TMEM16C facilitates Na(+)-activated K+ currents in rat sensory neurons and regulates pain processing
about
Epilepsy-Related Slack Channel Mutants Lead to Channel Over-Activity by Two Different MechanismsA Pore Idea: the ion conduction pathway of TMEM16/ANO proteins is composed partly of lipidCellular functions of TMEM16/anoctaminThe BRAIN Initiative Provides a Unifying Context for Integrating Core STEM Competencies into a Neurobiology CourseA novel ANO3 variant identified in a 53-year-old woman presenting with hyperkinetic dysarthria, blepharospasm, hyperkinesias, and complex motor tics.Tumor necrosis factor α modulates sodium-activated potassium channel SLICK in rat dorsal horn neurons via p38 MAPK activation pathway[EXPRESS] Slack KNa Channels Influence Dorsal Horn Synapses and Nociceptive Behavior.Emerging role of the KCNT1 Slack channel in intellectual disability.SLO-2 potassium channel is an important regulator of neurotransmitter release in Caenorhabditis elegansModulating Ca²⁺ signals: a common theme for TMEM16, Ist2, and TMC.Common variants associated with general and MMR vaccine-related febrile seizures.Subgroup-elimination transcriptomics identifies signaling proteins that define subclasses of TRPV1-positive neurons and a novel paracrine circuit.Human slack potassium channel mutations increase positive cooperativity between individual channelsMultiple transcripts of anoctamin genes expressed in the mouse submandibular salivary gland.Permeation Mechanisms in the TMEM16B Calcium-Activated Chloride Channels.Knockout of Slo2.2 enhances itch, abolishes KNa current, and increases action potential firing frequency in DRG neurons.Slack sodium-activated potassium channel membrane expression requires p38 mitogen-activated protein kinase phosphorylation.Cryo-electron microscopy structure of the Slo2.2 Na(+)-activated K(+) channel.Recent advances in the genetics of dystonia.Anoctamin 1 contributes to inflammatory and nerve-injury induced hypersensitivity.MrgC agonism at central terminals of primary sensory neurons inhibits neuropathic painTMEM16 proteins: unknown structure and confusing functions.Selective serotonin reuptake inhibitors facilitate ANO6 (TMEM16F) current activation and phosphatidylserine exposure.Molecular, biophysical, and pharmacological properties of calcium-activated chloride channels.International Union of Basic and Clinical Pharmacology. C. Nomenclature and Properties of Calcium-Activated and Sodium-Activated Potassium Channels.Identification of novel radiation-induced p53-dependent transcripts extensively regulated during mouse brain development.Slick (Kcnt2) Sodium-Activated Potassium Channels Limit Peptidergic Nociceptor Excitability and Hyperalgesia.SLC26A11 (KBAT) in Purkinje Cells Is Critical for Inhibitory Transmission and Contributes to Locomotor CoordinationProfile of Lily and Yuh Nung Jan, winners of the 2017 Vilcek Prize in Biomedical Science.The nhTMEM16 Scramblase Is Also a Nonselective Ion ChannelANO9/TMEM16J promotes tumourigenesis via EGFR and is a novel therapeutic target for pancreatic cancer.Protein kinase A-induced internalization of Slack channels from the neuronal membrane occurs by adaptor protein-2/clathrin-mediated endocytosis.An ancestral TMEM16 homolog from Dictyostelium discoideum forms a scramblase.Chloride Homeostasis in Neurons With Special Emphasis on the Olivocerebellar System: Differential Roles for Transporters and Channels.Sodium-activated potassium channels shape peripheral auditory function and activity of the primary auditory neurons in mice
