Concurrent versus individual binding of HuR and AUF1 to common labile target mRNAs.
about
Diverse RNA-binding proteins interact with functionally related sets of RNAs, suggesting an extensive regulatory systemPhosphorylation of HuR by Chk2 regulates SIRT1 expressionRNPC1, an RNA-binding protein and a target of the p53 family, is required for maintaining the stability of the basal and stress-induced p21 transcriptUbiquitin-mediated proteolysis of HuR by heat shockRNA processing and modification protein, carbon catabolite repression 4 (Ccr4), arrests the cell cycle through p21-dependent and p53-independent pathwayAU-rich elements and associated factors: are there unifying principles?AUF1/hnRNP D is a novel protein partner of the EBER1 noncoding RNA of Epstein-Barr virusChaperone Hsp27, a novel subunit of AUF1 protein complexes, functions in AU-rich element-mediated mRNA decayWilms' tumor 1-associating protein regulates G2/M transition through stabilization of cyclin A2 mRNAA role for the eIF4E-binding protein 4E-T in P-body formation and mRNA decayFunctional Integration of mRNA Translational Control ProgramsRNA-binding proteins and gene regulation in myogenesisThe multilayered complexity of ceRNA crosstalk and competitionPost-transcriptional control of gene expression by AUF1: mechanisms, physiological targets, and regulationExamination of the expanding pathways for the regulation of p21 expression and activity.Physiological networks and disease functions of RNA-binding protein AUF1Breast cancer epigenetics: from DNA methylation to microRNAsDestabilization of the ornithine decarboxylase mRNA transcript by the RNA-binding protein tristetraprolinIdentification of a set of KSRP target transcripts upregulated by PI3K-AKT signalingThe RNA-binding protein IMP-3 is a translational activator of insulin-like growth factor II leader-3 mRNA during proliferation of human K562 leukemia cellsPosttranscriptional regulation of cancer traits by HuRThe p53 circuit boardVersatility of RNA-Binding Proteins in CancerVICKZ proteins: a multi-talented family of regulatory RNA-binding proteinsIdentification of a signature motif in target mRNAs of RNA-binding protein AUF1G-Quadruplex in the NRF2 mRNA 5' Untranslated Region Regulates De Novo NRF2 Protein Translation under Oxidative StressCARM1 regulates proliferation of PC12 cells by methylating HuDNMDA induces post-transcriptional regulation of alpha2-guanylyl-cyclase-subunit expression in cerebellar granule cellsPolyamines regulate the stability of JunD mRNA by modulating the competitive binding of its 3' untranslated region to HuR and AUF1Effect of chronic contractile activity on mRNA stability in skeletal muscleNitric oxide-sensitive guanylyl cyclase is differentially regulated by nuclear and non-nuclear estrogen pathways in anterior pituitary glandRegulation of tristetraprolin during differentiation of 3T3-L1 preadipocytesmiR-328 functions as an RNA decoy to modulate hnRNP E2 regulation of mRNA translation in leukemic blasts.Intracellular localization and interaction of mRNA binding proteins as detected by FRET.Hu antigen R is required for NOX-1 but not NOX-4 regulation by inflammatory stimuli in vascular smooth muscle cells.PCR-based generation of shRNA libraries from cDNAs.A syngeneic variance library for functional annotation of human variation: application to BRCA2A method for purification, identification and validation of DNMT1 mRNA binding proteinsFunctionally related transcripts have common RNA motifs for specific RNA-binding proteins in trypanosomes.The RNA binding protein HuR differentially regulates unique subsets of mRNAs in estrogen receptor negative and estrogen receptor positive breast cancer
