Staufen recruitment into stress granules does not affect early mRNA transport in oligodendrocytes
about
In vivo colocalisation of oskar mRNA and trans-acting proteins revealed by quantitative imaging of the Drosophila oocyteZBP1 regulates mRNA stability during cellular stressDynein and kinesin regulate stress-granule and P-body dynamicsMammalian Smaug is a translational repressor that forms cytoplasmic foci similar to stress granulesIdentification of the junctional plaque protein plakophilin 3 in cytoplasmic particles containing RNA-binding proteins and the recruitment of plakophilins 1 and 3 to stress granulesDynamics of axonal mRNA transport and implications for peripheral nerve regenerationA genome-wide approach identifies distinct but overlapping subsets of cellular mRNAs associated with Staufen1- and Staufen2-containing ribonucleoprotein complexesHuman sat III and Drosophila hsr omega transcripts: a common paradigm for regulation of nuclear RNA processing in stressed cellsStress granules and processing bodies are dynamically linked sites of mRNP remodelingDistinct structural features of caprin-1 mediate its interaction with G3BP-1 and its induction of phosphorylation of eukaryotic translation initiation factor 2alpha, entry to cytoplasmic stress granules, and selective interaction with a subset of mRRNA granulesInteraction of Staufen1 with the 5' end of mRNA facilitates translation of these RNAsTime-Dependent Decay of mRNA and Ribosomal RNA during Platelet Aging and Its Correlation with Translation ActivityCharacterizing mRNA interactions with RNA granules during translation initiation inhibitionA monoclonal antibody against p53 cross-reacts with processing bodiesThe zinc-finger protein ZFR is critical for Staufen 2 isoform specific nucleocytoplasmic shuttling in neuronsThe brain-specific double-stranded RNA-binding protein Staufen2 is required for dendritic spine morphogenesisMapping the LINE1 ORF1 protein interactome reveals associated inhibitors of human retrotranspositionMicrovesicles derived from adult human bone marrow and tissue specific mesenchymal stem cells shuttle selected pattern of miRNAsPlakophilin-associated RNA-binding proteins in prostate cancer and their implications in tumor progression and metastasis.Large G3BP-induced granules trigger eIF2α phosphorylation.Live cell visualization of the interactions between HIV-1 Gag and the cellular RNA-binding protein Staufen1Reversible response of protein localization and microtubule organization to nutrient stress during Drosophila early oogenesisCytoplasmic Ribonucleoprotein Foci in Eukaryotes: Hotspots of Bio(chemical)Diversity.Ribosomal trafficking is reduced in Schwann cells following induction of myelination.The QKI-6 RNA binding protein localizes with the MBP mRNAs in stress granules of glial cellsIdentification of proteins binding coding and non-coding human RNAs using protein microarraysBUHO: a MATLAB script for the study of stress granules and processing bodies by high-throughput image analysis.Evidence that poly(A) binding protein C1 binds nuclear pre-mRNA poly(A) tails.Intracellular localization of human Ins(1,3,4,5,6)P5 2-kinaseDynein motor contributes to stress granule dynamics in primary neurons.Human protein Staufen-2 promotes HIV-1 proliferation by positively regulating RNA export activity of viral protein Rev.Smaug1 mRNA-silencing foci respond to NMDA and modulate synapse formation.Altered mRNP granule dynamics in FTLD pathogenesis.Characterization of staufen1 ribonucleoproteins by mass spectrometry and biochemical analyses reveal the presence of diverse host proteins associated with human immunodeficiency virus type 1.Staufen2 functions in Staufen1-mediated mRNA decay by binding to itself and its paralog and promoting UPF1 helicase but not ATPase activity.Staufen1 regulation of protein synthesis-dependent long-term potentiation and synaptic function in hippocampal pyramidal cells.Stress granule formation induced by measles virus is protein kinase PKR dependent and impaired by RNA adenosine deaminase ADAR1Staufen1 impairs stress granule formation in skeletal muscle cells from myotonic dystrophy type 1 patients.Staufen1 promotes HCV replication by inhibiting protein kinase R and transporting viral RNA to the site of translation and replication in the cells.
