All translation elongation factors and the e, f, and h subunits of translation initiation factor 3 are encoded by 5'-terminal oligopyrimidine (TOP) mRNAs
about
The translational factor eIF3f: the ambivalent eIF3 subunitConsolidation and translation regulationTORC1 and TORC2 work together to regulate ribosomal protein S6 phosphorylation in Saccharomyces cerevisiae.Disease-associated mutations that alter the RNA structural ensembleRegulation of the cardiomyocyte transcriptome vs translatome by endothelin-1 and insulin: translational regulation of 5' terminal oligopyrimidine tract (TOP) mRNAs by insulin.Genome-wide assessment of differential translations with ribosome profiling data.The Human CCHC-type Zinc Finger Nucleic Acid-Binding Protein Binds G-Rich Elements in Target mRNA Coding Sequences and Promotes Translation.Human SHBG mRNA translation is modulated by alternative 5'-non-coding exons 1A and 1B.The binding of TIA-1 to RNA C-rich sequences is driven by its C-terminal RRM domain.The class I PI3K/Akt pathway is critical for cancer cell survival in dogs and offers an opportunity for therapeutic interventionTranscript and protein expression decoupling reveals RNA binding proteins and miRNAs as potential modulators of human aging.Translational coregulation of 5'TOP mRNAs by TIA-1 and TIAR.Ribosomal protein S6 is highly expressed in non-Hodgkin lymphoma and associates with mRNA containing a 5' terminal oligopyrimidine tract.Virus-induced translational arrest through 4EBP1/2-dependent decay of 5'-TOP mRNAs restricts viral infection.The Transcription and Translation Landscapes during Human Cytomegalovirus Infection Reveal Novel Host-Pathogen Interactions.A unifying model for mTORC1-mediated regulation of mRNA translation.SUMO-Modification of the La Protein Facilitates Binding to mRNA In Vitro and in CellsInsights into the roles of local translation from the axonal transcriptome.Quantitative Non-canonical Amino Acid Tagging (QuaNCAT) Proteomics Identifies Distinct Patterns of Protein Synthesis Rapidly Induced by Hypertrophic Agents in Cardiomyocytes, Revealing New Aspects of Metabolic Remodeling.Differing effects of rapamycin and mTOR kinase inhibitors on protein synthesis.Recent progress toward understanding the molecular mechanisms that regulate skeletal muscle mass.RNA binding protein/RNA element interactions and the control of translationCellular adaptation to nutrient deprivation: crosstalk between the mTORC1 and eIF2α signaling pathways and implications for autophagy.La-related protein 1 (LARP1) binds the mRNA cap, blocking eIF4F assembly on TOP mRNAsStress puts TIA on TOP.Ribosomal stress activates eEF2K-eEF2 pathway causing translation elongation inhibition and recruitment of terminal oligopyrimidine (TOP) mRNAs on polysomesNutritional plane of twin-bearing ewes alters fetal mammary gland biochemical composition and mTOR/MAPK pathway signaling.Impairing the production of ribosomal RNA activates mammalian target of rapamycin complex 1 signalling and downstream translation factors.p53 induces transcriptional and translational programs to suppress cell proliferation and growth.Generation of ribosome imprinted polymers for sensitive detection of translational responses.Depletion of ribosomal protein S19 causes a reduction of rRNA synthesis.mTOR signaling regulates the processing of pre-rRNA in human cells.Regulation of gene expression by translation factor eIF5A: Hypusine-modified eIF5A enhances nonsense-mediated mRNA decay in human cells.Broad role for YBX1 in defining the small noncoding RNA composition of exosomes.Plant L10 ribosomal proteins have different roles during development and translation under ultraviolet-B stress.The expression profile and prognostic significance of eukaryotic translation elongation factors in different cancers.Fluorescently-tagged human eIF3 for single-molecule spectroscopy.Trans-acting translational regulatory RNA binding proteins.Roles of the mammalian target of rapamycin, mTOR, in controlling ribosome biogenesis and protein synthesis.
P2860
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P2860
All translation elongation factors and the e, f, and h subunits of translation initiation factor 3 are encoded by 5'-terminal oligopyrimidine (TOP) mRNAs
description
2008 nî lūn-bûn
@nan
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
2008年论文
@zh
2008年论文
@zh-cn
name
All translation elongation fac ...... al oligopyrimidine (TOP) mRNAs
@en
All translation elongation fac ...... al oligopyrimidine (TOP) mRNAs
@nl
type
label
All translation elongation fac ...... al oligopyrimidine (TOP) mRNAs
@en
All translation elongation fac ...... al oligopyrimidine (TOP) mRNAs
@nl
prefLabel
All translation elongation fac ...... al oligopyrimidine (TOP) mRNAs
@en
All translation elongation fac ...... al oligopyrimidine (TOP) mRNAs
@nl
P2093
P2860
P356
P1433
P1476
All translation elongation fac ...... al oligopyrimidine (TOP) mRNAs
@en
P2093
Elisa Tino
Fabrizio Loreni
Francesco Amaldi
Sara Caldarola
P2860
P304
P356
10.1261/RNA.1037108
P407
P577
2008-07-24T00:00:00Z