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  • Author: Hatin I
  • References

Author: Hatin I


References 20 references


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  • Andjus S, et al. (2024) Pervasive translation of Xrn1-sensitive unstable long noncoding RNAs in yeast. RNA 30(6):662-679 PMID:38443115
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  • Papadopoulos C, et al. (2021) Intergenic ORFs as elementary structural modules of de novo gene birth and protein evolution. Genome Res 31(12):2303-2315 PMID:34810219
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  • Blanchet S, et al. (2018) Deciphering the reading of the genetic code by near-cognate tRNA. Proc Natl Acad Sci U S A 115(12):3018-3023 PMID:29507244
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  • Thiaville PC, et al. (2016) Global translational impacts of the loss of the tRNA modification t6A in yeast. Microb Cell 3(1):29-45 PMID:26798630
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  • Baudin-Baillieu A, et al. (2014) Genome-wide translational changes induced by the prion [PSI+]. Cell Rep 8(2):439-48 PMID:25043188
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  • Cosnier B, et al. (2011) Correction: A Viable Hypomorphic Allele of the Essential IMP3 Gene Reveals Novel Protein Functions in Saccharomyces cerevisiae.LID - 10.1371/annotation/18c67950-0fcc-4ba8-aa59-5d6a3e060c68 [doi] PLoS ONE 6(5)
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  • Cosnier B, et al. (2011) A viable hypomorphic allele of the essential IMP3 gene reveals novel protein functions in Saccharomyces cerevisiae. PLoS One 6(4):e19500 PMID:21559332
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  • El Yacoubi B, et al. (2011) A role for the universal Kae1/Qri7/YgjD (COG0533) family in tRNA modification. EMBO J 30(5):882-93 PMID:21285948
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  • Hatin I, et al. (2009) Molecular dissection of translation termination mechanism identifies two new critical regions in eRF1. Nucleic Acids Res 37(6):1789-98 PMID:19174561
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  • Fabret C, et al. (2008) A novel mutant of the Sup35 protein of Saccharomyces cerevisiae defective in translation termination and in GTPase activity still supports cell viability. BMC Mol Biol 9:22 PMID:18267004
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  • Hatin I, et al. (2007) Fine-tuning of translation termination efficiency in Saccharomyces cerevisiae involves two factors in close proximity to the exit tunnel of the ribosome. Genetics 177(3):1527-37 PMID:17483428
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  • Tork S, et al. (2004) The major 5' determinant in stop codon read-through involves two adjacent adenines. Nucleic Acids Res 32(2):415-21 PMID:14736996
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  • Namy O, et al. (2003) Identification of stop codon readthrough genes in Saccharomyces cerevisiae. Nucleic Acids Res 31(9):2289-96 PMID:12711673
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  • Kwapisz M, et al. (2002) Up-regulation of tRNA biosynthesis affects translational readthrough in maf1-delta mutant of Saccharomyces cerevisiae. Curr Genet 42(3):147-52 PMID:12491008
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  • Lecointe F, et al. (2002) Lack of pseudouridine 38/39 in the anticodon arm of yeast cytoplasmic tRNA decreases in vivo recoding efficiency. J Biol Chem 277(34):30445-53 PMID:12058040
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  • Namy O, et al. (2002) Gene overexpression as a tool for identifying new trans-acting factors involved in translation termination in Saccharomyces cerevisiae. Genetics 161(2):585-94 PMID:12072456
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  • Hatin I, et al. (2001) Translational errors as an early event in prion conversion. Cell Mol Biol (Noisy-le-grand) 47 Online Pub:OL23-8 PMID:11936870
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  • Namy O, et al. (2001) Impact of the six nucleotides downstream of the stop codon on translation termination. EMBO Rep 2(9):787-93 PMID:11520858
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  • Bidou L, et al. (2000) Nonsense-mediated decay mutants do not affect programmed -1 frameshifting. RNA 6(7):952-61 PMID:10917592
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  • Stahl G, et al. (2000) The case against the involvement of the NMD proteins in programmed frameshifting. RNA 6(12):1687-8 PMID:11142367
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