Alternative splicing produces transcripts encoding two forms of the alpha subunit of GTP-binding protein Go.
about
Cloning and stable expression of a new member of the human liver phenol/bilirubin: UDP-glucuronosyltransferase cDNA familyDifferential coupling of m2 and m4 muscarinic receptors to inhibition of adenylyl cyclase by Gi alpha and G(o)alpha subunitsMaintenance of cellular levels of G-proteins: different efficiencies of alpha s and alpha o synthesis in GH3 cellsStructure of the human gene and two rat cDNAs encoding the alpha chain of GTP-binding regulatory protein Go: two different mRNAs are generated by alternative splicingG alpha 12 and G alpha 13 subunits define a fourth class of G protein alpha subunitsDifferent forms of Go alpha mRNA arise by alternative splicing of transcripts from a single gene on human chromosome 16Expansion of signal transduction by G proteins. The second 15 years or so: from 3 to 16 alpha subunits plus betagamma dimersCongruence of tissue expression profiles from Gene Expression Atlas, SAGEmap and TissueInfo databasesActivators of G protein signaling in the kidneyGNAO1 encephalopathy: further delineation of a severe neurodevelopmental syndrome affecting females.Characterization of G-protein alpha subunits in the Gq class: expression in murine tissues and in stromal and hematopoietic cell linesRegulation of extracellular-signal regulated kinase and c-Jun N-terminal kinase by G-protein-linked muscarinic acetylcholine receptorsG protein diversity: a distinct class of alpha subunits is present in vertebrates and invertebratesAssociation of GAP-43 with detergent-resistant membranes requires two palmitoylated cysteine residuesA novel form of the G protein β Subunit Gβ5 is specifically expressed in the vertebrate retinaMultiple neurological abnormalities in mice deficient in the G protein GoMost central nervous system D2 dopamine receptors are coupled to their effectors by GoG alpha 16, a G protein alpha subunit specifically expressed in hematopoietic cellsDiversity of G proteins in signal transductionDynamic expression patterns of G protein-regulated inducer of neurite outgrowth 1 (GRIN1) and its colocalization with Galphao implicate significant roles of Galphao-GRIN1 signaling in nervous system.Posttranslational modification of Galphao1 generates Galphao3, an abundant G protein in brainCharacterization of the major bovine brain Go alpha isoforms. Mapping the structural differences between the alpha subunit isoforms identifies a variable region of the protein involved in receptor interactions.Gαo represses insulin secretion by reducing vesicular docking in pancreatic beta-cells.Molecular mechanisms of go signalingCoordinated control of sensitivity by two splice variants of Gα(o) in retinal ON bipolar cellsDifferentiation of human T cells alters their repertoire of G protein alpha-subunits.Augmented glucose-induced insulin release in mice lacking G(o2), but not G(o1) or G(i) proteinsRegulation of neurite outgrowth by G(i/o) signaling pathways.Alternative splicing of the guanine nucleotide-binding regulatory protein Go alpha generates four distinct mRNAsAberrant splicing of Gs alpha transcript in transformed human astroglial and glioblastoma cell linesRole of the Go/i signaling network in the regulation of neurite outgrowth.Isolation and expression of a novel chick G-protein cDNA coding for a G alpha i3 protein with a G alpha 0 N-terminus.Occurrence of the alpha subunits of G proteins in cerebral cortex synaptic membrane and postsynaptic density fractions: modulation of ADP-ribosylation by Ca2+/calmodulin.Homologous and unique G protein alpha subunits in the nematode Caenorhabditis elegansG proteins: critical control points for transmembrane signalsPertussis toxin-sensitive GTP-binding proteins characterized in synaptosomal fractions of embryonic avian cerebral cortex.Purification of a novel G-protein alpha 0-subtype from mammalian brain.Signalling functions and biochemical properties of pertussis toxin-resistant G-proteins.Secretion of protease nexin-1 by C6 glioma cells is under the control of a heterotrimeric G protein, Go1.G proteins in Ustilago maydis: transmission of multiple signals?
