about
Cloning of a human purinergic P2Y receptor coupled to phospholipase C and adenylyl cyclaseTwo subtypes of G protein-coupled nucleotide receptors, P2Y(1) and P2Y(2) are involved in calcium signalling in glioma C6 cellsBiphasic effect of extracellular ATP on human and rat airways is due to multiple P2 purinoceptor activation.Differential regulation of the uridine nucleotide-activated P2Y4 and P2Y6 receptors. SER-333 and SER-334 in the carboxyl terminus are involved in agonist-dependent phosphorylation desensitization and internalization of the P2Y4 receptorSignal transduction and white cell maturation via extracellular ATP and the P2Y11 receptorAfferent arteriolar vasodilator effect of adenosine predominantly involves adenosine A2B receptor activationMethanocarba modification of uracil and adenine nucleotides: high potency of Northern ring conformation at P2Y1, P2Y2, P2Y4, and P2Y11 but not P2Y6 receptorsRibose modified nucleosides and nucleotides as ligands for purine receptorsCalcium signalling through nucleotide receptor P2X1 in rat portal vein myocytesStructurally related nucleotides as selective agonists and antagonists at P2Y1 receptorsRing-Constrained (N)-methanocarba nucleosides as adenosine receptor agonists: independent 5'-uronamide and 2'-deoxy modificationsThe C6-2B glioma cell P2Y(AC) receptor is pharmacologically and molecularly identical to the platelet P2Y(12) receptorP2Y2 receptor up-regulation induced by guanosine or UTP in rat brain cultured astrocytesFunctional expression of three P2X(2) receptor splice variants from guinea pig cochlea.Purine and pyrimidine nucleotide-sensitive phospholipase A(2) in ampulla from frog semicircular canal.Role of P2Y1 purinoceptor in ADP-induced platelet activation.Renal microvascular effects of P2 receptor stimulation.Molecular basis for ADP-induced platelet activation. II. The P2Y1 receptor mediates ADP-induced intracellular calcium mobilization and shape change in platelets.The effects of inflammation and inflammatory mediators on nociceptive behaviour induced by ATP analogues in the rat.PKCbetaI mediates the inhibition of P2Y receptor-induced inositol phosphate formation in endothelial cells.UTP-preferring P2 receptor mediates inhibition of sodium transport in porcine thyroid epithelial cells.A2B adenosine receptors mediate relaxation of the pig intravesical ureter: adenosine modulation of non adrenergic non cholinergic excitatory neurotransmission.ADP can induce aggregation of human platelets via both P2Y(1) and P(2T) receptors.P2Y(2) receptor-mediated proliferation of C(6) glioma cells via activation of Ras/Raf/MEK/MAPK pathway.2-Chloro N(6)-methyl-(N)-methanocarba-2'-deoxyadenosine-3',5'-bisphosphate is a selective high affinity P2Y(1) receptor antagonistPurines and pyrimidines are not involved in NANC relaxant responses in the rabbit vaginal wall.Shift in purine/pyrimidine base recognition upon exchanging extracellular domains in P2Y 1/6 chimeric receptors.Identification and function of adenosine A3 receptor in afferent arterioles.Crosstalk between Galpha(i)- and Galpha(q)-coupled receptors is mediated by Gbetagamma exchange.The Signaling Mechanism of Contraction Induced by ATP and UTP in Feline Esophageal Smooth Muscle Cells.Activity of Novel Adenine Nucleotide Derivatives as Agonists and Antagonists at Recombinant Rat P2X ReceptorsStructure-activity relationships of uridine 5'-diphosphate analogues at the human P2Y6 receptorStructure-activity relationship of uridine 5'-diphosphoglucose analogues as agonists of the human P2Y14 receptorCoactivation of two different G protein-coupled receptors is essential for ADP-induced platelet aggregation.Synthesis and Structure-Activity Relationships of Pyridoxal-6-arylazo-5'-phosphate and Phosphonate Derivatives as P2 Receptor AntagonistsAntiaggregatory activity in human platelets of potent antagonists of the P2Y 1 receptor.The adenosine generating enzymes CD39/CD73 control microglial processes ramification in the mouse brain.Modulation of P2X7 receptor functions by polymyxin B: crucial role of the hydrophobic tail of the antibiotic molecule.Purinergic signaling in scarring.Extracellular ATP inhibits the small-conductance K channel on the apical membrane of the cortical collecting duct from mouse kidney.
