SKAR links pre-mRNA splicing to mTOR/S6K1-mediated enhanced translation efficiency of spliced mRNAs
about
Genome analysis reveals interplay between 5'UTR introns and nuclear mRNA export for secretory and mitochondrial genesThe proteins PDIP3 and ZC11A associate with the human TREX complex in an ATP-dependent manner and function in mRNA exportATP is required for interactions between UAP56 and two conserved mRNA export proteins, Aly and CIP29, to assemble the TREX complexThe cellular EJC interactome reveals higher-order mRNP structure and an EJC-SR protein nexusKaposi's sarcoma-associated herpesvirus ORF57 protein interacts with PYM to enhance translation of viral intronless mRNAsHuman DDX3 functions in translation and interacts with the translation initiation factor eIF3Two mammalian MAGOH genes contribute to exon junction complex composition and nonsense-mediated decayRegulation of CD45 alternative splicing by heterogeneous ribonucleoprotein, hnRNPLLA new MIF4G domain-containing protein, CTIF, directs nuclear cap-binding protein CBP80/20-dependent translationS6K1 plays a critical role in early adipocyte differentiationmTOR: from growth signal integration to cancer, diabetes and ageingRegulation of mRNA export by the PI3 kinase/AKT signal transduction pathway.Sirolimus and Everolimus Pathway: Reviewing Candidate Genes Influencing Their Intracellular EffectsLive strong and prosper: the importance of skeletal muscle strength for healthy ageingLeucine and mTORC1: a complex relationshipAmino acid sensing in dietary-restriction-mediated longevity: roles of signal-transducing kinases GCN2 and TORCoupling pre-mRNA processing to transcription on the RNA factory assembly lineThe role of TREX in gene expression and diseaseNonsense-Mediated mRNA Decay: Degradation of Defective Transcripts Is Only Part of the StoryX-exome sequencing of 405 unresolved families identifies seven novel intellectual disability genesRegulation and function of ribosomal protein S6 kinase (S6K) within mTOR signalling networksPDIP46 (DNA polymerase δ interacting protein 46) is an activating factor for human DNA polymerase δComputational modeling and analysis of insulin induced eukaryotic translation initiationBidirectional transport of amino acids regulates mTOR and autophagyRegulation of the mTOR complex 1 pathway by nutrients, growth factors, and stressThe exon junction complex in neural development and neurodevelopmental disease.Function and pathological implications of exon junction complex factor Y14Modulation of nonsense mediated decay by rapamycinGenome-wide functional analysis of human 5' untranslated region introns.Whole genome siRNA cell-based screen links mitochondria to Akt signaling network through uncoupling of electron transport chainSplicing-dependent NMD does not require the EJC in Schizosaccharomyces pombeAn interaction between KSHV ORF57 and UIF provides mRNA-adaptor redundancy in herpesvirus intronless mRNA export.SRp40 and SRp55 promote the translation of unspliced human immunodeficiency virus type 1 RNAAltered nutrient response of mTORC1 as a result of changes in REDD1 expression: effect of obesity vs. REDD1 deficiency.Regulatory effects of SKAR in interferon α signaling and its role in the generation of type I IFN responses.When a ribosome encounters a premature termination codon.The pioneer round of translation: features and functionsExon junction complex subunits are required to splice Drosophila MAP kinase, a large heterochromatic geneThriving under stress: selective translation of HIV-1 structural protein mRNA during Vpr-mediated impairment of eIF4E translation activity.The evolution of the TOR pathway and its role in cancer.
