Efficient translation of the UAG termination codon in Candida species

Abstract

Clinical isolates of the dimorphic fungus Candida albicans encode a tRNA that, in a cell-free translation system prepared from the yeast Saccharomyces cerevisiae, efficiently translates the amber (UAG) termination codon. Unusually, the efficiency of this UAG read-through in the heterologous cell-free system is not further enhanced by polyamines. The suppressor tRNA is also able to efficiently translate the UAG codon in the rabbit reticulocyte cell-free system and with efficiencies approaching 100% in a homologous (C. albicans) cell-free system. That the suppressor tRNA is nuclear-encoded is demonstrated by the lack of activity in purified C. albicans mitochondrial tRNAs. Finally, UAG suppressor tRNA activity is also demonstrated in three other pathogenic Candida species, C. parapsilosis, C. guillermondii and C. tropicalis. These results suggest that some, but not all, Candida species have evolved an unusual nuclear genetic code in which UAG is used as a sense codon.