Nicola Altamura scite author profile

In Saccharomyces cerevisiae the UPF1 protein is required for nonsense-mediated mRNA decay, the accelerated turnover of mRNAs containing a nonsense mutation. Several lines of evidence suggest that translation plays an important role in the mechanism of nonsense mRNA decay, including a previous report that nonsense mRNAs assemble in polyribosomes. In this study we show that UPF1 and ribosomal protein L1 co-localize in the cytoplasm and that UPF1 co-sediments with polyribosomes. To detect UPF1, three copies of the influenza hemagglutinin epitope were placed at the C-terminus. The tagged protein, UPF1-3EP, retains 86% (+/- 5%) of function. Using immunological detection, we found that UPF1-3EP is primarily cytoplasmic and was not detected either in the nucleus or in the mitochondrion. UPF1-3EP and L1 co-distributed with polyribosomes fractionated in a 7-47% sucrose gradient. The sucrose sedimentation profiles for UPF1-3EP and L1 exhibited similar changes using three different sets of conditions that altered the polyribosome profile. When polyribosomes were disaggregated, UPF1-3EP and L1 accumulated in fractions coincident with 80S ribosomal particles. These results suggest that UPF1-3EP associates with polyribosomes. L3 and S3 mRNAs, which code for ribosomal proteins of the 60S and 40S ribosomal subunits, respectively, were on average about 100-fold more abundant than UPF1 mRNA. Assuming that translation rates for L3, S3, and UPF1 mRNA are similar, this result suggests that there are far fewer UPF1 molecules than ribosomes per cell. Constraints imposed by the low UPF1 abundance on the functional relationships between UPF1, polyribosomes, and nonsense mRNA turnover are discussed.

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The Saccharomyces cerevisiae OXA1 gene is required for the correct assembly of cytochrome c oxidase and oligomycin‐sensitive ATP synthase

Altamura

et al. 1996

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The nuclear gene OXAI was first isolated in Saccharomyces cevevisiae and found to be required a~ a posttranslational step in cytochrome c oxidase biogenesis, probably at the level of assembly. Mutations in OXAI lead to a complete respiratory deficiency. The protein Oxalp is conserved through evolution and a human homolog has been Isolated by functional complementatlon of a yeast oxal-mutant. In order to further our understanding of the role of Oxalp, we have constructed two yeast strains in which the OXAI open reading frame was almost totally deleted. Cytochrome spectra and enzymatic activity measurements show the absence of heine as3 and of a cytochrome e oxido-reductase activity and dramatic decrease of the oligomycin sensitive ATPase activity. Analysis of the respiratory complexes in non-denaturing gels reveals that Oxalp is necessary for the correct assembly of the cytochrome c oxidase and the ATP synthase complex.

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Redundancy in the function of mitochondrial phosphate transport in Saccharomyces cerevisiae and Arabidopsis thaliana

Hamel

Saint-Georges

Pinto

et al. 2004

Molecular Microbiology

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NAM7 nuclear gene encodes a novel member of a family of helicases with a Zn-ligand motif and is involved in mitochondrial functions in Saccharomyces cerevisiae

Altamura¹,

Groudinsky

Dujardin

et al. 1992

Journal of Molecular Biology

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Aquaporin-8-facilitated mitochondrial ammonia transport

Soria

Fanelli

Altamura

et al. 2010

Biochemical and Biophysical Research Communications

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Nicola Altamura

The majority of yeast UPF1 co-localizes with polyribosomes in the cytoplasm.

The Saccharomyces cerevisiae OXA1 gene is required for the correct assembly of cytochrome c oxidase and oligomycin‐sensitive ATP synthase

Redundancy in the function of mitochondrial phosphate transport in Saccharomyces cerevisiae and Arabidopsis thaliana

NAM7 nuclear gene encodes a novel member of a family of helicases with a Zn-ligand motif and is involved in mitochondrial functions in Saccharomyces cerevisiae

Aquaporin-8-facilitated mitochondrial ammonia transport

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