Activation of pannexin 1 channels by ATP through P2Y receptors and by cytoplasmic calcium.
about
Connexin and Pannexin hemichannels are regulated by redox potentialExpression of genes encoding multi-transmembrane proteins in specific primate taste cell populationsThe cell biology of tastePannexin-1 mediates large pore formation and interleukin-1beta release by the ATP-gated P2X7 receptorStructural and functional similarities of calcium homeostasis modulator 1 (CALHM1) ion channel with connexins, pannexins, and innexinsPannexin1 channels contain a glycosylation site that targets the hexamer to the plasma membraneThe role of pannexin hemichannels in the anoxic depolarization of hippocampal pyramidal cellsIdentification and characterization of pannexin expression in the mammalian cochleaInflammasomes: too big to missProbenecid, a gout remedy, inhibits pannexin 1 channelsP2X7 receptor-Pannexin1 complex: pharmacology and signalingNOD-like receptors (NLRs): bona fide intracellular microbial sensorsPurinergic Signaling in Gut Inflammation: The Role of Connexins and PannexinsRole of Astroglial Hemichannels and Pannexons in Memory and Neurodegenerative DiseasesP2Y Receptors in Synaptic Transmission and Plasticity: Therapeutic Potential in Cognitive Dysfunction.Role of Glia in Memory Deficits Following Traumatic Brain Injury: Biomarkers of Glia DysfunctionRelevance of gap junctions and large pore channels in traumatic brain injuryFrom mechanosensitivity to inflammatory responses: new players in the pathology of glaucomaPurinergic signalling in the kidney in health and diseaseIntrinsic properties and regulation of Pannexin 1 channel.The pannexins: past and presentGenetic ablation of Pannexin1 protects retinal neurons from ischemic injuryTargeting pannexin1 improves seizure outcomePannexin1 stabilizes synaptic plasticity and is needed for learning.Microglial morphology and dynamic behavior is regulated by ionotropic glutamatergic and GABAergic neurotransmissionThe role of pannexin hemichannels in inflammation and regenerationPerspectives on the role of Pannexin 1 in neural precursor cell biologyConnexins and Pannexins: New Insights into Microglial Functions and DysfunctionsInnexins form two types of channelsWhat is hidden in the pannexin treasure trove: the sneak peek and the guessworkPannexin1 and Pannexin2 channels show quaternary similarities to connexons and different oligomerization numbers from each otherPathophysiology of astroglial purinergic signallingAssessing a potential role of host Pannexin 1 during Chlamydia trachomatis infectionThe potassium channel subunit Kvbeta3 interacts with pannexin 1 and attenuates its sensitivity to changes in redox potentialsThe pannexin 1 channel activates the inflammasome in neurons and astrocytesRegulation of Connexin-Based Channels by Fatty AcidsActivation and regulation of the inflammasomesSterile inflammation: sensing and reacting to damagePoint mutation in the mouse P2X7 receptor affects intercellular calcium waves in astrocytesA quantized mechanism for activation of pannexin channels
P2860
Q21129235-285DDEE6-E2C5-4115-BF41-D12C8A113117Q21142713-E5C6E276-6DE2-4965-B7AF-1C5AF73D4557Q22337180-648AF7C2-57A5-4ECA-90C4-E1C20820EED9Q24306745-4F048493-9944-48B2-B560-A2CECA6C7134Q24307848-067C6E8C-6A3F-46D1-83B5-FA9C09017587Q24338217-A6D96415-364A-48EB-898C-081FEB083703Q24632105-4F1730F3-87CF-4368-88BD-1832C8AC2B21Q24646253-D2B0D058-051C-4357-B6B0-C3C9028F22F9Q24647337-4AA2F061-8933-4007-B578-D4C75D33B8F0Q24647558-CD68EF4B-1A8C-4031-99F2-7CC2C783AA02Q24647580-B7035795-2517-4CB2-931B-1B615E5BE93BQ24648795-3594E50F-89AF-4BC7-A7D1-FEE8182B2B86Q26738433-00730D4F-CCDD-4AA1-8F79-E0339D7C5E64Q26739590-4B7798B2-D6E6-4FDA-8D8E-AE22E8C1627CQ26749031-8E6F65CA-5390-44F7-9D15-58F601A48B2FQ26766026-CD63E2E8-5F21-4536-B2B0-D1FC138E3D32Q26820817-BA1C8A1F-D90B-4A3F-97E7-202BFE63651EQ26864408-758C5048-9626-48C1-9285-DE44D179DAB0Q26864669-187A0E7F-416D-4979-A5E8-6C0110739134Q27010482-2E332149-C27F-40CE-9E05-B4FB19FD23EFQ27027940-8CFC2DCC-99AB-416F-8250-A7D0C9FA0B82Q27308767-DE572F3A-A434-4022-9072-5FE70F631673Q27318790-85C74B65-181A-4FE5-AA9B-0C048A096B2AQ27330008-5DC37EB9-FB7E-4EC4-92AA-3D2AED4D2349Q27438031-9ADB610C-E343-43F2-8FE9-73DCFB3CAC5DQ27500428-DB33BA97-BF03-48ED-81D1-1F45040E0A1DQ28069845-83421F5C-BACC-40A0-9EC2-7F667E8F13AEQ28073033-2CBA9FFE-336E-418C-9AF4-B67B6B136975Q28258528-3CBF1434-8A2B-4453-854A-D7D62C196F81Q28264681-DFD1C327-E6CA-4C86-B5F0-25B6C11900BCQ28283949-BE5DD184-729F-4EC8-B4BC-DE8A459F738EQ28384801-0A151735-EF39-4388-939A-708F56D5DE87Q28488289-E63B363C-135E-4A53-9002-06EB101BAC55Q28510336-F24E6AF3-E4AF-43A8-83C0-18AACC8FB314Q28583666-539325BA-5EB1-4287-B71A-62D187D5B2CBQ28818483-CE07ED54-C094-406B-8BD7-2FBAF3EA8B1BQ29615664-75E52E96-B924-46FA-806E-7C2441DCE5B0Q29620014-F7DF30D8-1AF6-48A2-87D1-C14D63CDFB7FQ30157211-45DE82FA-20A5-4C2E-B2BC-A937028DCD7BQ30274892-042031A2-D8B0-4889-B150-9222093DFB54
P2860
Activation of pannexin 1 channels by ATP through P2Y receptors and by cytoplasmic calcium.
description
2005 nî lūn-bûn
@nan
2005年の論文
@ja
2005年学术文章
@wuu
2005年学术文章
@zh
2005年学术文章
@zh-cn
2005年学术文章
@zh-hans
2005年学术文章
@zh-my
2005年学术文章
@zh-sg
2005年學術文章
@yue
2005年學術文章
@zh-hant
name
Activation of pannexin 1 chann ...... rs and by cytoplasmic calcium.
@en
Activation of pannexin 1 chann ...... rs and by cytoplasmic calcium.
@nl
type
label
Activation of pannexin 1 chann ...... rs and by cytoplasmic calcium.
@en
Activation of pannexin 1 chann ...... rs and by cytoplasmic calcium.
@nl
prefLabel
Activation of pannexin 1 chann ...... rs and by cytoplasmic calcium.
@en
Activation of pannexin 1 chann ...... rs and by cytoplasmic calcium.
@nl
P2093
P1433
P1476
Activation of pannexin 1 chann ...... rs and by cytoplasmic calcium.
@en
P2093
Gerhard Dahl
Junjie Wang
Silviu Locovei
P304
P356
10.1016/J.FEBSLET.2005.12.004
P407
P577
2005-12-12T00:00:00Z