P2860
Q24314528-1CE9C0B1-E758-4BF8-8858-454F0BFE09EFQ24674148-0CEF25BB-BF62-40F7-BB1F-390D424E00D8Q25257098-EC89D7A3-1E47-4DBC-9F85-A081219BF5FCQ28140123-1B682B21-C5C9-4A16-8D26-9CB9E98D2918Q28144030-66072253-3DAC-411F-B92F-582620607CA1Q28282214-3139D863-5CCB-42D8-91E5-58BF6E5B7B15Q28344116-40712026-9936-4F7A-B028-9291CBE661CBQ28354391-6D0880C1-F03F-491A-930B-9BDEC248DFF1Q28361644-14925D40-2280-41C6-8D57-6A589BFB32B5Q28364756-8C5D35AE-B580-4B36-BF73-D8C324FF3612Q28366377-BC3A0D99-6B64-4328-89E9-2317C274840AQ28366572-137DED74-2A70-4794-BF75-83257C787C07Q28578189-1FE4E744-F36B-4F23-A8E8-B944CA852864Q30845437-01CC2838-1D2F-4F63-B89D-70E938B96D79Q32031733-5FFCBD42-A048-4AF1-BE5F-2CDDEC9ABA7BQ32099402-356BBF02-1196-4629-B69A-FA4D05347D7AQ34242547-52C255AC-D3CB-466B-ABF5-5001C9AE0798Q34453608-F5E5B41A-601A-4E9E-8084-A5DBFD63068BQ35028318-ABFA8D8D-D547-4470-9A06-F5C5A0E61DDEQ35029215-4891F897-07F3-42ED-99BF-3309EEB636AEQ35029233-BA28009C-0A11-4EB0-8CFB-B027D68F7DE7Q35041038-7E731E92-F7D3-4606-AAB9-EBEEBAF0460BQ35041833-64D34B42-1638-407A-B48B-65C482A845DDQ35042080-DEBA8871-2C7D-4084-A9AD-5A4A247052FBQ35044330-FB4A635B-3E7C-4678-8FD2-B9DC87BFE956Q35044655-57DDF9B0-BF40-463B-AB6B-8403226D7AA5Q35211567-6DD89835-E766-4C8A-8E2B-8588F90893FDQ35573278-C7487130-906C-47C7-803E-387014228805Q35627071-568997AF-03FA-41FC-B645-B589EC17C870Q35865040-9A2AE30E-E34F-4B99-8524-194FCDD28D2AQ36086811-579872E6-9C02-43EC-A316-5CD2E0AA12F5Q36116884-862F46F0-A645-4C0E-8D79-ADC87B9850F4Q36128572-6EBD717D-B59F-4256-A814-E69121624678Q36166958-C9FCCBB1-4D8F-42DF-9779-7E96BA06AD24Q36178575-B77E0479-1AE4-455F-B22C-5F4807C1BBA2Q36316891-DC9E6D9F-0D54-4A0C-8B19-15AD73918269Q36334069-FC0B39D7-47E9-45FF-9C45-BB3F69266F8DQ36357782-989B17DE-E516-4300-AAB7-8D7413190F42Q36385326-34E7D1F8-8716-451B-81B4-BB008EBECC99Q36436323-FA7750AC-7135-425D-908C-BBCD1E8ABB7F
P2860
description
1997 nî lūn-bûn
@nan
1997 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1997 թվականի մարտին հրատարակված գիտական հոդված
@hy
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
name
Towards a revised nomenclature for P1 and P2 receptors
@ast
Towards a revised nomenclature for P1 and P2 receptors
@en
Towards a revised nomenclature for P1 and P2 receptors
@nl
type
label
Towards a revised nomenclature for P1 and P2 receptors
@ast
Towards a revised nomenclature for P1 and P2 receptors
@en
Towards a revised nomenclature for P1 and P2 receptors
@nl
prefLabel
Towards a revised nomenclature for P1 and P2 receptors
@ast
Towards a revised nomenclature for P1 and P2 receptors
@en
Towards a revised nomenclature for P1 and P2 receptors
@nl
P2093
P2860
P1476
Towards a revised nomenclature for P1 and P2 receptors
@en
P2093
B B Fredholm
G Burnstock
G R Dubyak
K A Jacobson
M Williams
T K Harden
P2860
P356
10.1016/S0165-6147(96)01038-3
P577
1997-03-01T00:00:00Z