Physical basis of apparent pore dilation of ATP-activated P2X receptor channels - Wikidata - awgldk - TriplyDB

Physical basis of apparent pore dilation of ATP-activated P2X receptor channels

Physical basis of apparent pore dilation of ATP-activated P2X receptor channels

http://www.wikidata.org/entity/Q28821199

about

Interleukin-1β has trophic effects in microglia and its release is mediated by P2X7R pore.Engineering vanilloid-sensitivity into the rat TRPV2 channel Localization of the gate and selectivity filter of the full-length P2X7 receptor P2X4 Receptor Function in the Nervous System and Current Breakthroughs in Pharmacology.Direct Anandamide Activation of TRPV1 Produces Divergent Calcium and Current Responses.Store-Operated Ca(2+) Entry (SOCE) and Purinergic Receptor-Mediated Ca(2+) Homeostasis in Murine bv2 Microglia Cells: Early Cellular Responses to ATP-Mediated Microglia Activation Cellular permeation of large molecules mediated by TRPM8 channels.An external sodium ion binding site controls allosteric gating in TRPV1 channels FGF-1 Triggers Pannexin-1 Hemichannel Opening in Spinal Astrocytes of Rodents and Promotes Inflammatory Responses in Acute Spinal Cord Slices.On the permeation of large organic cations through the pore of ATP-gated P2X receptors.Structural mechanisms of activation and desensitization in neurotransmitter-gated ion channels.The scaffold protein calcium/calmodulin-dependent serine protein kinase controls ATP release in sensory ganglia upon P2X3 receptor activation and is part of an ATP keeper complex.Extracellular purines, purinergic receptors and tumor growth.Interactions of Pannexin1 channels with purinergic and NMDA receptor channels.ATP-induced P2X Receptor-Dependent Large Pore Formation: How Much Do We Know?Pore dilation reconsidered The P2X7 receptor forms a dye-permeable pore independent of its intracellular domain but dependent on membrane lipid composition.Deciphering the regulation of P2X4 receptor channel gating by ivermectin using Markov models.Atypical calcium regulation of the PKD2-L1 polycystin ion channel.TRPA1 channels: molecular sentinels of cellular stress and tissue damage.HSP90 Regulation of P2X7 Receptor Function Requires an Intact Cytoplasmic C-Terminus.POM-1 inhibits P2 receptors and exhibits anti-inflammatory effects in macrophages.The ASIC3/P2X3 cognate receptor is a pain-relevant and ligand-gated cationic channel.Transient receptor potential vanilloid 4 (TRPV4) channel as a target of crotamiton and its bimodal effects.The P2X7 receptor and pannexin-1 are involved in glucose-induced autocrine regulation in β-cells.Re-evaluation of neuronal P2X7 expression using novel mouse models and a P2X7-specific nanobody

P2860

Q27303076-A7A12D02-5770-44B7-9F1F-1A0989A46CD4 Q28830324-4A863400-3565-4EFA-A587-3D77095FB368 Q30313395-E6DE61B7-F36F-45F5-B687-4FB1765AFB8B Q33718454-2B249BEA-93A0-4D96-B0B5-CA1F798C4DAA Q33819204-71A74853-CBEB-4744-9FCB-1164267E3A79 Q36191342-8E5386CC-5DEE-4967-B717-720BCE422928 Q36236703-8A7B0E79-35D0-4A59-A64B-66620E4B64F0 Q36610027-B57115EF-3D5A-4BA4-92A9-662204632AC9 Q36840541-E5341C65-0E9E-49EA-94E3-E98141284374 Q38820111-BDC986FD-D0A3-4CB8-8622-24CE3A93DCAC Q38858502-5BE8947C-A9E8-4CA9-92A9-5FF4BC6B11D2 Q38863263-52DD2383-650D-4534-A8E5-4D42A810E37B Q38870205-3358BC79-F216-481E-B65C-0B8B7F7531E7 Q39227398-47E83612-9F2F-4925-8DA6-E9A797ACCEE7 Q41847565-CAA700EC-4032-426B-80BE-0636FEBA5F07 Q41896539-85501247-85A4-441B-96E9-26CECCF7E737 Q42286459-52CD05C4-4241-4454-BBAD-D68094785189 Q42339133-23F0A16D-DBBD-42B6-A18E-93BC5CA4307F Q42532836-B778B756-98D4-44B2-A875-406813A0BA9D Q47318311-4CF19DB9-A8E8-4E62-B032-043B2C427052 Q48001776-BFE768B0-BEFD-4B29-AD2D-974C4B0A6CC6 Q50096315-61C0FBAC-4613-41A8-9265-84A96F7488C7 Q52325871-B4F0FE2B-92E4-4482-B1F1-0902B79E0FE9 Q52765711-733106D0-09C6-44B6-BE54-20610978A327 Q55384599-35100065-DB42-43D3-BDEF-732B49FE73C9 Q58451239-275F36C3-BF34-4FA5-B541-BBF0471AE1CE

