933-08226125-D503-4561-AF1D-9DF6571C5D23Q34114775-DA30C993-D546-4A00-8C90-E4844FAC5330Q34241673-CEF70027-EE31-4DF6-92A0-E1DA6BE60225Q34243953-23187024-6370-413B-85A8-B9A58B9D2F28Q34280464-A5FF648F-A3D1-4FB0-B2E5-5DF118372F86Q34295548-ACEDE041-B903-4A3C-8591-0B8B8DBC4044Q34320891-34BB80BE-B81B-4376-8616-DD496669FE6AQ34349690-5B8B3A07-F562-47E8-A575-9051298B99CEQ34420103-C69EF0D0-E2A6-44AC-9029-2B0A75DE8C90Q34476800-FA41E6B1-813C-4172-85E5-9187FC53F2DEQ34516481-C3F362B6-178B-4458-802B-7552B9AD176DQ34610836-5DF9646B-6349-4C33-B42E-42C7A0C739DCQ35157106-31C1EF01-55C1-4A6F-9E9E-4321CD0168A6Q35169902-2D54B2EC-407B-417C-9D19-6E6D975F326BQ35835856-BA8BEDB1-2519-4F60-BC6C-BE7DDFCB4C62Q35874150-B03F64FC-C397-4D41-AB5C-8065FF38DC68
P2860
An essential 'set' of K+ channels conserved in flies, mice and humans.
description
1992 nî lūn-bûn
@nan
1992 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
1992 թվականի մայիսին հրատարակված գիտական հոդված
@hy
1992年の論文
@ja
1992年論文
@yue
1992年論文
@zh-hant
1992年論文
@zh-hk
1992年論文
@zh-mo
1992年論文
@zh-tw
1992年论文
@wuu
name
An essential 'set' of K+ channels conserved in flies, mice and humans.
@ast
An essential 'set' of K+ channels conserved in flies, mice and humans.
@en
type
label
An essential 'set' of K+ channels conserved in flies, mice and humans.
@ast
An essential 'set' of K+ channels conserved in flies, mice and humans.
@en
prefLabel
An essential 'set' of K+ channels conserved in flies, mice and humans.
@ast
An essential 'set' of K+ channels conserved in flies, mice and humans.
@en
P2093
P1476
An essential 'set' of K+ channels conserved in flies, mice and humans.
@en
P2093
P304
P356
10.1016/0166-2236(92)90165-5
P577
1992-05-01T00:00:00Z