Loss of G protein gamma 7 alters behavior and reduces striatal alpha(olf) level and cAMP production
about
Study of gene function based on spatial co-expression in a high-resolution mouse brain atlasMice with deficiency of G protein gamma3 are lean and have seizuresNuclear GPCRs in cardiomyocytes: an insider's view of β-adrenergic receptor signalingThe role of inositol 1,4,5-trisphosphate 3-kinase A in regulating emotional behavior and amygdala function.Structural determinants involved in the formation and activation of G protein betagamma dimers.Transducin gamma-subunit sets expression levels of alpha- and beta-subunits and is crucial for rod viabilityDisruption of G-protein γ5 subtype causes embryonic lethality in miceThe Gβγ-Src signaling pathway regulates TNF-induced necroptosis via control of necrosome translocationStable G protein-effector complexes in striatal neurons: mechanism of assembly and role in neurotransmitter signaling.Binding of β4γ5 by adenosine A1 and A2A receptors determined by stable isotope labeling with amino acids in cell culture and mass spectrometry.Adenosine A2A receptor signaling and golf assembly show a specific requirement for the gamma7 subtype in the striatumDifferential sensitivity of phosphatidylinositol 3-kinase p110gamma to isoforms of G protein betagamma dimers.Zebrafish G protein gamma2 is required for VEGF signaling during angiogenesis.Prenylation-deficient G protein gamma subunits disrupt GPCR signaling in the zebrafishSynergistic roles for G-protein γ3 and γ7 subtypes in seizure susceptibility as revealed in double knock-out mice.The heterotrimeric G-protein subunits GNG-1 and GNB-1 form a Gbetagamma dimer required for normal female fertility, asexual development, and galpha protein levels in Neurospora crassa.Ablation of the GNB3 gene in mice does not affect body weight, metabolism or blood pressure, but causes bradycardia.Differential network analysis reveals genetic effects on catalepsy modules.Heterotrimeric G protein-mediated signaling and its non-canonical regulation in the heart.Spatial mapping of protein abundances in the mouse brain by voxelation integrated with high-throughput liquid chromatography-mass spectrometryGPCR mediated regulation of synaptic transmission.G-protein signaling: back to the futureG proteins in development.Gβγ-mediated activation of protein kinase D exhibits subunit specificity and requires Gβγ-responsive phospholipase Cβ isoforms.Heterotrimeric G protein subunit Gγ13 is critical to olfactionInvestigation of the G protein subunit Galphaolf gene (GNAL) in attention deficit/hyperactivity disorder.The role of Gbetagamma subunits in the organization, assembly, and function of GPCR signaling complexesG protein βγ subunits: central mediators of G protein-coupled receptor signaling.G protein betagamma subunits as targets for small molecule therapeutic development.G protein γ subunit 7 induces autophagy and inhibits cell division.Mice lacking the G protein gamma3-subunit show resistance to opioids and diet induced obesity.Differential localization of G protein βγ subunits.Multicolor BiFC analysis of G protein βγ complex formation and localization.Expression of the G protein gammaT1 subunit during zebrafish development.Visualization of G protein betagamma dimers using bimolecular fluorescence complementation demonstrates roles for both beta and gamma in subcellular targeting.The BEACH Protein LRBA Promotes the Localization of the Heterotrimeric G-protein Golf to Olfactory Cilia.Identification of a specific assembly of the g protein golf as a critical and regulated module of dopamine and adenosine-activated cAMP pathways in the striatum.Development of novel biosensors to study receptor-mediated activation of the G-protein α subunits Gs and Golf.Ulk4 regulates GABAergic signaling and anxiety-related behavior.Quantitative Multiple-Reaction Monitoring Proteomic Analysis of Gβ and Gγ Subunits in C57Bl6/J Brain Synaptosomes.
