about
Activation state-dependent interaction between Galphai and p67phoxCortical dynein is critical for proper spindle positioning in human cellsGalphai generates multiple Pins activation states to link cortical polarity and spindle orientation in Drosophila neuroblastsThe GAPs, GEFs, and GDIs of heterotrimeric G-protein alpha subunitsFunction and Regulation of Heterotrimeric G Proteins during ChemotaxisActivators of G protein signaling exhibit broad functionality and define a distinct core signaling triadNon-traditional roles of G protein-coupled receptors in basic cell biologyRGS14 at the interface of hippocampal signaling and synaptic plasticityHuman Nek7-interactor RGS2 is required for mitotic spindle organization.Structural Determinants of Affinity Enhancement between GoLoco Motifs and G-Protein Subunit MutantsA P-loop Mutation in Gα Subunits Prevents Transition to the Active State: Implications for G-protein Signaling in Fungal PathogenesisCoactivation of G protein signaling by cell-surface receptors and an intracellular exchange factorCrystal structures of the scaffolding protein LGN reveal the general mechanism by which GoLoco binding motifs inhibit the release of GDP from GαiAsymmetric cell division of stem and progenitor cells during homeostasis and cancerRGS14 is a centrosomal and nuclear cytoplasmic shuttling protein that traffics to promyelocytic leukemia nuclear bodies following heat shockActivation of the regulator of G protein signaling 14-Gαi1-GDP signaling complex is regulated by resistance to inhibitors of cholinesterase-8AThe PDZ and band 4.1 containing protein Frmpd1 regulates the subcellular location of activator of G-protein signaling 3 and its interaction with G-proteinsThe RGS14 GoLoco domain discriminates among Galphai isoformsG protein beta gamma subunit interaction with the dynein light-chain component Tctex-1 regulates neurite outgrowthRetinal ON bipolar cells express a new PCP2 splice variant that accelerates the light responsePar3 controls epithelial spindle orientation by aPKC-mediated phosphorylation of apical PinsLGN regulates mitotic spindle orientation during epithelial morphogenesis.A point mutation to Galphai selectively blocks GoLoco motif binding: direct evidence for Galpha.GoLoco complexes in mitotic spindle dynamicsThe kinesin-1 motor protein is regulated by a direct interaction of its head and tailStructural determinants underlying the temperature-sensitive nature of a Galpha mutant in asymmetric cell division of Caenorhabditis elegans.Evidence for dynein and astral microtubule-mediated cortical release and transport of Gαi/LGN/NuMA complex in mitotic cellsDlg1 controls planar spindle orientation in the neuroepithelium through direct interaction with LGN.A high throughput fluorescence polarization assay for inhibitors of the GoLoco motif/G-alpha interaction.An inhibitory role of the G-protein regulator AGS3 in mTOR-dependent macroautophagy.Identification of a deubiquitinating enzyme as a novel AGS3-interacting proteinTurning G proteins on and off using peptide ligands.Resistance to inhibitors of cholinesterase 8A catalyzes release of Galphai-GTP and nuclear mitotic apparatus protein (NuMA) from NuMA/LGN/Galphai-GDP complexes.Nucleobindin 1 is a calcium-regulated guanine nucleotide dissociation inhibitor of G{alpha}i1.Regulators of G-protein signaling and their Gα substrates: promises and challenges in their use as drug discovery targets.Regulation of the AGS3·G{alpha}i signaling complex by a seven-transmembrane span receptor.G protein activation without a GEF in the plant kingdom.Ric-8A potentiates Gq-mediated signal transduction by acting downstream of G protein-coupled receptor in intact cells.Dual roles for the trimeric G protein Go in asymmetric cell division in Drosophila.Sleep-deprivation regulates α-2 adrenergic responses of rat hypocretin/orexin neurons.Identification of the ligands of protein interaction domains through a functional approach.
