Anne Cosset scite author profile

Both endogenous processes and exogenous physical and chemical sources generate deoxyribonucleic acid (DNA) damage in the nucleus and organelles of living cells. To prevent deleterious effects, damage is balanced by repair pathways. DNA repair was first documented for the nuclear compartment but evidence was subsequently extended to the organelles. Mitochondria and chloroplasts possess their own repair processes. These share a number of factors with the nucleus but also rely on original mechanisms. Base excision repair remains the best characterized. Repair is organized with the other DNA metabolism pathways in the organelle membrane-associated nucleoids. DNA repair in mitochondria is a regulated, stress-responsive process. Organelle genomes do not encode DNA repair enzymes and translocation of nuclear-encoded repair proteins from the cytosol seems to be a major control mechanism. Finally, changes in the fidelity and efficiency of mitochondrial DNA repair are likely to be involved in DNA damage accumulation, disease and aging. The present review successively addresses these different issues.

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In vivo import of a normal or mutagenized heterologous transfer RNA into the mitochondria of transgenic plants: towards novel ways of influencing mitochondrial gene expression?

Small

et al. 1992

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Evidence that nuclear‐encoded RNAs are present inside mitochondria has been reported from a wide variety of organisms, and is presumed to be due to import of specific cytosolic RNAs. In plants, the first examples were the mitochondrial leucine transfer RNAs of bean. In all cases, the evidence is circumstantial, based on hybridization of the mitochondrial RNAs to nuclear and not mitochondrial DNA. Here we show that transgenic potato plants carrying a leucine tRNA gene from bean nuclear DNA contain RNA transcribed from the introduced gene both in the cytosol and inside mitochondria, providing proof that the mitochondrial leucine tRNA is derived from a nuclear gene and imported into the mitochondria. The same bean gene carrying a 4 bp insertion in the anticodon loop was also expressed in transgenic potato plants and the transcript found to be present inside mitochondria, suggesting that this natural RNA import system could eventually be used to introduce foreign RNA sequences into mitochondria.

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Transfer RNAs of potato (Solanum tuberosum) mitochondria have different genetic origins

et al. 1990

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Total transfer RNAs were extracted from highly purified potato mitochondria. From quantitative measurements, the in vivo tRNA concentration in mitochondria was estimated to be in the range of 60 microM. Total potato mitochondrial tRNAs were fractionated by two-dimensional polyacrylamide gel electrophoresis. Thirty one individual tRNAs, which could read all sense codons, were identified by aminoacylation, sequencing or hybridization to specific oligonucleotides. The tRNA population that we have characterized comprises 15 typically mitochondrial, 5 'chloroplast-like' and 11 nuclear-encoded species. One tRNA(Ala), 2 tRNAs(Arg), 1 tRNA(Ile), 5 tRNAs(Leu) and 2 tRNAs(Thr) were shown to be coded for by nuclear DNA. A second, mitochondrial-encoded, tRNA(Ile) was also found. Five 'chloroplast-like' tRNAs, tRNA(Trp), tRNA(Asn), tRNA(His), tRNA(Ser)(GGA) and tRNA(Met)m, presumably transcribed from promiscuous chloroplast DNA sequences inserted in the mitochondrial genome, were identified, but, in contrast to wheat (1), potato mitochondria do not seem to contain 'chloroplast-like' tRNA(Cys) and tRNA(Phe). The two identified tRNAs(Val), as well as the tRNA(Gly), were found to be coded for by the mitochondrial genome, which again contrasts with the situation in wheat, where the mitochondrial genome apparently contains no tRNA(Val) or tRNA(Gly) gene (2).

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In Vitro Import of a Nuclearly Encoded tRNA into Mitochondria of Solanum tuberosum

Delage

Dietrich

Cosset

et al. 2003

Molecular and Cellular Biology

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Some of the mitochondrial tRNAs of higher plants are nuclearly encoded and imported into mitochondria. The import of tRNAs encoded in the nucleus has been shown to be essential for proper protein translation within mitochondria of a variety of organisms. Here, we report the development of an in vitro assay for import of nuclearly encoded tRNAs into plant mitochondria. This in vitro system utilizes isolated mitochondria from Solanum tuberosum and synthetic tRNAs transcribed from cloned nuclear tRNA genes. Although incubation of radioactively labeled in vitro-transcribed tRNA Ala , tRNA Phe , and tRNA Met-e with isolated potato mitochondria resulted in importation, as measured by nuclease protection, the amount of tRNA transcripts protected at saturation was at least five times higher for tRNA Ala than for the two other tRNAs. This difference in in vitro saturation levels of import is consistent with the in vivo localization of these tRNAs, since cytosolic tRNA Ala is naturally imported into potato mitochondria whereas tRNA Phe and tRNA Met-e are not. Characterization of in vitro tRNA import requirements indicates that mitochondrial tRNA import proceeds in the absence of any added cytosolic protein fraction, involves at least one protein component on the surface of mitochondria, and requires ATP-dependent step(s) and a membrane potential.

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Anne Cosset

DNA repair in organelles: Pathways, organization, regulation, relevance in disease and aging

In vivo import of a normal or mutagenized heterologous transfer RNA into the mitochondria of transgenic plants: towards novel ways of influencing mitochondrial gene expression?

Transfer RNAs of potato (Solanum tuberosum) mitochondria have different genetic origins

In Vitro Import of a Nuclearly Encoded tRNA into Mitochondria of Solanum tuberosum

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