P2860

Physical basis of apparent pore dilation of ATP-activated P2X receptor channels

http://www.wikidata.org/entity/Q28821199

description

2015 nî lūn-bûn

@nan

2015 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած

@hyw

2015 թվականի նոյեմբերին հրատարակված գիտական հոդված

@hy

2015年の論文

@ja

2015年論文

@yue

2015年論文

@zh-hant

2015年論文

@zh-hk

2015年論文

@zh-mo

2015年論文

@zh-tw

2015年论文

@wuu

name

Physical basis of apparent pore dilation of ATP-activated P2X receptor channels

@ast

Physical basis of apparent pore dilation of ATP-activated P2X receptor channels

@en

type

label

Physical basis of apparent pore dilation of ATP-activated P2X receptor channels

@ast

Physical basis of apparent pore dilation of ATP-activated P2X receptor channels

@en

prefLabel

Physical basis of apparent pore dilation of ATP-activated P2X receptor channels

@ast

Physical basis of apparent pore dilation of ATP-activated P2X receptor channels

@en

P1433

Q28821199-C4576D0B-1C6E-4857-B9A3-0DFCD3BC414F

P1476

Q28821199-7AA89AE5-A44D-4ACB-8304-C8E537E6EBB4

P2093

Q28821199-2470927D-EFB2-4C08-8CF1-7DA7A53375A3

Q28821199-745B605C-4E23-4E34-BCB3-B9E970BC1462

Q28821199-97A4BF3B-ED78-4D51-88F9-0D659034A619

P2860

Q28821199-03875E92-DAE1-4278-A38D-DEB06F4B0832

Q28821199-08730BC5-8849-487E-93E5-78F5B9A7C427

Q28821199-0C579A89-DB38-428A-BCF2-FA703993D9CE

Q28821199-1259AA7E-FC78-4607-8FE2-CFF9A1D1F3F6

Q28821199-18291F41-94F0-437E-8509-EBF084DA3CB6

Q28821199-1A24A463-B42D-45C8-AFC6-DAB33025BA60

Q28821199-1B8CB23B-BBD7-4D05-AE09-A3C420D689DE

Q28821199-1C06AECA-7E6B-464D-ACE8-145B316B11A4

Q28821199-268565A8-466B-4B17-A9FE-2B272656446B

Q28821199-3068600F-76F5-4713-805F-05EDD89FC51E

P2888

Q28821199-1BDDE52C-E242-484B-848C-89EF82DBC204

P304

Q28821199-0177F708-76A3-4ACC-AAF1-4931B06FE506

P31

Q28821199-F56DC34B-CCFD-49E8-A820-12564D74D86C

P3181

Q28821199-1A941A1C-628D-46E1-9B14-B239F16CEB00

P356

Q28821199-35B36EEB-0FF1-474F-8651-637A70379874

P407

Q28821199-53320FBA-F476-4B51-80DE-DDA9C41E3819

P433

Q28821199-7AE01E73-B9D5-48D3-BAFD-6BDFC3414710

P478

Q28821199-1CB25DB8-DA7E-49BC-8E7C-444590985B07

P50

Q28821199-D43A1D23-BC72-4ABE-8369-B7F40C693E38

P577

Q28821199-282340A4-E0A2-465D-B46D-CEF4EF56023D

P5875

Q28821199-CB3E12AC-33AE-4068-87CF-4B5849661765

P698

Q28821199-4F2C4E1E-5E7F-4467-8281-07B2F32F5B1A

P932

Q28821199-F9025B39-1264-4FD6-952D-B308F35B5A47

P3181

P356

P1433

Nature Neuroscience

P1476

Physical basis of apparent pore dilation of ATP-activated P2X receptor channels

@en

P2093

Kenton J Swartz

http://www.w3.org/2001/XMLSchema#string

Mufeng Li

http://www.w3.org/2001/XMLSchema#string

Shai D Silberberg

http://www.w3.org/2001/XMLSchema#string

P2860

The Structure of the Potassium Channel: Molecular Basis of K+ Conduction and Selectivity

The effect of sodium ions on the electrical activity of the giant axon of the squid

POTENTIAL, IMPEDANCE, AND RECTIFICATION IN MEMBRANES

Improved patch-clamp techniques for high-resolution current recording from cells and cell-free membrane patches

Pannexin-1 mediates large pore formation and interleukin-1beta release by the ATP-gated P2X7 receptor

Identification, functional expression and chromosomal localisation of a sustained human proton-gated cation channel

Single channel properties of P2X2 purinoceptors

Life and times of a cellular bleb

Crystal structure of the ATP-gated P2X(4) ion channel in the closed state

Two open states of P2X receptor channels

P2888

P304

1577-1583

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P3181

342693

http://www.w3.org/2001/XMLSchema#string

P356

10.1038/NN.4120

http://www.w3.org/2001/XMLSchema#string

P407

P433

11

http://www.w3.org/2001/XMLSchema#string

P478

18

http://www.w3.org/2001/XMLSchema#string

P50

Gilman E S Toombes

P577

2015-09-21T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

282047624

http://www.w3.org/2001/XMLSchema#string

P698

26389841

http://www.w3.org/2001/XMLSchema#string

P932

5113834

http://www.w3.org/2001/XMLSchema#string