SUF5/tG(CCC)O Literature Guide

Other names published for SUF5: tG(CCC)O

SUF5 LITERATURE TOPICS

Curated Literature

Genetics/Cell Biology

Nucleic Acid Information

Gene Product Information

Substrates/Ligands/Cofactors

Related Genes/Proteins

Research Aids

Strains/Constructs

Genome-wide Analysis

Other Topics

Evolution

Additional Information

SUF5 Literature Curation Summary

Curated References for SUF5: 28

Date of last curation: 2013-02-06

Reference	Other Genes Addressed
Milliman EJ, et al. (2012) Genomic insights of protein arginine methyltransferase Hmt1 binding reveals novel regulatory functions. BMC Genomics 13(1):728	BDP1 \| HMT1 \| HSX1 \| SUF3 \| tL(UAG)J \| tL(UAG)L1 \| tL(UAG)L2 \| tT(UAG)Q2
Hopper AK, et al. (2010) Cellular dynamics of tRNAs and their genes. FEBS Lett 584(2):310-7	AIR1 \| AIR2 \| BDP1 \| BRF1 \| CDC65 \| DUS1 \| DUS3 \| DUS4 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| HSX1 \| MORE
Ouameur AA, et al. (2010) Probing tRNA interaction with biogenic polyamines. RNA 16(10):1968-79	EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| HSX1 \| IMT1 \| IMT2 \| IMT3 \| IMT4 \| SOE1 \| SUF1 \| SUF10 \| SUF11 \| MORE
Atkins JF and Bjork GR (2009) A gripping tale of ribosomal frameshifting: extragenic suppressors of frameshift mutations spotlight P-site realignment. Microbiol Mol Biol Rev 73(1):178-210	EBS1 \| NAM7 \| NMD2 \| RPL16A \| RPL16B \| RPL27A \| RPL27B \| RPL5 \| RPS13 \| RPS9A \| RPS9B \| SUF10 \| SUF16 \| SUF2 \| MORE
Chan PP and Lowe TM (2009) GtRNAdb: a database of transfer RNA genes detected in genomic sequence. Nucleic Acids Res 37(Database issue):D93-7	CDC65 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| HSX1 \| IMT1 \| IMT2 \| IMT3 \| IMT4 \| SOE1 \| SUF1 \| SUF10 \| MORE
Li Y and Zhou H (2009) tRNAs as regulators in gene expression. Sci China C Life Sci 52(3):245-52	CDC65 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| HSX1 \| IMT1 \| IMT2 \| IMT3 \| IMT4 \| SOE1 \| SUF1 \| SUF10 \| MORE
McFarlane RJ and Whitehall SK (2009) tRNA genes in eukaryotic genome organization and reorganization. Cell Cycle 8(19):3102-6	BDP1 \| BRF1 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| ETC1 \| ETC2 \| ETC3 \| ETC4 \| ETC6 \| ETC7 \| ETC8 \| MORE
Wang X, et al. (2009) Mutation in MTO1 involved in tRNA modification impairs mitochondrial RNA metabolism in the yeast Saccharomyces cerevisiae. Mitochondrion 9(3):180-5	ATP6 \| CDC65 \| COX2 \| COX3 \| COX9 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| HSX1 \| IMT1 \| IMT2 \| IMT3 \| MORE
Johansson MJ, et al. (2008) Eukaryotic wobble uridine modifications promote a functionally redundant decoding system. Mol Cell Biol 28(10):3301-12	CDC65 \| ELP3 \| HSX1 \| NCS6 \| SUF10 \| SUF2 \| SUF3 \| SUP61 \| tE(CUC)D \| tE(CUC)I \| TRM9 \| TRT2 \| tV(CAC)D \| tV(CAC)H \| MORE
Thompson DM, et al. (2008) tRNA cleavage is a conserved response to oxidative stress in eukaryotes. RNA 14(10):2095-103	CCA1 \| CDC65 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| HSX1 \| HTS1 \| IMT1 \| IMT2 \| IMT3 \| IMT4 \| PAP2 \| MORE
Ciesla M, et al. (2007) Maf1 Is Involved in Coupling Carbon Metabolism to RNA Polymerase III Transcription. Mol Cell Biol 27(21):7693-702	CDC25 \| CDC65 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| HSX1 \| IMT1 \| IMT2 \| IMT3 \| IMT4 \| MAF1 \| RAS2 \| MORE
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	CDC65 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| HSX1 \| IMT1 \| IMT2 \| IMT3 \| IMT4 \| SOE1 \| SUF1 \| SUF10 \| MORE
