Hu proteins regulate polyadenylation by blocking sites containing U-rich sequences.
about
RNA-binding protein HuR autoregulates its expression by promoting alternative polyadenylation site usage3' end mRNA processing: molecular mechanisms and implications for health and diseaseAlternative Polyadenylation of mRNAs: 3'-Untranslated Region Matters in Gene ExpressionAlternative cleavage and polyadenylation: the long and short of itDeterminants and implications of mRNA poly(A) tail size--does this protein make my tail look big?Alternative polyadenylation in the nervous system: to what lengths will 3' UTR extensions take us?A systems level, functional genomics analysis of chronic epilepsyPolyadenylation site choice in yeast is affected by competition between Npl3 and polyadenylation factor CFI.Current Evidence and Future Perspectives on HuR and Breast Cancer Development, Prognosis, and TreatmentThe end of the message: multiple protein-RNA interactions define the mRNA polyadenylation sitePolyadenylation site-specific differences in the activity of the neuronal βCstF-64 protein in PC-12 cellsComparative 3'UTR analysis allows identification of regulatory clusters that drive Eph/ephrin expression in cancer cell lines.Rapid functional diversification in the structurally conserved ELAV family of neuronal RNA binding proteinsEnterovirus 71 3C protease cleaves a novel target CstF-64 and inhibits cellular polyadenylationAlternative polyadenylation of mRNA precursors.Promiscuity in post-transcriptional control of gene expression: Drosophila sex-lethal and its regulatory partnershipsMolecular mechanisms of eukaryotic pre-mRNA 3' end processing regulation.Promotion of exon 6 inclusion in HuD pre-mRNA by Hu protein family membersCompeting interactions between micro-RNAs determine neural progenitor survival and proliferation after ethanol exposure: evidence from an ex vivo model of the fetal cerebral cortical neuroepithelium.HuR-hnRNP interactions and the effect of cellular stress.Alternative mRNA polyadenylation in eukaryotes: an effective regulator of gene expressionLong conserved fragments upstream of Mammalian polyadenylation sites.ELAV-mediated 3'-end processing of ewg transcripts is evolutionarily conserved despite sequence degeneration of the ELAV-binding site.Integrative regulatory mapping indicates that the RNA-binding protein HuR couples pre-mRNA processing and mRNA stabilityNeuron-specific ELAV/Hu proteins suppress HuR mRNA during neuronal differentiation by alternative polyadenylation.Concentration and Localization of Coexpressed ELAV/Hu Proteins Control Specificity of mRNA Processing.Analysis of turnover and translation regulatory RNA-binding protein expression through binding to cognate mRNAs.Global insights into alternative polyadenylation regulation.Dephosphorylation of HuR protein during alphavirus infection is associated with HuR relocalization to the cytoplasmTranslational control by cytoplasmic polyadenylation in Xenopus oocytes.All three RNA recognition motifs and the hinge region of HuC play distinct roles in the regulation of alternative splicing.Alterations in polyadenylation and its implications for endocrine disease.Phylogenetic analysis of mRNA polyadenylation sites reveals a role of transposable elements in evolution of the 3'-end of genesmRNA stability and cancer: an emerging link?Diverse molecular functions of Hu proteins.RNA-dependent association with myosin IIA promotes F-actin-guided trafficking of the ELAV-like protein HuR to polysomesHuR-regulated mRNAs associated with nuclear hnRNP A1-RNP complexes.The fate of the messenger is pre-determined: a new model for regulation of gene expressionHuR and TIA1/TIAL1 are involved in regulation of alternative splicing of SIRT1 pre-mRNA.The complex world of post-transcriptional mechanisms: is their deregulation a common link for diseases? Focus on ELAV-like RNA-binding proteins.
