about
Transient receptor potential channels encode volatile chemicals sensed by rat trigeminal ganglion neuronsTrafficking of TRPP2 by PACS proteins represents a novel mechanism of ion channel regulationTRPV4 channel is involved in the coupling of fluid viscosity changes to epithelial ciliary activityDirect binding of alpha-actinin enhances TRPP3 channel activityTRP channel-associated factors are a novel protein family that regulates TRPM8 trafficking and activity.Recessive mutations of the gene TRPM1 abrogate ON bipolar cell function and cause complete congenital stationary night blindness in humansPolycystin-2 down-regulates cell proliferation via promoting PERK-dependent phosphorylation of eIF2alphaCool and menthol receptor TRPM8 in human urinary bladder disorders and clinical correlationsTRPM2 activation by cyclic ADP-ribose at body temperature is involved in insulin secretionAlterations in the ankyrin domain of TRPV4 cause congenital distal SMA, scapuloperoneal SMA and HMSN2CTRIP Database: a manually curated database of protein-protein interactions for mammalian TRP channelsUnusual pungency from extra-virgin olive oil is attributable to restricted spatial expression of the receptor of oleocanthalInternational Union of Basic and Clinical Pharmacology. LXXVI. Current progress in the mammalian TRP ion channel familyTRP-ing up heart and vessels: canonical transient receptor potential channels and cardiovascular diseaseTransient receptor potential (TRP) channels and cardiac fibrosisDisruption of TRPM6/TRPM7 complex formation by a mutation in the TRPM6 gene causes hypomagnesemia with secondary hypocalcemiaTRPM7 regulates cell adhesion by controlling the calcium-dependent protease calpainTRPM2-mediated Ca2+influx induces chemokine production in monocytes that aggravates inflammatory neutrophil infiltrationIon channel gene expression in the inner earTRPV1: on the road to pain reliefPhysiology and pharmacology of the vanilloid receptorEssential role for TRPC5 in amygdala function and fear-related behavior.Bestrophin-2 is a candidate calcium-activated chloride channel involved in olfactory transductionActivation and sensitisation of the vanilloid receptor: role in gastrointestinal inflammation and functionThe cells and logic for mammalian sour taste detectionSTIM1, an essential and conserved component of store-operated Ca2+ channel functionMechanosensitive ion channels and the peptide inhibitor GsMTx-4: history, properties, mechanisms and pharmacologyFunctional characterization of homo- and heteromeric channel kinases TRPM6 and TRPM7Junctate is a key element in calcium entry induced by activation of InsP3 receptors and/or calcium store depletionTRPV1: A Target for Rational Drug DesignTRPV1 and TRPM8 in Treatment of Chronic CoughThe Effect of Capsaicin on Salivary Gland DysfunctionCalcium, TRPC channels, and regulation of the actin cytoskeleton in podocytes: towards a future of targeted therapiesTRP Channels in Respiratory Pathophysiology: the Role of Oxidative, Chemical Irritant and Temperature StimuliDeciphering Subtype-Selective Modulations in TRPA1 Biosensor ChannelsPsychiatric Disorders and TRP Channels: Focus on Psychotropic DrugsTRPV1 Channel: A Potential Drug Target for Treating EpilepsyTRPV1 and Endocannabinoids: Emerging Molecular Signals that Modulate Mammalian VisionMain ion channels and receptors associated with visceral hypersensitivity in irritable bowel syndromeCa(V)1.1: The atypical prototypical voltage-gated Ca²⁺ channel
P2860
Q21132461-B8B87990-D395-4800-9AAD-3CAB0675E8A1Q24293752-B23BDDA2-8553-426A-BF7C-96E8142C32CBQ24297571-2CDB8735-7FEE-4700-B1F8-1B5C0FE7A0C6Q24298048-9C9C4CB5-49D2-41A1-A72A-24EE520D17DFQ24312097-775729E2-E573-4685-8BB7-28B403E4F862Q24313099-974A9A73-317C-4D81-942F-763DC3914E11Q24318555-CEC89256-3EAB-4ECE-A57F-D9F35E8F53D1Q24541603-2E87261B-0361-43A2-BE76-EF47E616F095Q24546048-9A71508B-BF1B-4D44-A012-59C47E648BC3Q24595706-E7743A92-AF39-4677-ABDC-36D94FFB6773Q24609764-10665B4B-4D32-4EE3-9C57-E6A4A279B549Q24621359-05837F1E-A527-4912-A157-CE2C01C95AD8Q24623493-39866D48-A502-44E1-B8BF-6A29108BFB67Q24624455-0214C470-351B-4B7E-B366-BC560AF2B990Q24625500-D5A7DC37-307F-44B0-AA8D-53593DEDE003Q24626251-7E10CBB2-5D04-4357-B5DD-7EABC846881FQ24633941-8BCA6E28-D5AE-43AB-9CA2-7E0E38BE792CQ24644998-139EDB1E-19C7-4C79-BDEB-093B1D124420Q24650344-665AFD2E-4B15-4C4A-88F1-B035C5E161CCQ24650367-92E4FA4E-B807-4815-8F17-9580CE4FBCD2Q24653664-405776B1-32BC-4BAF-BB58-FBB43FB1F006Q24657938-2DFBFA34-CE67-40E3-9D96-6AAD9D9F589CQ24669573-A9092A6D-680E-4828-922D-0A2AAC3224C9Q24671891-58F96AC3-1667-48C3-AFDF-B030DBAF84A2Q24675916-1F6CBF85-61C3-47C6-95AF-B0B351370190Q24678317-F2EAE59B-9DC2-40A3-8514-58C14BD197C5Q24683241-18CC5768-877E-44C4-A7EF-D8FF02272F04Q24684596-BEBAFD85-1EF0-4672-997F-9C6E7B4A5AD3Q24684783-47D89470-BD7C-408E-962E-4B555CDB8C00Q26738621-DD2AF871-2F09-40A6-85F8-36E73E785100Q26739979-5469C575-10CA-4FC6-99B5-D781AED442CEQ26747031-1F08FD59-0B1B-4622-B7EB-4BF2A516B2D7Q26778579-77C4258D-B290-4E2A-9F30-94E9F94058D1Q26786463-1DC44B30-48E8-4F68-B8ED-8D0B81FDEB29Q26786467-96C5D83F-ED45-465E-BA41-265668A59C54Q26786474-E32AEDB5-92B0-48E4-AA45-06C4B621B908Q26786478-98755F0F-327D-4F57-818F-5FEBB71297A8Q26823304-01E6AB2E-3B1D-45D6-AB89-DBE77447B93EQ26862565-495D9B5F-73AE-4B71-9811-001959ACE155Q26866428-9D727BAD-8719-43EC-8D56-8D4351AED244
P2860
description
2003 nî lūn-bûn
@nan
2003 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
TRP channels as cellular sensors
@ast
TRP channels as cellular sensors
@en
type
label
TRP channels as cellular sensors
@ast
TRP channels as cellular sensors
@en
prefLabel
TRP channels as cellular sensors
@ast
TRP channels as cellular sensors
@en
P3181
P356
P1433
P1476
TRP channels as cellular sensors
@en
P2093
Clapham DE
P2888
P304
P3181
P356
10.1038/NATURE02196
P407
P577
2003-12-04T00:00:00Z
P5875
P6179
1009114829