P2860
Q21092736-AE652FA2-598C-4659-847E-93C8C9EE8BE2Q24297993-61D3E53D-990D-404C-BE5B-AD40D33634FAQ24307571-733C313E-22B0-476C-9194-1FDF095A165EQ24309514-4E980F20-A937-4996-BC33-8F99E79FDC12Q24318337-544936EA-EBFD-4166-A383-6218A95B2F35Q24535929-33ECF364-384F-493E-A028-64DF21F4EDE1Q24624988-8DD6DC4D-BF39-4929-9CA0-8AD02A78609BQ24658102-AB7EDE7D-E88A-4295-8F2E-7AE4BF9BF3C2Q24675575-AACC33CE-BB47-4D93-98C8-312F5A8D8758Q24679242-EE0CD981-CE17-469B-99F2-6DC5ADF88507Q26801366-F2CAB5D5-4CF7-405A-8C24-6F2DD0DCAE7EQ26866134-259C9EB2-867B-41AA-8C04-E4907B1554E4Q27025671-1EBB38E1-D578-4A62-B31B-4E2C61655924Q27026089-EBB347C5-E4AD-45C1-AA06-6B101A7F73F9Q27692024-5A152944-9769-42C1-8E3E-EA9120DB765AQ27693879-8BF38C98-A4D8-4368-914D-37E62306AC28Q27694164-56C348DA-86B8-4D43-B569-75E885DAC1B7Q28115940-E0EE36F9-195B-46B1-BF28-8FD2ED2E0F1EQ28222344-5C6CC5F0-990C-4010-9A8F-78A65C32CBF8Q28238616-014C99EF-C5ED-4F65-9496-C3FA6B6D9392Q28248667-B8E9F7DC-E88C-451E-82F9-36425E1BCF39Q28259725-487E6415-CCEA-42BC-9450-6A18997767C5Q28268118-C9F92743-E7B7-4932-A590-1FE9AFE23E65Q28298447-63082E83-C75E-4ABA-8A67-12ECB5BD1118Q28301813-7C0BCF8E-A51D-43D6-885E-4AD0409F89A1Q28397381-43A55275-EC35-486C-98EE-AB0FD37A4D44Q28567419-9B4C17CB-D98E-41E0-80D8-AFA6F6958716Q28577773-6CB12DD5-5F9C-4F6C-8EE6-1E0AABFAB735Q28579449-2B2F89E6-290D-4B25-AA82-F943A0640ED4Q28580660-7BDE9BDD-873C-417E-9F47-7A2AA50DF260Q28582212-D0990F2E-44B8-4A7C-BE34-7E74EBF1B5ACQ28588372-FF68185C-D616-43C6-AA1E-6757799FCF73Q30496174-6E9865D1-FBB9-44F9-91B0-FDA12B57308FQ30496858-555EE444-EB80-47D8-99BB-68B30B1656A2Q30786020-EA1B9D30-E52E-4D1F-8249-1A14A6BB95A1Q33247494-E008E62A-8B79-43D3-85E2-D6C5A1F1285FQ33348194-5ECC66DF-B99D-486F-BD49-B4DCE9E886E2Q33388710-8055541E-A258-4978-B267-FA68BEA95993Q33390791-D06BF37F-4373-469C-9DEB-0B93AE37CD3BQ33549949-E8C1ACAC-D3D4-4FE9-B919-6670DD80664A
P2860
Concurrent versus individual binding of HuR and AUF1 to common labile target mRNAs.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 15 July 2004
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Concurrent versus individual binding of HuR and AUF1 to common labile target mRNAs.
@de
Concurrent versus individual binding of HuR and AUF1 to common labile target mRNAs.
@en
Concurrent versus individual binding of HuR and AUF1 to common labile target mRNAs.
@fr
Concurrent versus individual binding of HuR and AUF1 to common labile target mRNAs.
@nl
type
label
Concurrent versus individual binding of HuR and AUF1 to common labile target mRNAs.
@de
Concurrent versus individual binding of HuR and AUF1 to common labile target mRNAs.
@en
Concurrent versus individual binding of HuR and AUF1 to common labile target mRNAs.
@fr
Concurrent versus individual binding of HuR and AUF1 to common labile target mRNAs.
@nl
prefLabel
Concurrent versus individual binding of HuR and AUF1 to common labile target mRNAs.
@de
Concurrent versus individual binding of HuR and AUF1 to common labile target mRNAs.
@en
Concurrent versus individual binding of HuR and AUF1 to common labile target mRNAs.
@fr
Concurrent versus individual binding of HuR and AUF1 to common labile target mRNAs.
@nl
P2093
P2860
P356
P1433
P1476
Concurrent versus individual binding of HuR and AUF1 to common labile target mRNAs.
@en
P2093
Ashish Lal
Jennifer L Martindale
Krystyna Mazan-Mamczarz
Tomoko Kawai
Xiaoling Yang
P2860
P304
P356
10.1038/SJ.EMBOJ.7600305
P407
P577
2004-07-15T00:00:00Z