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, RÉSUMÉ DE THÈSE Introduction et objectifs Les mitochondries possèdent leur propre génome. Toutefois la capacité de codage de leur ADN est restreinte à un jeu mineur de protéines et d'ARN. Chez le plus grand nombre des eucaryotes, la biogénèse et les fonctions mitochondriales requièrent donc l'import d'un grand nombre de protéines mais aussi de certains ARN. Alors que l'import mitochondrial des ARNt est observé chez de nombreux organismes, différents mécanismes ont apparemment été adaptés. Chez Saccharomyces cerevisiae, une petite fraction de l'ARNt Lys CUU (tRK1) est retrouvée dans la mitochondrie, bien que leur ADN code un jeu complet d'ARNt qui inclut l, ARNt Lys UUU, vol.11, issue.tRK3, p.524, 1992.
, import mitochondrial de tRK1 semble reposer sur la colaboration entre plusieurs protéines cytosoliques. Tout d'abord tRK1 est amino-acylé par la lysyl-ARNt synthétase cytosolique (KRS) (Tarassov et al, 1995b), puis reconnue spécifiquement par un complexe protéique contenant une des deux isoformes de l
, Eno2p transporte tRK1 vers la surface mitochondriale où il est pris en charge par le précurseur de la lysyl-ARNt synthétase mitochondriale (preMSK1p) (Tarassov et al, 1995b), qui est produite principalement à proximité des mitochondries (Entelis et al, 2006), Il a été suggéré qu'Eno2p discrimine entre les molecules à importer en induisant la formation d'une structure alternative dénommée forme F (Kolesnikova et al, 2006.
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