P2860
Q24294214-CFF0C582-BFF7-479F-B63C-0D1ED23D7EB2Q24300064-3CF53A2A-3A44-428D-9A0A-17520AAE75FCQ24670347-398CF2DD-EA5A-49EC-950A-7B21CD375DD5Q24810130-102902FF-9752-4F7C-982E-75EC8B788AA3Q26771178-B346A375-A707-46B9-AC82-7D369E4CA1E4Q26999408-5A61D9AC-C1A0-4A7B-81F2-0507338BB545Q27006799-927C9E47-EE17-4B1A-9082-9C821888662AQ27021103-527CDEBE-A528-47D3-BC31-A0D7BD0B3AF0Q27302069-538E07A7-49ED-444D-95A7-070C5F6E4299Q27666097-79C2FC88-212B-4EAC-877A-8525DC56E4C5Q27677615-0A931DF8-F2E7-45BF-AB3C-6DB171C50115Q27934014-A5EA57CB-0C32-4443-9191-316E70897620Q28115003-41949675-46F8-4F9F-9F42-0B94038338A2Q28292920-37D0A0AE-3B07-434C-A562-BC2FE1634FF3Q28509216-C2A56C06-8C44-4D3A-B2EB-AC100B654E08Q28575611-5D314FA4-6D50-4529-8839-B62A61D22BEBQ28577307-3BA53BD0-2446-44B4-AD02-A0AE5D6EC588Q28584345-B1566606-AFE8-4D42-AFBB-4D1D301B7FEDQ28585892-9E62B721-6BD9-465A-B81A-D50AE5C1C80AQ28593620-8C205C68-8741-48CC-8A26-0D539AD1764BQ30430174-6AFD30B2-7901-426B-A407-A66D8C159450Q30434467-D3301D0E-B12F-4EAC-9E4E-79042BBEF9F3Q30437593-FAEC8A7E-038D-45C9-9103-D534049961C0Q30482648-0D17277F-6C95-4907-A030-A30CA0B89EFDQ30482884-6DF27064-5520-43AC-A51F-116806F6330FQ30538070-515D5A1F-C904-4AF1-9BC4-389C12E3EE0CQ30587026-6B090DC8-0229-4FBE-8133-BDCA2592A57DQ33341121-0D58C79A-511F-47DE-96C7-699243CB30F9Q33528947-A789F0C0-F038-48B5-B5B9-40F3EAD84A4DQ33543785-7D2D96DF-D074-4295-9E95-524A306FCD0BQ33574847-81CF572D-EC94-45A5-8BE7-42F79316BC60Q34133413-03BA5C51-F732-4476-8F83-36960BE02877Q34181517-9EB632DA-1888-443B-B817-483576D677B3Q34198530-39FA07C0-214E-4CFA-B269-409B09F96F7CQ34232074-D9EEF3A1-F9E9-45F8-85F1-018E9D9471C5Q34325541-030F4B28-6396-49D6-B08F-056337E49C6AQ34516124-3385D776-B1FF-41CA-8CFE-C1A394C9048EQ34538638-DB8200D7-4AB5-4865-849C-188305131E66Q34560628-E68AFD7A-8C53-4602-ACFA-160B6F381E0CQ34584256-4846FFEC-11CE-4172-9F2B-3536830DA64B
P2860
description
2004 nî lūn-bûn
@nan
2004 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Return of the GDI: the GoLoco motif in cell division.
@ast
Return of the GDI: the GoLoco motif in cell division.
@en
Return of the GDI: the GoLoco motif in cell division.
@nl
type
label
Return of the GDI: the GoLoco motif in cell division.
@ast
Return of the GDI: the GoLoco motif in cell division.
@en
Return of the GDI: the GoLoco motif in cell division.
@nl
prefLabel
Return of the GDI: the GoLoco motif in cell division.
@ast
Return of the GDI: the GoLoco motif in cell division.
@en
Return of the GDI: the GoLoco motif in cell division.
@nl
P1476
Return of the GDI: the GoLoco motif in cell division
@en
P2093
Francis S Willard
P304
P356
10.1146/ANNUREV.BIOCHEM.73.011303.073756
P577
2004-01-01T00:00:00Z