P2860
Q24310174-CAB56723-B614-42BE-B6A3-6BA25C1927D1Q24318628-69F47630-1A4D-4C37-899F-AE7C894A0339Q24529943-C3BF0741-FBFB-43E4-AF08-95828B0FD34AQ24563692-CBA2653B-67CE-4A65-BD7A-5F870A6836ACQ24564432-7BB8B974-1B54-4D82-B9E6-999A2E291CF1Q24604743-A299428E-8D58-4C0E-804C-54AF41E05CA4Q24681398-A99632C8-4F82-49FF-91F5-B938781930EFQ24794759-5202E460-87D8-44FA-82B4-F42531F6FF5FQ26824228-6D0297FC-DFA1-4EC2-A1CE-ABC37728FE26Q27301357-09DA4C53-1FE3-4E6A-B6C5-9C77D3E4706CQ28114776-3FD5CD0B-6549-4525-9C8E-C522BD15AD01Q28115804-27219573-527E-4C73-8A2D-AC5D1106B742Q28118683-F766B41A-3735-4025-B8F7-82ED29DC50DCQ28285568-05BE3726-49F5-438F-8834-149E1A662A93Q28296250-6B5B6BF3-75DC-40AC-BE19-DEFB8343811BQ28585725-30B68CC1-354B-4F74-A0D5-877FC89A2195Q28592237-12E61C0A-F9A8-4232-B1CE-81410502AD58Q28611547-364A474C-862D-4818-9F4B-C0DE4B0BB61EQ29618841-9FAFAB4C-B1DA-4DC3-AE78-A905801644A3Q30487117-5CD6D1F4-529B-440B-BC64-5698C677D3C1Q31904274-AE7DC717-593C-43C9-97A8-A18430FA40F4Q31962358-77073A63-C6B2-4A3B-B722-F9E3DF4A2E8AQ33630239-0B444373-BF3F-42A7-AC2E-C123489DFB08Q33721127-D5A8CF66-D3CB-4ACB-9341-79A61C61BB09Q34161467-85C1BEBE-C84B-43A0-9AB1-977AFAFE1043Q34285121-811D7B6C-2607-471B-AC9F-7EE100FADB93Q34534102-CB8B8928-A395-440E-97E4-C71B01B9D9E4Q34746354-FA8BE07D-C243-4C5C-A149-6D079D422E95Q34809460-01988506-6B73-4CCF-BF06-C172AF4B83E9Q35925563-28D0D9F4-6CAE-4A6B-BB2D-05AB39427045Q36602612-2E16596C-39C1-4198-92F0-A63CD980A542Q36761587-BF8E5AAB-DED1-4AE0-9386-33E3FC2FE3ABQ37205783-A3337C3E-77C0-42F0-AE99-4DA2D7570BD4Q40642162-103A3701-E0D5-4A39-8A65-6AF1DE23545BQ40732781-12453DB8-C921-456E-A7E9-540F51F984A4Q42106599-7AA99F2B-5012-48AB-92B0-42CAA04198D1Q42110290-F8AB5BBA-2F97-487C-9E4F-4A7B341DCA05Q42151281-0B4B25F9-5B80-4283-B4CC-7B1979784F56Q42527543-4235F54F-DCD9-48E8-8047-0A1DCFDD7D96Q42615078-FD3F351F-FCB2-4F78-BC28-0CD7A1C2A45E
P2860
Alternative splicing produces transcripts encoding two forms of the alpha subunit of GTP-binding protein Go.
description
1990 nî lūn-bûn
@nan
1990 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
1990 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
1990年の論文
@ja
1990年論文
@yue
1990年論文
@zh-hant
1990年論文
@zh-hk
1990年論文
@zh-mo
1990年論文
@zh-tw
1990年论文
@wuu
name
Alternative splicing produces ...... nit of GTP-binding protein Go.
@ast
Alternative splicing produces ...... nit of GTP-binding protein Go.
@en
type
label
Alternative splicing produces ...... nit of GTP-binding protein Go.
@ast
Alternative splicing produces ...... nit of GTP-binding protein Go.
@en
prefLabel
Alternative splicing produces ...... nit of GTP-binding protein Go.
@ast
Alternative splicing produces ...... nit of GTP-binding protein Go.
@en
P2093
P2860
P356
P1476
Alternative splicing produces ...... nit of GTP-binding protein Go.
@en
P2093
M Strathmann
T M Wilkie
P2860
P304
P356
10.1073/PNAS.87.17.6477
P407
P577
1990-09-01T00:00:00Z