Remy Hauser scite author profile

Remy Hauser

4Publications

84Citation Statements Received

65Citation Statements Given

How they've been cited

184

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124

Affiliations

University of Fribourg, University of Basel

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tRNAs are imported into mitochondria of Trypanosoma brucei independently of their genomic context and genetic origin.

Hauser

Schneider

1995

The EMBO Journal

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The mitochondrial genome of Trypanosoma brucei does not encode any identifiable tRNAs. Instead, mitochondrial tRNAs are synthesized in the nucleus and subsequently imported into mitochondria. In order to analyse the signals which target the tRNAs into the mitochondria, an in vivo import system has been developed: tRNA variants were expressed episomally and their import into mitochondria assessed by purification and nuclease treatment of the mitochondrial fraction. Three tRNA genes were tested in this system: (i) a mutated version of the trypanosomal tRNA(Tyr); (ii) a cytosolic tRNA(His) of yeast; and (iii) a human cytosolic tRNA(Lys). The tRNAs were expressed in their own genomic context, or containing various lengths of the 5′‐flanking sequence of the trypanosomal tRNA(Tyr) gene. In all cases efficient import of each of the tRNAs was observed. We independently confirmed the mitochondrial import of the yeast tRNA(His), since in organello [alpha‐32P]ATP‐labelling of the 3′‐end of the tRNA was inhibited by carboxyatractyloside, a highly specific inhibitor of the mitochondrial adenine nucleotide translocator. Import of heterologous tRNAs in their own genomic contexts supports the conclusion that no specific targeting signals are necessary to import tRNAs into mitochondria of T. brucei, but rather that the tRNA structure itself is sufficient to specify import.

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Leishmania tarentolae contains distinct cytosolic and mitochondrial glutaminyl–tRNA synthetase activities

Nabholz

Hauser²,

Schneider³

1997

Proc. Natl. Acad. Sci. U.S.A.

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The intracellular distribution of glutaminyltRNA synthetases and their role in mitochondrial tRNA import were evaluated in the ancient eukaryote Leishmania tarentolae. The following results were obtained: (i) Glutaminyl-tRNA synthetase was detected in leishmanial mitochondria. This was unexpected because it has been postulated that, in organelles, Gln-tRNA Gln is not formed by direct acylation of tRNA Gln but by enzymatic transamidation of misacylated Glu-tRNA Gln .(ii) Whereas the cytosolic extract is able to charge cytosolic and mitochondrial tRNAs Gln , the mitochondrial matrix extract does not aminoacylate the cytosol-specific tRNA Gln . This indicates that mitochondrial and cytosolic glutaminyl-tRNA synthetases are distinct. (iii) Seven of the 11 nucleotides that differ between the cytosolic and the mitochondrial tRNA Gln are sufficient to convert the cytosolspecific tRNA Gln into an optimal substrate for the mitochondrial enzyme. These nucleotides are arranged in three groups consisting of the nucleotides f lanking the anticodon stem, the 5 nucleotide of the anticodon, and four nucleotides within the acceptor stem. And (iv), it was shown that the identity elements for recognition by the mitochondrial glutaminyltRNA synthetase do not overlap with a previously identified sequence segment required for mitochondrial import of the tRNA Gln .

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In vivo import of unspliced tRNATyr containing synthetic introns of variable length into mitochondria of Leishmania tarentolae

Sbicego¹,

Nabholz²,

Hauser

et al. 1998

Nucleic Acids Research

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The mitochondrial genomes of trypanosomatids lack tRNA genes. Instead, mitochondrial tRNAs are encoded and synthesized in the nucleus and are then imported into mitochondria. This also applies for tRNATyr, which in trypanosomatids contains an 11 nt intron. Previous work has defined an exon mutation which leads to accumulation of unspliced precursor tRNATyr. In this study we have used the splicing-deficient tRNATyr as a vehicle to introduce foreign sequences into the mitochondrion of Leishmania tarentolae. The naturally occurring intron was replaced by synthetic sequences of increasing length and the resulting tRNATyr precursors were expressed in transgenic cell lines. Whereas stable expression of precursor tRNAsTyr was obtained for introns up to a length of 76 nt, only precursors having introns up to 38 nt were imported into mitochondria. These results demonstrate that splicing-deficient tRNATyr can be used to introduce short synthetic sequences into mitochondria in vivo. In addition, our results show that one factor which limits the efficiency of import is the length of the molecule.

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In vitro import of proteins into mitochondria of Trypanosoma brucei and Leishmania tarentolae

Hauser

Pypaert

Häusler

et al. 1996

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In eukaryotic evolution, the earliest branch of organisms to have mitochondria are the trypanosomatids. Their mitochondrial biogenesis not only includes import of most proteins, but also, unlike in other organisms, import of the whole set of tRNAs. In order to investigate these processes, we devised novel procedures for the isolation of mitochondria from two trypanosomatid species: Trypanosoma brucei and Leishmania tarentolae. Isotonic cell lysis followed by equilibrium density centrifugation in Nycodenz gradients yielded mitochondrial fractions exhibiting a membrane potential. Furthermore, we have used these fractions to reconstitute import of mitochondrial matrix proteins in vitro. Energy-dependent uptake of an artificial precursor protein, containing a trypanosomal presequence attached to mouse dihydrofolate reductase and of yeast mitochondrial alcohol dehydrogenase could be demonstrated. The presequences of both proteins were processed in T. brucei whereas only the trypanosomal one was cleaved in L. tarentolae. Trypsin pretreatment abolished the ability of the mitochondria to import proteins, indicating the involvement of proteinaceous components at the surface of mitochondria.

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Remy Hauser

tRNAs are imported into mitochondria of Trypanosoma brucei independently of their genomic context and genetic origin.

Leishmania tarentolae contains distinct cytosolic and mitochondrial glutaminyl–tRNA synthetase activities

In vivo import of unspliced tRNATyr containing synthetic introns of variable length into mitochondria of Leishmania tarentolae

In vitro import of proteins into mitochondria of Trypanosoma brucei and Leishmania tarentolae

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