Every messenger RNA from leishmanias and trypanosomes has at its 5' end a conserved region termed the mini-exon sequence which, however, varies from species to species. In a systematic study mRNAs from Trypanosoma brucei, Trypanosoma vivax, and Leishmania enriettii were translated in cell-free extracts in the presence of oligodeoxynucleotides complementary to part of the mini-exon sequence. The affinity of the same oligonucleotides for target and non-target mRNAs was determined by thermal elution of filter-bound complexes showing that the critical temperature of half-dissociation of the complexes was linearly related to log (l + x), where l is the length of the oligomer and x its G + C content. A few oligomers exhibited a lower Tc value than expected which was ascribed to the presence of modified RNA bases or to the existence of a hairpin structure in the L. enriettii mini-exon. In most cases the efficiency of translation inhibition by the oligonucleotides was clearly correlated to their affinity for the target RNA. The modified bases weakened the inhibition of protein synthesis by oligonucleotides complementary to these regions.
The gene encoding ribosomal protein L25, a primary rRNA-binding protein, was isolated from the protozoan parasite Trypanosoma brucei. Hybridization studies indicate that multiple copies of the gene are present per T. brucei haploid genome. The C-terminal domain of L25 protein from T. brucei is strikingly similar to L23a protein from rat, L25 proteins from fungal species, and L23 proteins from eubacteria, archaebacteria, and chloroplasts. A phylogenetic analysis of L23/25 proteins and the putative binding sites on their respective LSU-rRNAs (large subunit rRNAs) provides a rare opportunity to study molecular co-evolution between an RNA molecule and the protein that binds to it.
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