Scd6 targets eIF4G to repress translation: RGG motif proteins as a class of eIF4G-binding proteins.
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RNA-binding proteins related to stress response and differentiation in protozoaRGG motif proteins: modulators of mRNA functional statesThe C-Terminal Domain from S. cerevisiae Pat1 Displays Two Conserved Regions Involved in Decapping Factor RecruitmentGlobal analysis of yeast mRNPs.Use of Cellular Decapping Activators by Positive-Strand RNA VirusesRegulation of neuronal mRNA translation by CaM-kinase I phosphorylation of eIF4GIIRNA Polymerase II C-Terminal Domain: Tethering Transcription to Transcript and TemplateGenome-wide RIP-Chip analysis of translational repressor-bound mRNAs in the Plasmodium gametocyteRNA seeds higher-order assembly of FUS protein.SCD6 induces ribonucleoprotein granule formation in trypanosomes in a translation-independent manner, regulated by its Lsm and RGG domains.Emerging roles for ribonucleoprotein modification and remodeling in controlling RNA fateThe BEACH Domain Protein SPIRRIG Is Essential for Arabidopsis Salt Stress Tolerance and Functions as a Regulator of Transcript Stabilization and LocalizationTranslational control of the oogenic program by components of OMA ribonucleoprotein particles in Caenorhabditis elegansMultilayer regulatory mechanisms control cleavage factor I proteins in filamentous fungi.The 4E-BP Caf20p Mediates Both eIF4E-Dependent and Independent Repression of Translation.Stoichiometry and Change of the mRNA Closed-Loop Factors as Translating Ribosomes Transit from Initiation to Elongation.Analysis of the Physiological Activities of Scd6 through Its Interaction with Hmt1P-bodies and stress granules: possible roles in the control of translation and mRNA degradation.Modifiers of solid RNP granules control normal RNP dynamics and mRNA activity in early developmentRecruitment of the 4EHP-GYF2 cap-binding complex to tetraproline motifs of tristetraprolin promotes repression and degradation of mRNAs with AU-rich elements.Amyotrophic lateral sclerosis-linked FUS/TLS alters stress granule assembly and dynamics.The C-Terminal RGG Domain of Human Lsm4 Promotes Processing Body Formation Stimulated by Arginine Dimethylation.The intimate relationships of mRNA decay and translation.RNA degradation in Saccharomyces cerevisaeThe role of disordered protein regions in the assembly of decapping complexes and RNP granules.Interrelations between translation and general mRNA degradation in yeast.Aven recognition of RNA G-quadruplexes regulates translation of the mixed lineage leukemia protooncogenes.Glycogen synthase kinase 3 promotes p53 mRNA translation via phosphorylation of RNPC1.Inactivation of the mTORC1-eukaryotic translation initiation factor 4E pathway alters stress granule formation.Intrinsically disordered RGG/RG domains mediate degenerate specificity in RNA binding.Monosome formation during translation initiation requires the serine/arginine-rich protein Npl3.Arginine methylation promotes translation repression activity of eIF4G-binding protein, Scd6.Only a subset of the PAB1-mRNP proteome is present in mRNA translation complexes.Sbp1 modulates the translation of Pab1 mRNA in a poly(A)- and RGG-dependent manner.Leishmania braziliensis SCD6 and RBP42 proteins, two factors with RNA binding capacity.Identification of PNG kinase substrates uncovers interactions with the translational repressor TRAL in the oocyte-to-embryo transition.Chromosome VIII disomy influences the nonsense suppression efficiency and transition metal tolerance of the yeast Saccharomyces cerevisiae.Systematic identification of factors mediating accelerated mRNA degradation in response to changes in environmental nitrogen.Molecular architecture of LSM14 interactions involved in the assembly of mRNA silencing complexesFunctional characterization of the trypanosome translational repressor SCD6
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P2860
Scd6 targets eIF4G to repress translation: RGG motif proteins as a class of eIF4G-binding proteins.
description
2012 nî lūn-bûn
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2012 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Scd6 targets eIF4G to repress ...... ass of eIF4G-binding proteins.
@ast
Scd6 targets eIF4G to repress ...... ass of eIF4G-binding proteins.
@en
Scd6 targets eIF4G to repress ...... ass of eIF4G-binding proteins.
@nl
type
label
Scd6 targets eIF4G to repress ...... ass of eIF4G-binding proteins.
@ast
Scd6 targets eIF4G to repress ...... ass of eIF4G-binding proteins.
@en
Scd6 targets eIF4G to repress ...... ass of eIF4G-binding proteins.
@nl
prefLabel
Scd6 targets eIF4G to repress ...... ass of eIF4G-binding proteins.
@ast
Scd6 targets eIF4G to repress ...... ass of eIF4G-binding proteins.
@en
Scd6 targets eIF4G to repress ...... ass of eIF4G-binding proteins.
@nl
P2860
P3181
P1433
P1476
Scd6 targets eIF4G to repress ...... lass of eIF4G-binding proteins
@en
P2093
Meipei She
Roy Parker
P2860
P304
P3181
P356
10.1016/J.MOLCEL.2011.11.026
P407
P577
2012-01-01T00:00:00Z