Different beta-subunits determine G-protein interaction with transmembrane receptors.
about
Differential coupling of m2 and m4 muscarinic receptors to inhibition of adenylyl cyclase by Gi alpha and G(o)alpha subunitsPituitary somatostatin receptor signalingDirect interaction of gbetagamma with a C-terminal gbetagamma-binding domain of the Ca2+ channel alpha1 subunit is responsible for channel inhibition by G protein-coupled receptorsExpansion of signal transduction by G proteins. The second 15 years or so: from 3 to 16 alpha subunits plus betagamma dimersNuclear GPCRs in cardiomyocytes: an insider's view of β-adrenergic receptor signalingGialpha and Gbeta subunits both define selectivity of G protein activation by alpha2-adrenergic receptorsStructural determinants involved in the formation and activation of G protein betagamma dimers.Gene polymorphisms associated with functional dyspepsiaGbeta gamma isoforms selectively rescue plasma membrane localization and palmitoylation of mutant Galphas and GalphaqPharmacogenetics of lithium prophylaxis in mood disorders: analysis of COMT, MAO-A, and Gbeta3 variantsA novel form of the G protein β Subunit Gβ5 is specifically expressed in the vertebrate retinaG protein heterotrimer Galpha13beta1gamma3 couples the angiotensin AT1A receptor to increases in cytoplasmic Ca2+ in rat portal vein myocytesThe C terminus of the metabotropic glutamate receptor subtypes 2 and 7 specifies the receptor signaling pathwaysEffect of G protein heterotrimer composition on coupling of neurotransmitter receptors to N-type Ca(2+) channel modulation in sympathetic neuronsAdenylyl cyclase inhibition and altered G protein subunit expression and ADP-ribosylation patterns in tissues and cells from Gi2 alpha-/-miceSelective Association of G Protein 4 with 5 and 12 Subunits in Bovine TissuesThe G protein beta subunit is a determinant in the coupling of Gs to the beta 1-adrenergic and A2a adenosine receptors.Differential sensitivity of phosphatidylinositol 3-kinase p110gamma to isoforms of G protein betagamma dimers.Role of the prenyl group on the G protein gamma subunit in coupling trimeric G proteins to A1 adenosine receptors.Constitutive signaling of the human cytomegalovirus-encoded chemokine receptor US28.No association of G-protein beta polypeptide 3 polymorphism with irritable bowel syndrome: evidence from a meta-analysis.Identification of a receptor/G-protein contact site critical for signaling specificity and G-protein activation.Molecular mechanisms of go signalingAssociation of genetic variants in GNβ3 with functional dyspepsia: a meta-analysisLTB4 is a signal-relay molecule during neutrophil chemotaxisA segment of the C-terminal half of the G-protein beta 1 subunit specifies its interaction with the gamma 1 subunit.Molecular basis of opioid dependence: role of signal regulation by G-proteins.Receptor screening and the search for new pharmaceuticals.Isolation of cDNAs encoding guanine nucleotide-binding protein beta-subunit homologues from maize (ZGB1) and Arabidopsis (AGB1).Receptor and G betagamma isoform-specific interactions with G protein-coupled receptor kinasesRegulation of receptor-coupling to (multiple) G proteins. A challenge for basic research and drug discovery.Localization of a heterotrimeric G protein gamma subunit to focal adhesions and associated stress fibers.Activation of phospholipase C beta 2 by the alpha and beta gamma subunits of trimeric GTP-binding protein.Heterotrimeric G-proteins: a short history.Gi2 and protein kinase C are required for thyrotropin-releasing hormone-induced stimulation of voltage-dependent Ca2+ channels in rat pituitary GH3 cells.The N-terminal coiled-coil domain of beta is essential for gamma association: a model for G-protein beta gamma subunit interaction.Multiple GTP-binding proteins regulate vesicular transport from the ER to Golgi membranes.The G protein beta subunit is essential for multiple responses to chemoattractants in Dictyostelium.Specific enhancement of beta-adrenergic receptor kinase activity by defined G-protein beta and gamma subunitsInfluence of G-protein β-Polypeptide 3 C825T Polymorphism on Antihypertensive Response to Telmisartan and Amlodipine in Chinese Patients.