P2860
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
P248
Q21092427-BB7D83D4-30FA-452A-8E15-9D033C7B1C6EQ24297677-2EAAE6CD-0C7E-4790-8435-FE0C4953E327Q24299834-769767F4-DEA9-4EFA-8CA3-67824BA5C42FQ24301338-5E1D5A0F-D6F8-4488-9E55-AEC3520778AFQ24309306-2608D39E-02F4-497E-AE2A-739C00799404Q24313521-923F3355-C91A-4AA5-BEB3-D53D24E14BEDQ24314971-BD75D057-2B5E-4C0D-8724-F780AC0A552CQ24318874-A7D767A3-7672-44D9-8640-4D619BB48677Q24319014-6713ACDF-9DD2-49F1-901A-7F0EE382CD27Q24594058-3FD9F9FE-2241-445A-8090-1C73255EC9C7Q24633662-3AD184E0-7F63-4A62-A03B-ACC71CDB46BEQ24634371-355CFCD1-7B66-4FAC-A5C1-9BF9B83AC705Q26749011-FED05C7B-E3F7-4766-BE3A-56FBE6866BDCQ26770637-C7704792-7AAA-4462-A52C-F79CC7AFB7F6Q26866321-A13DD99F-DD5B-4CF0-ACC1-76AE170FB0CEQ27001717-967AD894-340A-4997-86FA-700CE2F9F679Q27024720-6AA6615C-5625-43DD-8CED-F0CE5E7D49FFQ28078160-9A8AE6CF-8C8C-4D9E-8D90-35511B37E0E2Q28082699-66BE4700-E310-49A4-983F-FD074396C0A9Q28118573-86059C83-2972-4EFD-A3F7-41AE8650C282Q28255399-D163F894-D037-4731-891B-4CAD25EC5E4DQ28272658-03282596-9D71-4685-BAA9-C43826AAF924Q28477922-F31699B4-2709-4006-B5C0-D3D691A8709CQ29614476-7C24F985-A1B9-4BC0-9D88-83B09E107F24Q29614493-57C32326-3B81-4117-A477-2C3C2DEBE91CQ30386814-5231404A-2A68-4225-B449-183FFBB8A091Q33421929-35F3431C-2E57-41EE-8C1C-3091D0C36B76Q33557383-91CE9D65-0718-412A-A4A7-B5F91172153FQ33829781-AAC65A21-7478-422A-B5E5-2B863674F22CQ33861176-E00785CF-6456-4D61-9CBB-B6B6F9FCE9C8Q33878474-3D951039-D245-4CD4-B9AA-B57944DF19B8Q33981279-E87486FA-1D21-47B4-939F-8BE881ADD8CAQ33990712-FBFA44CA-49C9-43F0-B4F4-6143832577EBQ34006278-60500489-9C94-45F1-8DB6-1C6F5F71FC5BQ34025462-81A38465-501F-43D3-A4D8-807F44088DE0Q34049225-0C4370CE-04D9-40E0-9113-AE54BDD8562FQ34130177-FCF1815D-EF54-41CA-8F81-A088D4C28A40Q34205010-423E0F64-A6BA-4DE6-8683-F94C298AC31DQ34211540-C1CD729F-4953-4AE5-BCAC-965A19F03E89Q34318188-715E6A67-141E-43B7-9616-F41D92EB51C8
P2860
SKAR links pre-mRNA splicing to mTOR/S6K1-mediated enhanced translation efficiency of spliced mRNAs
description
2008 nî lūn-bûn
@nan
2008 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
SKAR links pre-mRNA splicing t ...... on efficiency of spliced mRNAs
@ast
SKAR links pre-mRNA splicing t ...... on efficiency of spliced mRNAs
@en
SKAR links pre-mRNA splicing t ...... on efficiency of spliced mRNAs
@en-gb
SKAR links pre-mRNA splicing t ...... on efficiency of spliced mRNAs
@nl
type
label
SKAR links pre-mRNA splicing t ...... on efficiency of spliced mRNAs
@ast
SKAR links pre-mRNA splicing t ...... on efficiency of spliced mRNAs
@en
SKAR links pre-mRNA splicing t ...... on efficiency of spliced mRNAs
@en-gb
SKAR links pre-mRNA splicing t ...... on efficiency of spliced mRNAs
@nl
prefLabel
SKAR links pre-mRNA splicing t ...... on efficiency of spliced mRNAs
@ast
SKAR links pre-mRNA splicing t ...... on efficiency of spliced mRNAs
@en
SKAR links pre-mRNA splicing t ...... on efficiency of spliced mRNAs
@en-gb
SKAR links pre-mRNA splicing t ...... on efficiency of spliced mRNAs
@nl
P2093
P921
P3181
P1433
P1476
SKAR links pre-mRNA splicing t ...... on efficiency of spliced mRNAs
@en
P2093
Celeste J Richardson
John Blenis
Kristina Jülich
Sang-Oh Yoon
Xiaoju Max Ma
P304
P3181
P356
10.1016/J.CELL.2008.02.031
P407
P577
2008-04-18T00:00:00Z