Molecular mapping of the determinants involved in human Staufen-ribosome association
about
Non-structural protein 1 of influenza viruses inhibits rapid mRNA degradation mediated by double-stranded RNA-binding protein, staufen1Characterization of Staufen 1 ribonucleoprotein complexesMammalian Smaug is a translational repressor that forms cytoplasmic foci similar to stress granulesIdentification of Staufen in the human immunodeficiency virus type 1 Gag ribonucleoprotein complex and a role in generating infectious viral particlesInteraction of Staufen1 with the 5' end of mRNA facilitates translation of these RNAsStaufen1 dimerizes through a conserved motif and a degenerate dsRNA-binding domain to promote mRNA decayStaufen recruitment into stress granules does not affect early mRNA transport in oligodendrocytesThe RNA-binding protein Staufen1 is increased in DM1 skeletal muscle and promotes alternative pre-mRNA splicingTwo distinct Staufen isoforms in Xenopus are vegetally localized during oogenesis.'Black sheep' that don't leave the double-stranded RNA-binding domain foldRACK1 is a ribosome scaffold protein for β-actin mRNA/ZBP1 complexIsolation and characterization of Staufen-containing ribonucleoprotein particles from rat brain.hiCLIP reveals the in vivo atlas of mRNA secondary structures recognized by Staufen 1.Neuronal activity induces synaptic delivery of hnRNP A2/B1 by a BDNF-dependent mechanism in cultured hippocampal neurons.The structural basis of Miranda-mediated Staufen localization during Drosophila neuroblast asymmetric division.Staufen1 regulation of protein synthesis-dependent long-term potentiation and synaptic function in hippocampal pyramidal cells.Staufen1 promotes HCV replication by inhibiting protein kinase R and transporting viral RNA to the site of translation and replication in the cells.SMD and NMD are competitive pathways that contribute to myogenesis: effects on PAX3 and myogenin mRNAsThe multifunctional Staufen proteins: conserved roles from neurogenesis to synaptic plasticity.The M-phase specific hyperphosphorylation of Staufen2 involved the cyclin-dependent kinase CDK1.Cell cycle-dependent regulation of the RNA-binding protein Staufen1.Staufen-1 interacts with the human endogenous retrovirus family HERV-K(HML-2) rec and gag proteins and increases virion production.Multimerization of Staufen1 in live cells.The host protein Staufen1 participates in human immunodeficiency virus type 1 assembly in live cells by influencing pr55Gag multimerization.Staufen1 senses overall transcript secondary structure to regulate translationStaufen1 is imported into the nucleolus via a bipartite nuclear localization signal and several modulatory determinants.Mammalian Staufen 1 is recruited to stress granules and impairs their assembly.HIV-1 NC-induced stress granule assembly and translation arrest are inhibited by the dsRNA binding protein Staufen1.CBP80 promotes interaction of Upf1 with Upf2 during nonsense-mediated mRNA decay in mammalian cells.Staufen1 Interacts with Multiple Components of the Ebola Virus Ribonucleoprotein and Enhances Viral RNA SynthesisThe crystal structure of Staufen1 in complex with a physiological RNA sheds light on substrate selectivity
P2860
Q24294204-834C3500-E118-4E30-80DE-7804568D5D26Q24300881-33C48D97-1909-40D4-B9AF-36A8D428CE79Q24338191-281098BE-D5EA-48C9-BA9B-E5B2D11F70E2Q24599767-706D84B4-C676-4090-BA13-1D3CA32DB0E9Q24816776-2C1C1807-DA72-4ABF-942C-5325E2758109Q27677008-F7E7D4BD-AA0A-4BA8-9842-354B62B5849FQ28572768-9BE74C94-2B13-42E0-8876-DC6F99745D3FQ30424920-902FD9C0-4054-4F16-A987-617CE1AF2696Q30447063-3D461734-02CC-4571-B8F7-9ACAB33AA84EQ33831715-13B99D11-7A71-4F65-B9C8-B45EEF63CCEAQ34241749-B1F5AFD0-70CE-49C2-9BDE-DBE7DE52648DQ34763540-95416072-720F-463B-A7A4-C32E9F75A7BDQ35224643-2D1B65FF-BE42-4658-AAB9-03D59B55B7EEQ35305075-790C0B78-147C-4EF7-A378-AABD1E8AB5ABQ36145854-8C740F9E-71F7-45DE-BF62-7642A3AEF1FDQ36540247-2085E528-9FA7-41AD-81DA-200862854C10Q37021569-CBEEA9DA-1095-4D77-BE79-92056EAC6429Q37075694-AE2BD65E-B3E3-41D8-AD57-DB52490F99DFQ38228167-2E135253-C480-42A7-97E8-21BFD0831DA3Q38898587-3CA01AB3-2818-4FEF-B4B5-F00D465B7549Q38987396-A4A588B7-2D9C-468D-AA2B-D21C338048CFQ39113570-2D054135-A3AD-4D12-B6BF-DB05ABCAF57CQ39751807-637224FC-1EC7-4D30-B59C-B4716A14FB7BQ40146707-79EB29D0-113D-47F0-A7D6-548D83722F23Q41857394-E7C74423-E482-43AB-A99A-854872777135Q41972796-C578463D-0028-4BB7-8C50-140AF63F1047Q42563125-D5FE44CE-55B9-486A-A01A-D416A83B9E63Q47414816-F43D1B61-A405-4147-8BE8-687338BC6C49Q50336107-8AB6D8E9-6FE2-4A8D-A91B-CD83EFFABE15Q57291140-5262B535-278D-45E6-B351-ED6C0860C1F6Q59136650-92FCCF57-E955-4B43-BD39-54451753DE75
P2860
Molecular mapping of the determinants involved in human Staufen-ribosome association
description
2002 nî lūn-bûn
@nan
2002 թուականի Օգոստոսին հրատարակուած գիտական յօդուած
@hyw
2002 թվականի օգոստոսին հրատարակված գիտական հոդված
@hy
2002年の論文
@ja
2002年論文
@yue
2002年論文
@zh-hant
2002年論文
@zh-hk
2002年論文
@zh-mo
2002年論文
@zh-tw
2002年论文
@wuu
name
Molecular mapping of the determinants involved in human Staufen-ribosome association
@ast
Molecular mapping of the determinants involved in human Staufen-ribosome association
@en
Molecular mapping of the determinants involved in human Staufen-ribosome association
@nl
type
label
Molecular mapping of the determinants involved in human Staufen-ribosome association
@ast
Molecular mapping of the determinants involved in human Staufen-ribosome association
@en
Molecular mapping of the determinants involved in human Staufen-ribosome association
@nl
prefLabel
Molecular mapping of the determinants involved in human Staufen-ribosome association
@ast
Molecular mapping of the determinants involved in human Staufen-ribosome association
@en
Molecular mapping of the determinants involved in human Staufen-ribosome association
@nl
P2093
P2860
P3181
P356
P1433
P1476
Molecular mapping of the determinants involved in human Staufen-ribosome association
@en
P2093
Luc DesGroseillers
Thomas F Duchaîne
P2860
P304
P3181
P356
10.1042/BJ20020263
P407
P577
2002-08-01T00:00:00Z