TIF4631/YGR162W Literature Guide 
Other names published for TIF4631: eiF4G1, YGR162W
TIF4631 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
TIF4631 - Protein-protein Interactions (39)
| Reference | Other Genes Addressed |
|---|---|
| Chang J, et al. (2012) Structure-function analysis and genetic interactions of the yeast branchpoint binding protein Msl5. Nucleic Acids Res 40(10):4539-52 |
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| Rajagopal V, et al. (2012) Specific domains in yeast translation initiation factor eIF4G strongly bias RNA unwinding activity of the eIF4F complex toward duplexes with 5'-overhangs. J Biol Chem 287(24):20301-12 |
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| Richardson R, et al. (2012) Mass spectrometric identification of proteins that interact through specific domains of the poly(A) binding protein. Mol Genet Genomics 287(9):711-30 |
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| Singh CR, et al. (2012) Sequential eukaryotic translation initiation factor 5 (eIF5) binding to the charged disordered segments of eIF4G and eIF2? stabilizes the 48S preinitiation complex and promotes its shift to the initiation mode. Mol Cell Biol 32(19):3978-89 |
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| Wang X, et al. (2012) Use of the novel technique of analytical ultracentrifugation with fluorescence detection system identifies a 77S monosomal translation complex. Protein Sci 21(9):1253-68 |
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| Castelli LM, et al. (2011) Glucose depletion inhibits translation initiation via eIF4A loss and subsequent 48S preinitiation complex accumulation, while the pentose phosphate pathway is coordinately up-regulated. Mol Biol Cell 22(18):3379-93 |
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| Hilliker A, et al. (2011) The DEAD-box protein Ded1 modulates translation by the formation and resolution of an eIF4F-mRNA complex. Mol Cell 43(6):962-72 |
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| Park EH, et al. (2011) Multiple elements in the eIF4G1 N-terminus promote assembly of eIF4G1*PABP mRNPs in vivo. EMBO J 30(2):302-16 |
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| Santiveri CM, et al. (2011) Pub1p C-Terminal RRM Domain Interacts with Tif4631p through a Conserved Region Neighbouring the Pab1p Binding Site. PLoS One 6(9):e24481 |
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| Mitchell SF, et al. (2010) The 5'-7-Methylguanosine Cap on Eukaryotic mRNAs Serves Both to Stimulate Canonical Translation Initiation and to Block an Alternative Pathway. Mol Cell 39(6):950-62 |
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| Alberti S, et al. (2009) A systematic survey identifies prions and illuminates sequence features of prionogenic proteins. Cell 137(1):146-58 |
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| Kafasla P, et al. (2009) Interaction of yeast eIF4G with spliceosome components: Implications in pre-mRNA processing events. RNA Biol 6(5):563-74 |
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| Amrani N, et al. (2008) Translation factors promote the formation of two states of the closed-loop mRNP. Nature 453(7199):1276-80 |
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| Schutz P, et al. (2008) Crystal structure of the yeast eIF4A-eIF4G complex: an RNA-helicase controlled by protein-protein interactions. Proc Natl Acad Sci U S A 105(28):9564-9 |
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| Oeffinger M, et al. (2007) Comprehensive analysis of diverse ribonucleoprotein complexes. Nat Methods 4(11):951-6 |
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| Paquin N, et al. (2007) Local Activation of Yeast ASH1 mRNA Translation through Phosphorylation of Khd1p by the Casein Kinase Yck1p. Mol Cell 26(6):795-809 |
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| Singh CR, et al. (2007) Change in nutritional status modulates the abundance of critical pre-initiation intermediate complexes during translation initiation in vivo. J Mol Biol 370(2):315-30 |
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| Ford AS, et al. (2006) Ebs1p, a negative regulator of gene expression controlled by the Upf proteins in the yeast Saccharomyces cerevisiae. Eukaryot Cell 5(2):301-12 |
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| Kashyap AK, et al. (2005) Biochemical and genetic characterization of Yra1p in budding yeast. Yeast 22(1):43-56 |
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| Berset C, et al. (2003) RNA-binding activity of translation initiation factor eIF4G1 from Saccharomyces cerevisiae. RNA 9(7):871-80 |
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| He H, et al. (2003) The yeast eukaryotic initiation factor 4G (eIF4G) HEAT domain interacts with eIF1 and eIF5 and is involved in stringent AUG selection. Mol Cell Biol 23(15):5431-45 |
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| Ramirez CV, et al. (2002) Modulation of eukaryotic mRNA stability via the cap-binding translation complex eIF4F. J Mol Biol 318(4):951-62 |
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| Dominguez D, et al. (2001) Structural and functional similarities between the central eukaryotic initiation factor (eIF)4A-binding domain of mammalian eIF4G and the eIF4A-binding domain of yeast eIF4G. Biochem J 355(Pt 1):223-30 |
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| Horton LE, et al. (2001) The yeast hsp70 homologue Ssa is required for translation and interacts with Sis1 and Pab1 on translating ribosomes. J Biol Chem 276(17):14426-33 |
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| Searfoss A, et al. (2001) Linking the 3' poly(A) tail to the subunit joining step of translation initiation: relations of Pab1p, eukaryotic translation initiation factor 5b (Fun12p), and Ski2p-Slh1p. Mol Cell Biol 21(15):4900-8 |
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| Wilusz CJ, et al. (2001) Poly(A)-binding proteins regulate both mRNA deadenylation and decapping in yeast cytoplasmic extracts. RNA 7(10):1416-24 |
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| Cosentino GP, et al. (2000) Eap1p, a novel eukaryotic translation initiation factor 4E-associated protein in Saccharomyces cerevisiae. Mol Cell Biol 20(13):4604-13 |
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| Fortes P, et al. (2000) The yeast nuclear cap binding complex can interact with translation factor eIF4G and mediate translation initiation. Mol Cell 6(1):191-6 |
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| Vilela C, et al. (2000) The eukaryotic mRNA decapping protein Dcp1 interacts physically and functionally with the eIF4F translation initiation complex. EMBO J 19(16):4372-82 |
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| Dominguez D, et al. (1999) Interaction of translation initiation factor eIF4G with eIF4A in the yeast Saccharomyces cerevisiae. J Biol Chem 274(38):26720-6 |