P2860
Q21558506-391B6CF1-0DE4-484A-9A58-6C8633595CDBQ24314843-5257E70E-EEBA-4EEE-A55D-CE19B575CFEFQ24329224-3F476C4A-E0A3-4B71-B3D3-7DCC9F2BD65CQ24338191-5EFCAC04-E946-4D8C-9561-58892E73E145Q24541320-415D0C39-7743-440E-8E48-BE5CAFDB0C2EQ24604173-FCF5D4F0-266A-48C0-B329-848EF31CAAC4Q24647266-B5CF397C-A997-4C9F-A807-66512AC1C4EFQ24672773-5C188605-8889-4ABC-AD25-05A0D0DD486CQ24678779-3A84C8BB-A15A-47CF-8AB2-0D906BE4DD93Q24681390-9AE2A606-5D61-4AB5-837B-42294C4443F4Q24683783-DC1F1555-88B6-4684-B825-C830A18F8A30Q24816776-988C55C5-4CB2-48E5-824F-7342AC4DA29DQ27324375-9A426456-AB2B-48D0-9EE7-13115BD80D2AQ27342467-208709F0-C6E7-4A88-936C-E678AFAB07C8Q28483628-4D7F35F5-05A4-4597-9814-ABB8541751E2Q28577459-DDAEB3AA-B5CD-4F8D-9C2E-387795393C0EQ28583692-3AFC0382-51E9-456F-82B1-BB11004ECF2DQ28681448-E78F0A09-F607-4009-8E0C-C46D8B7857F9Q28750201-7B442C43-57B4-4570-B86F-8FA7657EC12DQ30009601-DEEC577C-0432-486A-B394-C72E59229F25Q30010041-0CC2139E-2D89-4759-A890-33AF32BE7C9DQ30435825-A109580B-2455-43A7-B1EB-B8FAD701C1CDQ30501354-730159FB-7037-4604-9AE2-719A102B335BQ30514845-83EBE7B2-0022-4860-A50B-7293C4DD5F7EQ30661693-C68CD876-D66D-4377-903F-9BD87D669A8BQ33700385-1725766A-398E-4C03-AE54-1CBCD82E42E0Q34479663-72F2A316-C916-4D26-A363-F59729432791Q34531920-4B6B4AF2-CCB7-4171-9FAA-09B49BDA2730Q34563266-2BE8F3EF-FD61-41A9-BAB8-D7AC2340DBC3Q34664363-1980F9B5-BC4A-4324-B829-CFAB5CFA9954Q34930411-C3AB4D0A-9F4C-408E-B661-7F6466EE81A7Q35092983-A72F6E85-D779-4543-9192-81434C080E1FQ35636583-FA76A79C-5870-4D8D-8346-B4985C6754CDQ35944221-35FE39A9-1D5F-44C0-A557-5C83C43D0CFBQ36364322-8CE5563F-44A7-4670-935D-00D7448853EEQ36535428-60CE9E64-B114-49DE-81F5-74AA5E77E3D9Q36540247-AD8AA6DF-8336-4475-AD47-3849E081F6E5Q36559490-134D3C18-F2B2-4AD4-B7CB-FC4DA00A78ABQ36944554-C51D2DB1-A724-41ED-92F7-7A0A6CC2F5D5Q37021569-CA11DA07-CC3E-4420-9D78-DF61BA5D58CA
P2860
Staufen recruitment into stress granules does not affect early mRNA transport in oligodendrocytes
description
2005 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի հունվարին հրատարակված գիտական հոդված
@hy
artikull shkencor
@sq
artículu científicu espublizáu en 2005
@ast
im Januar 2005 veröffentlichter wissenschaftlicher Artikel
@de
scientific journal article
@en
wetenschappelijk artikel
@nl
наукова стаття, опублікована в січні 2005
@uk
مقالة علمية (نشرت عام 2005)
@ar
name
Staufen recruitment into stres ...... transport in oligodendrocytes
@ast
Staufen recruitment into stres ...... transport in oligodendrocytes
@en
Staufen recruitment into stres ...... transport in oligodendrocytes
@nl
type
label
Staufen recruitment into stres ...... transport in oligodendrocytes
@ast
Staufen recruitment into stres ...... transport in oligodendrocytes
@en
Staufen recruitment into stres ...... transport in oligodendrocytes
@nl
prefLabel
Staufen recruitment into stres ...... transport in oligodendrocytes
@ast
Staufen recruitment into stres ...... transport in oligodendrocytes
@en
Staufen recruitment into stres ...... transport in oligodendrocytes
@nl
P2093
P2860
P3181
P356
P1476
Staufen recruitment into stres ...... transport in oligodendrocytes
@en
P2093
Graciela L. Boccaccio
Jorge Correale
Juana M. Pasquini
Leandro J. Martinez Tosar
Mariela Loschi
María G. Thomas
Stefan Kindler
P2860
P304
P3181
P356
10.1091/MBC.E04-06-0516
P577
2005-01-01T00:00:00Z