PAB1/YER165W Literature Guide 
Other names published for PAB1: YER165W
PAB1 LITERATURE TOPICS
- Curated Literature
- Additional Literature
- All Curated References
- Primary Literature
- Reviews
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
PAB1 - Primary Literature (74)
| Reference | Other Genes Addressed |
|---|---|
| Firczuk H, et al. (2013) An in vivo control map for the eukaryotic mRNA translation machinery. Mol Syst Biol 9():635 |
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| Shah KH, et al. (2013) Processing body and stress granule assembly occur by independent and differentially regulated pathways in Saccharomyces cerevisiae. Genetics 193(1):109-23 |
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| Rajyaguru P, et al. (2012) Scd6 Targets eIF4G to Repress Translation: RGG Motif Proteins as a Class of eIF4G-Binding Proteins. Mol Cell 45(2):244-54 |
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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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| Rojas M, et al. (2012) Yeast Gis2 and Its Human Ortholog CNBP Are Novel Components of Stress-Induced RNP Granules. PLoS One 7(12):e52824 |
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| Schmid M, et al. (2012) Rrp6p controls mRNA poly(A) tail length and its decoration with poly(A) binding proteins. Mol Cell 47(2):267-80 |
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| Tudisca V, et al. (2012) PKA isoforms coordinate mRNA fate during nutrient starvation. J Cell Sci 125(Pt 21):5221-32 |
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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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| Buchan JR, et al. (2011) Stress-specific composition, assembly and kinetics of stress granules in Saccharomyces cerevisiae. J Cell Sci 124(Pt 2):228-39 |
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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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| Chritton JJ and Wickens M (2011) A role for the poly(A)-binding protein Pab1p in PUF protein-mediated repression. J Biol Chem 286(38):33268-78 |
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| Konopka CA, et al. (2011) A yeast model for polyalanine-expansion aggregation and toxicity. Mol Biol Cell 22(12):1971-84 |
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| Swisher KD and Parker R (2010) Localization to, and effects of Pbp1, Pbp4, Lsm12, Dhh1, and Pab1 on stress granules in Saccharomyces cerevisiae. PLoS One 5(4):e10006 |
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| Tsuboi T and Inada T (2010) Tethering of poly(A)-binding protein interferes with non-translated mRNA decay from the 5' end in yeast. J Biol Chem 285(44):33589-601 |
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| Grousl T, et al. (2009) Robust heat shock induces eIF2{alpha}-phosphorylation-independent assembly of stress granules containing eIF3 and 40S ribosomal subunits in budding yeast, Saccharomyces cerevisiae. J Cell Sci 122(Pt 12):2078-88 |
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| Marom L, et al. (2009) Diverse poly(A) binding proteins mediate internal translational initiation by a plant viral IRES. RNA Biol 6(4):446-54 |
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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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| Buchan JR, et al. (2008) P bodies promote stress granule assembly in Saccharomyces cerevisiae. J Cell Biol 183(3):441-55 |
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| Meaux S, et al. (2008) Nonsense-Mediated mRNA Decay in Yeast Does Not Require PAB1 or a Poly(A) Tail. Mol Cell 29(1):134-40 |
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| Viphakone N, et al. (2008) Molecular dissection of mRNA poly(A) tail length control in yeast. Nucleic Acids Res 36(7):2418-33 |
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| Beilharz TH and Preiss T (2007) Widespread use of poly(A) tail length control to accentuate expression of the yeast transcriptome. RNA 13(7):982-97 |
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| Brengues M and Parker R (2007) Accumulation of polyadenylated mRNA, Pab1p, eIF4E, and eIF4G with P-bodies in Saccharomyces cerevisiae. Mol Biol Cell 18(7):2592-602 |
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| Gross T, et al. (2007) The DEAD-box RNA helicase Dbp5 functions in translation termination. Science 315(5812):646-9 |
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| Hoyle NP, et al. (2007) Stress-dependent relocalization of translationally primed mRNPs to cytoplasmic granules that are kinetically and spatially distinct from P-bodies. J Cell Biol 179(1):65-74 |
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| Ohn T, et al. (2007) CAF1 plays an important role in mRNA deadenylation separate from its contact to CCR4. Nucleic Acids Res 35(9):3002-15 |
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| Simon E and Seraphin B (2007) A specific role for the C-terminal region of the Poly(A)-binding protein in mRNA decay. Nucleic Acids Res 35(18):6017-28 |
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| Yao G, et al. (2007) PAB1 Self-Association Precludes Its Binding to Poly(A), Thereby Accelerating CCR4 Deadenylation In Vivo. Mol Cell Biol 27(17):6243-53 |
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| Brune C, et al. (2005) Yeast poly(A)-binding protein Pab1 shuttles between the nucleus and the cytoplasm and functions in mRNA export. RNA 11(4):517-31 |
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| Dheur S, et al. (2005) Yeast mRNA Poly(A) tail length control can be reconstituted in vitro in the absence of Pab1p-dependent Poly(A) nuclease activity. J Biol Chem 280(26):24532-8 |
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| Dunn EF, et al. (2005) Yeast poly(A)-binding protein, Pab1, and PAN, a poly(A) nuclease complex recruited by Pab1, connect mRNA biogenesis to export. Genes Dev 19(1):90-103 |