P2860
Q24609537-B20E20BF-F57A-48AF-AD77-EF084D4FD1E5Q24648650-B77EBD75-D23B-4E36-AF96-2C731011119CQ26766536-BE234464-7ACF-40AF-ABB2-C38D04F0853EQ26864222-674A7AA9-D225-4B74-9CD6-437F172BD0C6Q26865066-6AE5FCA5-B4BF-4137-A4FC-D61D77B628C7Q27027041-ECE96CB8-197C-4136-A099-755863D92602Q27335505-2F88EED3-67C4-4B48-BE29-281FD6B1042BQ27939878-FD9FD351-0252-407A-B6E7-530F2C1DACBCQ28075325-85A4AA7F-4BBA-44A1-B859-E60DE6121766Q28082339-66FB8A26-798A-4FCC-96D9-C6181BAD24D3Q28568965-BEA3F30E-8788-4F74-9DFA-ED8CB5FC2BF8Q33354173-916533A4-7BF6-49FC-A595-FD66B23BDF29Q33361787-DC3622B0-2A68-4CC2-97B2-DCFC37D41D3BQ33506618-DAA14085-2BF9-4930-9BFB-368A6B5060A4Q33832891-6B8A0F73-6024-4F83-845C-E100107596E6Q33845661-77978BA5-1899-450A-A0CF-A3DCB24F5EFBQ33871092-B5D9524F-361A-478A-8F80-E63A0A512924Q33922346-B9007AA9-893E-435F-98FD-2AE2410F3CC7Q34043222-0110F12E-1C2F-48EC-866C-A946C8F0DD2DQ34300071-082671B9-FE24-4139-A8DB-DE2F13980C50Q34530421-1C0E5EDF-6007-4F90-A201-4BA39859D6C8Q35169858-D9ED3024-5335-4699-946D-E7289CDE612BQ35221503-935E6158-B935-4781-986A-AB7B42045AD0Q35562869-21A6973E-C541-4797-8E60-1930A054DB24Q35860663-AE427445-2603-41AD-A4CF-138413B4F34FQ35963764-C809C06F-7B8C-4495-98D8-6514F03BDEF0Q36177481-21DB0117-5731-4BC0-B979-7683CA6AE4DFQ36192006-6C877117-A198-4F09-BC29-F2CD7B32340EQ36332866-9EB0273F-0ED0-4A98-AD5B-A513EBF41FA6Q36570102-2A457638-69FD-406F-B2B0-2B720B7217D1Q36814181-EA4DA60C-6144-4B41-85F1-2FC74E04D99BQ36824347-A557B571-F39F-405E-BF5F-F85BD7064AB6Q36909302-2A6EF9AA-663A-4BFE-9A2C-DE1A45164846Q36960486-C12D939C-691C-4A13-862D-130559AFF1C7Q37200596-9197F115-2D96-45C3-A7C8-6D9288199143Q37236737-13F4BEF1-32AA-42F7-8C51-F459E338DAB1Q37291269-DDC2ECF2-2D81-4A59-83C0-6FACDE748060Q37477468-0F377375-2BAD-4C5F-A4D5-E8631C44152CQ37645361-7BECCDA4-9974-4EC5-86E7-8967E48D69DEQ37930474-0FDA4B1C-687F-4D69-B5C4-58749E2EB2A2
P2860
Hu proteins regulate polyadenylation by blocking sites containing U-rich sequences.
description
2006 nî lūn-bûn
@nan
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
2006年學術文章
@zh-hant
name
Hu proteins regulate polyadenylation by blocking sites containing U-rich sequences.
@en
Hu proteins regulate polyadenylation by blocking sites containing U-rich sequences.
@nl
type
label
Hu proteins regulate polyadenylation by blocking sites containing U-rich sequences.
@en
Hu proteins regulate polyadenylation by blocking sites containing U-rich sequences.
@nl
prefLabel
Hu proteins regulate polyadenylation by blocking sites containing U-rich sequences.
@en
Hu proteins regulate polyadenylation by blocking sites containing U-rich sequences.
@nl
P2093
P2860
P356
P1476
Hu proteins regulate polyadenylation by blocking sites containing U-rich sequences.
@en
P2093
Hua-Lin Zhou
Robert A Hasman
P2860
P304
P356
10.1074/JBC.M609349200
P407
P577
2006-11-26T00:00:00Z