SNR14/snR14 Literature Guide 
- Summary
- Locus History
- Literature
- Gene Ontology
- Phenotype
- Interactions
- Wiki
Other names published for SNR14: U4, U4 snRNA, snR14
SNR14 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
- Other Topics
- Additional Information
SNR14 - Additional Literature (45)
| Reference | Other Genes Addressed |
|---|---|
| Li X, et al. (2013) Comprehensive in vivo RNA-binding site analyses reveal a role of Prp8 in spliceosomal assembly. Nucleic Acids Res 41(6):3805-18 |
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| Coltri PP and Oliveira CC (2012) Cwc24p Is a General Saccharomyces cerevisiae Splicing Factor Required for the Stable U2 snRNP Binding to Primary Transcripts. PLoS One 7(9):e45678 |
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| Kasahara K, et al. (2011) Hmo1 directs pre-initiation complex assembly to an appropriate site on its target gene promoters by masking a nucleosome-free region. Nucleic Acids Res 39(10):4136-50 |
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| Kucera NJ, et al. (2011) An intrinsically disordered C terminus allows the La protein to assist the biogenesis of diverse noncoding RNA precursors. Proc Natl Acad Sci U S A 108(4):1308-13 |
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| Martin-Tumasz S, et al. (2011) A novel occluded RNA recognition motif in Prp24 unwinds the U6 RNA internal stem loop. Nucleic Acids Res 39(17):7837-47 |
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| Schwer B, et al. (2011) Composition of yeast snRNPs and snoRNPs in the absence of trimethylguanosine caps reveals nuclear cap binding protein as a gained U1 component implicated in the cold-sensitivity of tgs1? cells. Nucleic Acids Res 39(15):6715-28 |
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| Taoka M, et al. (2010) In-Gel Digestion for Mass Spectrometric Characterization of RNA from Fluorescently Stained Polyacrylamide Gels. Anal Chem 82(18):7795-7803 |
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| Azzouz N, et al. (2009) The CCR4-NOT complex physically and functionally interacts with TRAMP and the nuclear exosome. PLoS One 4(8):e6760 |
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| Chang KJ, et al. (2009) Ntc90 is required for recruiting first step factor Yju2 but not for spliceosome activation. RNA 15(9):1729-39 |
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| Luhtala N and Parker R (2009) LSM1 over-expression in Saccharomyces cerevisiae depletes U6 snRNA levels. Nucleic Acids Res 37(16):5529-36 |
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| Zhang L, et al. (2009) Structural evidence for consecutive Hel308-like modules in the spliceosomal ATPase Brr2. Nat Struct Mol Biol 16(7):731-9 |
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| Hacker I, et al. (2008) Localization of Prp8, Brr2, Snu114 and U4/U6 proteins in the yeast tri-snRNP by electron microscopy. Nat Struct Mol Biol 15(11):1206-12 |
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| Stevens SW (2008) Purification of ribonucleoproteins using peptide-elutable antibodies and other affinity techniques. Methods Mol Biol 488:65-84 |
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| Tseng CK and Cheng SC (2008) Both catalytic steps of nuclear pre-mRNA splicing are reversible. Science 320(5884):1782-4 |
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| Clery A, et al. (2007) An improved definition of the RNA-binding specificity of SECIS-binding protein 2, an essential component of the selenocysteine incorporation machinery. Nucleic Acids Res 35(6):1868-84 |
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| Dobbyn HC, et al. (2007) Analysis of pre-mRNA and pre-rRNA processing factor Snu13p structure and mutants. Biochem Biophys Res Commun 360(4):857-62 |
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| Miyauchi K, et al. (2007) Automated parallel isolation of multiple species of non-coding RNAs by the reciprocal circulating chromatography method. Nucleic Acids Res 35(4):e24 |
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| Brenner TJ and Guthrie C (2006) Assembly of Snu114 into U5 snRNP requires Prp8 and a functional GTPase domain. RNA 12(5):862-71 |
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| Chen CH, et al. (2006) Functional links between the Prp19-associated complex, U4/U6 biogenesis, and spliceosome recycling. RNA 12(5):765-74 |
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| Egecioglu DE, et al. (2006) Contributions of Trf4p- and Trf5p-dependent polyadenylation to the processing and degradative functions of the yeast nuclear exosome. RNA 12(1):26-32 |
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| Turner IA, et al. (2006) Dissection of Prp8 protein defines multiple interactions with crucial RNA sequences in the catalytic core of the spliceosome. RNA 12(3):375-86 |
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| Chan SP and Cheng SC (2005) The Prp19-associated complex is required for specifying interactions of U5 and U6 with pre-mRNA during spliceosome activation. J Biol Chem 280(35):31190-9 |
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| Dobbyn HC and O'Keefe RT (2004) Analysis of Snu13p mutations reveals differential interactions with the U4 snRNA and U3 snoRNA. RNA 10(2):308-20 |
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| Verdone L, et al. (2004) Lsm proteins promote regeneration of pre-mRNA splicing activity. Curr Biol 14(16):1487-91 |
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| Chan SP, et al. (2003) The Prp19p-associated complex in spliceosome activation. Science 302(5643):279-82 |
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| Chanfreau G (2003) Conservation of RNase III processing pathways and specificity in hemiascomycetes. Eukaryot Cell 2(5):901-9 |
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| Mougin A, et al. (2002) Direct probing of RNA structure and RNA-protein interactions in purified HeLa cell's and yeast spliceosomal U4/U6.U5 tri-snRNP particles. J Mol Biol 317(5):631-49 |
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| Johnson TL and Abelson J (2001) Characterization of U4 and U6 interactions with the 5' splice site using a S. cerevisiae in vitro trans-splicing system. Genes Dev 15(15):1957-70 |
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| Shukla GC and Padgett RA (2001) The intramolecular stem-loop structure of U6 snRNA can functionally replace the U6atac snRNA stem-loop. RNA 7(1):94-105 |
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| Steinmetz EJ, et al. (2001) RNA-binding protein Nrd1 directs poly(A)-independent 3'-end formation of RNA polymerase II transcripts. Nature 413(6853):327-31 |
