SUP6/tY(GUA)F2 Literature Guide 
- Summary
- Locus History
- Literature
- Gene Ontology
- Phenotype
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Other names published for SUP6: tY(GUA)F2
SUP6 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
SUP6 - Additional Literature (41)
| Reference | Other Genes Addressed |
|---|---|
| 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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| Yukawa Y, et al. (2011) A common sequence motif involved in selection of transcription start sites of Arabidopsis and budding yeast tRNA genes. Genomics 97(3):166-72 |
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| Ouameur AA, et al. (2010) Probing tRNA interaction with biogenic polyamines. RNA 16(10):1968-79 |
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| Yokogawa T, et al. (2010) Incorporation of 3-Azidotyrosine into Proteins Through Engineering Yeast Tyrosyl-tRNA Synthetase and Its Application to Site-Selective Protein Modification. Methods Mol Biol 607():227-42 |
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| Yokogawa T, et al. (2009) Preparation of an ochre suppressor tRNA recognizing exclusively UAA codon by using the molecular surgery technique. Nucleic Acids Symp Ser (Oxf)(53):295-6 |
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| Copela LA, et al. (2008) Competition between the Rex1 exonuclease and the La protein affects both Trf4p-mediated RNA quality control and pre-tRNA maturation. RNA 14(6):1214-27 |
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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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| Ciesla M, et al. (2007) Maf1 Is Involved in Coupling Carbon Metabolism to RNA Polymerase III Transcription. Mol Cell Biol 27(21):7693-702 |
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| Jako E, et al. (2007) In silico detection of tRNA sequence features characteristic to aminoacyl-tRNA synthetase class membership. Nucleic Acids Res 35(16):5593-609 |
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| Fukunaga J, et al. (2006) Misacylation of yeast amber suppressor tRNA(Tyr) by E. coli lysyl-tRNA synthetase and its effective repression by genetic engineering of the tRNA sequence. J Biochem 139(4):689-96 |
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| Fukunaga J, et al. (2006) Use of RNase P for efficient preparation of yeast tRNATyr transcript and its mutants. J Biochem 139(1):123-7 |
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| Goodenbour JM and Pan T (2006) Diversity of tRNA genes in eukaryotes. Nucleic Acids Res 34(21):6137-46 |
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| Kusakabe Y, et al. (2006) Crystallization and preliminary X-ray crystallographic analysis of yeast tyrosyl-tRNA synthetase complexed with its cognate tRNA. Protein Pept Lett 13(4):417-9 |
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| Marck C, et al. (2006) The RNA polymerase III-dependent family of genes in hemiascomycetes: comparative RNomics, decoding strategies, transcription and evolutionary implications. Nucleic Acids Res 34(6):1816-35 |
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| Schuster J, et al. (2005) Is yeast on its way to evolving tRNA editing? EMBO Rep 6(4):367-72 |
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| Takano A, et al. (2005) tRNA actively shuttles between the nucleus and cytosol in yeast. Science 309(5731):140-2 |
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| Behm-Ansmant I, et al. (2003) The Saccharomyces cerevisiae U2 snRNA:pseudouridine-synthase Pus7p is a novel multisite-multisubstrate RNA:Psi-synthase also acting on tRNAs. RNA 9(11):1371-82 |
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| Giuliodori S, et al. (2003) A composite upstream sequence motif potentiates tRNA gene transcription in yeast. J Mol Biol 333(1):1-20 |
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| Ito-Harashima S, et al. (2002) The tRNA-Tyr gene family of Saccharomyces cerevisiae: agents of phenotypic variation and position effects on mutation frequency. Genetics 161(4):1395-410 |
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| Gruic-Sovulj I, et al. (1997) Detection of noncovalent tRNA.aminoacyl-tRNA synthetase complexes by matrix-assisted laser desorption/ionization mass spectrometry. J Biol Chem 272(51):32084-91 |
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| Ursic D, et al. (1997) The yeast SEN1 gene is required for the processing of diverse RNA classes. Nucleic Acids Res 25(23):4778-85 |
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| Eki T, et al. (1996) Fifteen open reading frames in a 30.8 kb region of the right arm of chromosome VI from Saccharomyces cerevisiae. Yeast 12(2):177-90 |
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| Murakami Y, et al. (1995) Analysis of the nucleotide sequence of chromosome VI from Saccharomyces cerevisiae. Nat Genet 10(3):261-8 |
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| Ho CK, et al. (1990) Accumulation of pre-tRNA splicing '2/3' intermediates in a Saccharomyces cerevisiae mutant. EMBO J 9(4):1245-52 |
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| Kohrer K, et al. (1990) A yeast tRNA precursor containing a pre-mRNA intron is spliced via the pre-mRNA splicing mechanism. EMBO J 9(3):705-9 |
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| Choffat Y, et al. (1988) Pseudouridine modification in the tRNA(Tyr) anticodon is dependent on the presence, but independent of the size and sequence, of the intron in eucaryotic tRNA(Tyr) genes. Mol Cell Biol 8(8):3332-7 |
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| Straby KB (1988) A yeast tRNA(Arg) gene can act as promoter for a 5' flank deficient, non-transcribable tRNA(SUP)6 gene to produce biologically active suppressor tRNA. Nucleic Acids Res 16(7):2841-57 |
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| Haumont E, et al. (1987) Enzymatic formation of queuosine and of glycosyl queuosine in yeast tRNAs microinjected into Xenopus laevis oocytes. The effect of the anticodon loop sequence. Eur J Biochem 168(1):219-25 |
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| Stillman DJ, et al. (1984) Correlations between transcription of a yeast tRNA gene and transcription factor-DNA interactions. J Biol Chem 259(12):7955-62 |
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| Swerdlow H and Guthrie C (1984) Structure of intron-containing tRNA precursors. Analysis of solution conformation using chemical and enzymatic probes. J Biol Chem 259(8):5197-207 |
