XRN1/YGL173C Literature Guide 
Other names published for XRN1: DST2, RAR5, SEP1, SKI1, KEM1, YGL173C
XRN1 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
- Alias
- Additional Information
XRN1 - Alias (78)
| Reference | Other Genes Addressed |
|---|---|
| Suzuki T, et al. (2012) Lactic-acid stress causes vacuolar fragmentation and impairs intracellular amino-acid homeostasis in Saccharomyces cerevisiae. J Biosci Bioeng 113(4):421-30 |
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| Castells-Roca L, et al. (2011) The oxidative stress response in yeast cells involves changes in the stability of Aft1 regulon mRNAs. Mol Microbiol 81(1):232-48 |
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| Durand S and Lykke-Andersen J (2011) SnapShot: Nonsense-mediated mRNA decay. Cell 145(2):324-324.e2 |
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| Hurto RL and Hopper AK (2011) P-body components, Dhh1 and Pat1, are involved in tRNA nuclear-cytoplasmic dynamics. RNA 17(5):912-24 |
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| van Dijk EL, et al. (2011) XUTs are a class of Xrn1-sensitive antisense regulatory non-coding RNA in yeast.LID - 10.1038/nature10118 [doi] Nature () |
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| Mauchi N, et al. (2010) Stability Control of MTL1 mRNA by the RNA-Binding Protein Khd1p in Yeast. Cell Struct Funct 35(2):95-105 |
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| Talarek N, et al. (2010) Initiation of the TORC1-regulated G0 program requires Igo1/2, which license specific mRNAs to evade degradation via the 5'-3' mRNA decay pathway. Mol Cell 38(3):345-55 |
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| Cole SE, et al. (2009) A convergence of rRNA and mRNA quality control pathways revealed by mechanistic analysis of nonfunctional rRNA decay. Mol Cell 34(4):440-50 |
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| Fujii K, et al. (2009) A role for ubiquitin in the clearance of nonfunctional rRNAs. Genes Dev 23(8):963-74 |
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| Ghazal G, et al. (2009) Yeast RNase III triggers polyadenylation-independent transcription termination. Mol Cell 36(1):99-109 |
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| Holbein S, et al. (2009) Cordycepin interferes with 3' end formation in yeast independently of its potential to terminate RNA chain elongation. RNA 15(5):837-49 |
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| Hu W, et al. (2009) Co-translational mRNA decay in Saccharomyces cerevisiae. Nature 461(7261):225-9 |
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| Jaag HM and Nagy PD (2009) Silencing of Nicotiana benthamiana Xrn4p exoribonuclease promotes tombusvirus RNA accumulation and recombination. Virology 386(2):344-52 |
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| Lindahl L, et al. (2009) RNase MRP is required for entry of 35S precursor rRNA into the canonical processing pathway. RNA 15(7):1407-16 |
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| Passos DO, et al. (2009) Analysis of Dom34 and its function in no-go decay. Mol Biol Cell 20(13):3025-32 |
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| Schneider C, et al. (2009) The N-terminal PIN domain of the exosome subunit Rrp44 harbors endonuclease activity and tethers Rrp44 to the yeast core exosome. Nucleic Acids Res 37(4):1127-40 |
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| Brown JW, et al. (2008) Intronic noncoding RNAs and splicing. Trends Plant Sci 13(7):335-42 |
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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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| Chernyakov I, et al. (2008) Degradation of several hypomodified mature tRNA species in Saccharomyces cerevisiae is mediated by Met22 and the 5'-3' exonucleases Rat1 and Xrn1. Genes Dev 22(10):1369-80 |
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| Feldbrugge M, et al. (2008) The posttranscriptional machinery of Ustilago maydis. Fungal Genet Biol 45 Suppl 1:S40-6 |
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| Goler-Baron V, et al. (2008) Transcription in the nucleus and mRNA decay in the cytoplasm are coupled processes. Genes Dev 22(15):2022-7 |
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| Lund MK, et al. (2008) Autoregulation of Npl3, a yeast SR protein, requires a novel downstream region and serine phosphorylation. Mol Cell Biol 28(11):3873-81 |
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| Muhlemann O, et al. (2008) Recognition and elimination of nonsense mRNA. Biochim Biophys Acta 1779(9):538-49 |
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| Sayani S, et al. (2008) Widespread impact of nonsense-mediated mRNA decay on the yeast intronome. Mol Cell 31(3):360-70 |
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| Thompson DM, et al. (2008) tRNA cleavage is a conserved response to oxidative stress in eukaryotes. RNA 14(10):2095-103 |
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| Wilson MA, et al. (2008) Diverse aberrancies target yeast mRNAs to cytoplasmic mRNA surveillance pathways. Biochim Biophys Acta 1779(9):550-7 |
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| Zabolotskaya MV, et al. (2008) The 5'-3' exoribonuclease Pacman is required for normal male fertility and is dynamically localized in cytoplasmic particles in Drosophila testis cells. Biochem J 416(3):327-35 |
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| Zimmer SL, et al. (2008) Genome-Based Analysis of Chlamydomonas reinhardtii Exoribonucleases and Poly(A) Polymerases Predicts Unexpected Organellar and Exosomal Features. Genetics 179(1):125-36 |
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| Cheng CP, et al. (2007) Expression of the Arabidopsis Xrn4p 5'-3' exoribonuclease facilitates degradation of tombusvirus RNA and promotes rapid emergence of viral variants in plants. Virology 368(2):238-48 |
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| Oeffinger M, et al. (2007) Comprehensive analysis of diverse ribonucleoprotein complexes. Nat Methods 4(11):951-6 |