P2860
Q21202800-AA20614D-781D-42A8-9B3C-D9A95282EA5AQ24562837-33FA11FF-5733-4065-BA28-A3B430568328Q27026973-B590B470-D2D5-4A28-9977-C7A600916A2BQ27324836-F8D2391B-6730-420E-B1E6-85262A4A2BA8Q27865227-D818D489-9C8E-4163-A608-04AA5A083817Q28508147-A34612D8-3388-4C5D-AB1E-2B2E778F34A2Q28509591-FFEA58EF-8030-492F-9166-361C2EBC1F72Q28660413-EA9C7355-3AA3-4026-88CD-DF46F319F968Q30392788-6CBCCC29-904D-4C91-B5E8-85FB79B6572DQ30426426-C87686B2-75C3-44C7-8D0E-DE5F0283FE9AQ30430643-4EC9A3A8-9633-45F9-ADF3-BBBC8FF77CF3Q30434268-94D13E97-24C5-4331-A430-3E3B4EC13BFBQ30479648-E85981EE-8407-4DC7-B672-992FD434EC72Q30492154-0D3BFD10-B1C0-4C10-B9F3-7A7E897598D7Q30506222-BF43935F-0EEE-45F6-8067-A951A93F6666Q33859973-B8DE5420-A33C-458B-8BB7-A6DE24784715Q34160902-75BB38AD-6F75-4EDA-B709-672F81AADB17Q34650653-0551B92B-4567-427F-8DFF-BD5EDEAB1D02Q35558398-AF6392F7-9A5F-46C6-9E14-3603DF6D5571Q35642489-83EAE9C0-DC7D-418C-BC2C-A5A3A0550E8CQ35870239-1925DCF1-2B15-499A-843C-162F0A484FC0Q36061579-99B54682-4150-4D77-8F5F-18BD1526297CQ36289101-08C2CCE6-F05B-426E-A07B-10CEF7CACF70Q36798446-CE68BC91-DE92-456D-979C-3A3F827A1B92Q36918120-9A8F9EBD-A724-4085-9411-342215734E12Q37059735-37BB1A4C-04AF-4AA4-BC01-A9170928672CQ37137655-9C2863F4-4323-40E8-8F02-26C88955CE84Q37167274-F97B3F09-4F23-4C9A-AE84-1D0DA6F4F233Q37184794-728EA30B-A599-4BB1-87EF-49092AEE7B99Q37269468-33E5454E-B155-46F3-962D-F218ACE650E8Q37422108-21834BDD-2746-4F16-806A-89165D0D2773Q37731597-761C780A-D936-4757-9F55-C15D9353BE3CQ38278494-A60FDFB9-9A74-4FCB-9EE1-B38FD3861DCAQ38304596-7982414E-4DE0-4323-8A44-312FBBB87E35Q40557360-EB2EE5F3-5174-427B-A0BE-2005F6149B9BQ41436953-151F599E-F996-469A-9E4C-6087D5E90E87Q42867430-9560BF87-0371-46A4-8969-015279ABE33AQ47637346-B38F6F13-353B-491B-8B13-92DF7B27F595Q47639217-09924323-70AF-41D8-BFDD-8AF9DE40A07CQ47843802-D34CB14E-EB4C-4BD1-9EBA-F38B1815EAE7
P2860
Loss of G protein gamma 7 alters behavior and reduces striatal alpha(olf) level and cAMP production
description
2003 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
article publié dans la revue scientifique Journal of Biological Chemistry
@fr
artículu científicu espublizáu en 2003
@ast
im Februar 2003 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
vedecký článok (publikovaný 2003/02/21)
@sk
vědecký článek publikovaný v roce 2003
@cs
wetenschappelijk artikel (gepubliceerd op 2003/02/21)
@nl
наукова стаття, опублікована в лютому 2003
@uk
name
Loss of G protein gamma 7 alte ...... olf) level and cAMP production
@ast
Loss of G protein gamma 7 alte ...... olf) level and cAMP production
@en
Loss of G protein gamma 7 alte ...... olf) level and cAMP production
@nl
type
label
Loss of G protein gamma 7 alte ...... olf) level and cAMP production
@ast
Loss of G protein gamma 7 alte ...... olf) level and cAMP production
@en
Loss of G protein gamma 7 alte ...... olf) level and cAMP production
@nl
prefLabel
Loss of G protein gamma 7 alte ...... olf) level and cAMP production
@ast
Loss of G protein gamma 7 alte ...... olf) level and cAMP production
@en
Loss of G protein gamma 7 alte ...... olf) level and cAMP production
@nl
P2093
P2860
P921
P3181
P356
P1476
Loss of G protein gamma 7 alte ...... olf) level and cAMP production
@en
P2093
Angela Sabol
Janet D Robishaw
Kathryn E Giger
Kelly S Betz
William F Schwindinger
P2860
P304
P3181
P356
10.1074/JBC.M211132200
P407
P577
2002-12-17T00:00:00Z