Wang X, et al. (2007) Deletion of the MTO2 gene related to tRNA modification causes a failure in mitochondrial RNA metabolism in the yeast Saccharomyces cerevisiae. FEBS Lett 581(22):4228-34	15S_RRNA \| ATP6 \| CDC65 \| COB \| COX1 \| COX2 \| COX3 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| OLI1 \| SLM3 \| MORE
Goodenbour JM and Pan T (2006) Diversity of tRNA genes in eukaryotes. Nucleic Acids Res 34(21):6137-46	CDC65 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| HSX1 \| IMT1 \| IMT2 \| IMT3 \| IMT4 \| SOE1 \| SUF1 \| SUF10 \| MORE
Hopper AK (2006) Cellular dynamics of small RNAs. Crit Rev Biochem Mol Biol 41(1):3-19	CDC65 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| HSX1 \| IMT1 \| IMT2 \| IMT3 \| IMT4 \| LSR1 \| NME1 \| SNR10 \| MORE
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	CDC65 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| HSX1 \| IMT1 \| IMT2 \| IMT3 \| IMT4 \| RPR1 \| SCR1 \| SNR52 \| MORE
Giuliodori S, et al. (2003) A composite upstream sequence motif potentiates tRNA gene transcription in yeast. J Mol Biol 333(1):1-20	BRF1 \| CDC65 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| HSX1 \| IMT1 \| IMT2 \| IMT3 \| IMT4 \| SOE1 \| SUF1 \| MORE
Hopper AK and Phizicky EM (2003) tRNA transfers to the limelight. Genes Dev 17(2):162-80	CDC65 \| DEG1 \| DUS1 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| GCD10 \| GCD14 \| HSX1 \| IMT1 \| IMT2 \| IMT3 \| MORE
Sundararajan A, et al. (1999) Near-cognate peptidyl-tRNAs promote +1 programmed translational frameshifting in yeast. Mol Cell 4(6):1005-15	SUF3 \| tV(CAC)D \| tV(CAC)H
Hani J and Feldmann H (1998) tRNA genes and retroelements in the yeast genome. Nucleic Acids Res 26(3):689-96	CDC65 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| HSX1 \| IMT1 \| IMT2 \| IMT3 \| IMT4 \| SOE1 \| SUF1 \| SUF10 \| MORE
Percudani R, et al. (1997) Transfer RNA gene redundancy and translational selection in Saccharomyces cerevisiae. J Mol Biol 268(2):322-30	CDC65 \| EMT1 \| EMT2 \| EMT3 \| EMT4 \| EMT5 \| HSX1 \| IMT1 \| IMT2 \| IMT3 \| IMT4 \| SOE1 \| SUF1 \| SUF10 \| MORE
Haffter P, et al. (1990) A genetic link between an mRNA-specific translational activator and the translation system in yeast mitochondria. Genetics 125(3):495-503	PET122 \| PET123 \| PET494 \| PET54
Ball CB, et al. (1988) The yeast SUF5 frameshift suppressor encodes a mutant glycine tRNA(CCC). Nucleic Acids Res 16(17):8712
Gaber RF and Culbertson MR (1982) Frameshift suppression in Saccharomyces cerevisiae. IV. New suppressors among spontaneous co-revertants of the Group II his4-206 and leu 2-3 frameshift mutations. Genetics 101(3-4):345-67	ADE3 \| CEN16 \| CEN6 \| HIS2 \| HIS4 \| LEU2 \| LYS4 \| MAK10 \| MBF1 \| MIN1 \| PET18 \| RPS3 \| SER2 \| SUF1 \| MORE
Culbertson MR, et al. (1980) Frameshift suppression Saccharomyces cerevisiae. II. Genetic properties of group II suppressors. Genetics 95(4):833-53	HIS4 \| LEU2 \| NAM7 \| NMD2 \| SER1 \| SUF1 \| SUF3 \| SUF4 \| SUF6
Cummins CM, et al. (1980) Frameshift suppression in Saccharomyces cerevisiae. III. Isolation and genetic properties of group III suppressors. Genetics 95(4):855-79	ADE3 \| CCS1 \| CDC12 \| CDC5 \| CEN6 \| HIS4 \| PET3 \| PET8 \| SER2 \| SUF1 \| SUF10 \| SUF11 \| SUF2 \| SUF3 \| MORE
Culbertson MR, et al. (1977) Frameshifts and frameshift suppressors in Saccharomyces cerevisiae. Genetics 86(4):745-64	GLY1 \| HIS4 \| LEU2 \| SUF1 \| SUF11 \| SUF2 \| SUF3 \| SUF4 \| SUF6 \| SUF7 \| SUF9
Hilbers CW, et al. (1976) Thermal unfolding of yeast glycine transfer RNA. Biochemistry 15(9):1874-82	SUF1 \| SUF16 \| SUF17 \| SUF20 \| SUF3 \| SUF4 \| SUF6 \| tG(GCC)B \| tG(GCC)D1 \| tG(GCC)D2 \| tG(GCC)E \| tG(GCC)F2 \| tG(GCC)G1 \| tG(GCC)G2 \| MORE