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Q27319989-D4330F7D-022D-4995-909F-142E7CFB2E62Q28066190-7A13D8CF-880C-4965-8BE9-F04F5D636C2EQ28077344-143DCCDB-A49F-4BEB-A941-CCF940B04605Q28600840-8FD54CBD-9009-4FC8-BC21-0F6876AE1DC1Q30830965-22096DD6-3F1A-4F00-A53E-40EAA82F1ADCQ33739821-47EC5F1B-3C99-41A5-BC1E-0CFF629ED607Q33840478-BB7605CD-40FB-4A0C-9EA8-22525D569715Q33958421-2D146606-7D87-4A62-B360-A0CCFF43BD91Q34339412-D011E388-04EC-49CB-90DB-A26527609221Q34506445-4BE40AD4-C56A-48F9-974F-3CF4B6B78D85Q34572775-5238D576-9353-4556-ADF2-FD8DD7B9AD81Q34796577-33E9E027-2F66-45FF-A4EA-FC03E6C3C0FEQ34957755-731A7F3F-0187-4610-894C-A14BF5BCEE31Q35555080-EB8CDAE3-5375-41A7-AD8D-09580C8CD3A2Q36238581-8E80C92B-6034-4FDA-957E-D893BCF9A196Q36270776-6B588ADF-B1B7-4EEA-AE41-8597B332BE0CQ36586021-19603277-17E9-481F-BB63-60C20390B1F0Q36949874-8BAE81BD-FAB2-4A59-B664-FDA283E9FD50Q36950726-DA39FF82-B287-49B7-B143-4A639E4F07BCQ37593191-28D9340D-9CC5-4672-A83C-3A0125C6498FQ37622078-42543C95-99AA-4D80-92A8-666F6014B57FQ38275906-8397C2A8-1C2A-4CC5-A08F-3EADAE5922F3Q38915666-808D32E3-CD7A-4FAA-97F6-DA8A19DEB883Q39102527-F817F7D6-21CC-4768-9B06-665F34DCCA0CQ39166252-E2F210B6-E443-4111-895F-DA8B16323064Q41436986-43B50975-53B1-4FB7-AABE-FAFE5540315EQ41700247-18C8E6C1-CD16-4742-A325-F1BBAA13E76FQ42281905-E45C6521-461C-4549-92AC-3B58B92CDA76Q42318144-B335DB0B-7B30-4D8E-BB01-E7F8A9C0C34AQ42738774-02D2DDE0-7956-40D1-B84C-4D85CA63D595Q47661281-F62A0749-30A8-4990-8E43-39910727FFB9Q47689959-925142AE-6A93-435F-9892-39D82833F3EEQ50000586-42988959-A6AC-4C5F-8DC6-DB6A21741B56Q55265914-B54DFA4F-14FB-4AC5-ADEB-B3B08A694F79Q64116363-8f83d7c8-4c2a-e94b-c068-9743ce67f4a4
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TMEM16C facilitates Na(+)-activated K+ currents in rat sensory neurons and regulates pain processing
description
2013 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
artículu científicu espublizáu en 2013
@ast
im September 2013 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2013/09/01)
@sk
vědecký článek publikovaný v roce 2013
@cs
wetenschappelijk artikel (gepubliceerd op 2013/09/01)
@nl
наукова стаття, опублікована у вересні 2013
@uk
مقالة علمية (نشرت في سبتمبر 2013)
@ar
name
TMEM16C facilitates Na(+)-acti ...... and regulates pain processing
@ast
TMEM16C facilitates Na(+)-acti ...... and regulates pain processing
@en
TMEM16C facilitates Na(+)-acti ...... and regulates pain processing
@nl
type
label
TMEM16C facilitates Na(+)-acti ...... and regulates pain processing
@ast
TMEM16C facilitates Na(+)-acti ...... and regulates pain processing
@en
TMEM16C facilitates Na(+)-acti ...... and regulates pain processing
@nl
prefLabel
TMEM16C facilitates Na(+)-acti ...... and regulates pain processing
@ast
TMEM16C facilitates Na(+)-acti ...... and regulates pain processing
@en
TMEM16C facilitates Na(+)-acti ...... and regulates pain processing
@nl
P2093
P2860
P3181
P356
P1433
P1476
TMEM16C facilitates Na(+)-acti ...... and regulates pain processing
@en
P2093
Allan I. Basbaum
Eric M. Ostertag
Lily Yeh Jan
Tulip Nuwal
Xidao Wang
Yuh-Nung Jan
P2860
P2888
P304
P3181
P356
10.1038/NN.3468
P407
P577
2013-09-01T00:00:00Z