George Simos scite author profile

Arc1p was found in a screen for components that interact genetically with Los1p, a nuclear pore‐associated yeast protein involved in tRNA biogenesis. Arc1p is associated with two proteins which were identified as methionyl‐tRNA and glutamyl‐tRNA synthetase (MetRS and GluRS) by a new mass spectrometry method. ARC1 gene disruption leads to slow growth and reduced MetRS activity, and synthetically lethal arc1‐ mutants are complemented by the genes for MetRS and GluRS. Recombinant Arc1p binds in vitro to purified monomeric yeast MetRS, but not to an N‐terminal truncated form, and strongly increases its apparent affinity for tRNAMet. Furthermore, Arc1p, which is allelic to the quadruplex nucleic acid binding protein G4p1, exhibits specific binding to tRNA as determined by gel retardation and UV‐cross‐linking. Arc1p is, therefore, a yeast protein with dual specificity: it associates with tRNA and aminoacyl‐tRNA synthetases. This functional interaction may be required for efficient aminoacylation in vivo.

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A Conserved Domain within Arc1p Delivers tRNA to Aminoacyl-tRNA Synthetases

Simos

Sauer

Fasiolo³

et al. 1998

Molecular Cell

123

197

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Two yeast enzymes that catalyze aminoacylation of tRNAs, MetRS and GluRS, form a complex with the protein Arc1p. We show here that association of Arc1p with MetRS and GluRS is required in vivo for effective recruitment of the corresponding cognate tRNAs within this complex. Arc1p is linked to MetRS and GluRS through its amino-terminal domain, while its middle and carboxy-terminal parts comprise a novel tRNA-binding domain. This results in high affinity binding of cognate tRNAs and increased aminoacylation efficiency. These findings suggest that Arc1p operates as a mobile, trans-acting tRNA-binding synthetase domain and provide new insight into the role of eukaryotic multimeric synthetase complexes.

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An aminoacylation-dependent nuclear tRNA export pathway in yeast

Großhans¹,

Hurt²,

Simos³

2000

Genes Dev.

161

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Yeast Los1p, the homolog of human exportin-t, mediates nuclear export of tRNA. Using fluorescence in situ hybridization, we could show that the export of some intronless tRNA species is not detectably affected by the disruption of LOS1. To find other factors that facilitate tRNA export, we performed a suppressor screen of a synthetically lethal los1 mutant and identified the essential translation elongation factor eEF-1A. Mutations in eEF-1A impaired nuclear export of all tRNAs tested, which included both spliced and intronless species. An even stronger defect in nuclear exit of tRNA was observed under conditions that inhibited tRNA aminoacylation. In all cases, inhibition of tRNA export led to nucleolar accumulation of mature tRNAs. Our data show that tRNA aminoacylation and eEF-1A are required for efficient nuclear tRNA export in yeast and suggest coordination between the protein translation and the nuclear tRNA processing and transport machineries.

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Cloning and characterization of the Schizosaccharomyces pombe tRNA:pseudouridine synthase Pus1p

Hellmuth¹,

Grosjean²,

Motorin³

et al. 2000

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Saccharomyces cerevisiae cells that carry deletions in both the LOS1 (a tRNA export receptor) and the PUS1 (a tRNA:pseudouridine synthase) genes exhibit a thermosensitive growth defect. A Schizosaccharomyces pombe gene, named spPUS1, was cloned from a cDNA library by complementation of this conditional lethal phenotype. The corresponding protein, spPus1p, shows sequence similarity to S. cerevisiae and murine Pus1p as well as other known members of the pseudouridine synthase family. Accordingly, recombinant spPus1p can catalyze in vitro the formation of pseudouridines at positions 27, 28, 34, 35 and 36 of yeast tRNA transcripts. The sequence and functional conservation of the Pus1p proteins in fungi and mammalian species and their notable absence from prokaryotes suggest that this family of pseudouridine synthases is required for a eukaryote-specific step of tRNA biogenesis, such as nuclear export.

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Short-term hypoxia triggers ROS and SAFB mediated nuclear matrix and mRNA splicing remodeling

et al. 2022

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George Simos

The yeast protein Arc1p binds to tRNA and functions as a cofactor for the methionyl- and glutamyl-tRNA synthetases.

A Conserved Domain within Arc1p Delivers tRNA to Aminoacyl-tRNA Synthetases

An aminoacylation-dependent nuclear tRNA export pathway in yeast

Cloning and characterization of the Schizosaccharomyces pombe tRNA:pseudouridine synthase Pus1p

Short-term hypoxia triggers ROS and SAFB mediated nuclear matrix and mRNA splicing remodeling

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