P2860
Q24318628-BFCEFD14-D615-4206-AF9E-DD5745795FB6Q24631604-81734F31-D8E5-4E4F-8F2B-B6A413237F35Q24647488-01AEDFE5-E991-496D-BC93-C491A0C11A89Q24681398-D5979C8D-A0E0-4F30-AE44-796F619AC3C3Q27026973-ED524D6A-95A1-48CE-B6B3-938BAE2030FEQ27863907-FF0F55BE-8AFF-4275-A25A-508C117CF7D4Q27865227-B951657F-04C7-4C32-A4D1-5C4C08C8AF81Q28082606-0FD2D1A3-A56F-4868-97D2-260043E0B560Q28211410-A5110480-9327-455C-AFF9-955A7DD9D857Q28216643-2B051373-EF2F-42AB-A77D-557E92329DABQ28296250-1E68EB11-A7D9-4E01-98E9-78AC9896563EQ28307111-DF2444A5-58FB-4013-9E36-F59B13EC7A70Q28510674-1495BE7C-D60A-4EEC-B8C8-37BA46285CE1Q28571226-ADE5C3E7-DCF3-47EA-ADFA-606A90AD4742Q28584699-051EA541-B163-43AC-A2F3-D65308803EADQ29014030-47D15497-0146-4F32-B669-4603C6BF25C6Q30307133-38CACD4C-AA33-4AD2-B80D-0541EDE7C59BQ30434268-EC8724FF-5581-44C9-B268-74BDAAF75CFBQ30468689-E2595938-F00E-4F9F-93A4-139AD0873D9EQ31494239-EC4CAC69-9097-4061-B37D-62CD0E5D2DAFQ33661267-FE30E95F-6C46-4E56-9760-829FF65F748FQ33712051-F8F307E4-0F91-4161-8362-C3E0D50354D9Q33721127-71B391D2-EF66-4BA1-83EF-89E8F261D381Q33992282-81C1BD81-7429-4859-8013-08859D195244Q34077159-D165922C-893B-4600-B2ED-FFD5463FECEBQ34559239-43F16470-18A5-4643-A15E-2DBE3E051967Q35177403-6EC7368D-CD33-4D93-9F81-A8D5CD5C02D0Q35303368-24952C59-1AB9-48A3-8D02-C90DAC8CB665Q35796014-2D70ECB4-22C4-4B4C-A91D-D5AAE48D0DB9Q36033563-729C1040-AA00-42D8-8393-4DFBA8F78009Q36179506-5B681690-DCD5-4F23-BBF4-428B892D38E4Q36234532-DDE14D29-5333-4843-8DDD-3647B4EEFB7CQ36348393-B1BC3E3D-F4B5-4D4D-AE57-93948EDB4E87Q36364445-EAFD1501-BB06-406F-B744-2F740697C956Q36403519-7DB8BBFC-939A-41BF-B54E-C504ED9F1535Q36485700-78053528-8DC0-4B3F-9C6C-CA6FBD61DAB3Q36532303-7370BC67-0783-43F3-9FF9-1B4F7F6F5256Q36535746-422E20E2-28F8-4F90-BC50-2E83C13A4AC0Q36654233-CD7E2B0F-EBF6-4872-A7BF-270E6EED084CQ36701731-9516ED9C-169C-469C-86FD-6D3BC06CF208
P2860
Different beta-subunits determine G-protein interaction with transmembrane receptors.
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年学术文章
@wuu
1992年学术文章
@zh-cn
1992年学术文章
@zh-hans
1992年学术文章
@zh-my
1992年学术文章
@zh-sg
1992年學術文章
@yue
1992年學術文章
@zh
1992年學術文章
@zh-hant
name
Different beta-subunits determine G-protein interaction with transmembrane receptors.
@en
type
label
Different beta-subunits determine G-protein interaction with transmembrane receptors.
@en
prefLabel
Different beta-subunits determine G-protein interaction with transmembrane receptors.
@en
P2093
P356
P1433
P1476
Different beta-subunits determine G-protein interaction with transmembrane receptors.
@en
P2093
P2888
P304
P356
10.1038/358424A0
P407
P577
1992-07-01T00:00:00Z
P5875
P6179
1019158108