Phylogenetic analysis of the 5' subterminal region of isolates of Leishmania RNA virus-1.

Leishmania RNA virus-1 (LRV1) is a double-stranded RNA virus present in some Leishmania species. The virus genome consists of a 450-nucleotide, 5' untranslated region (UTR) followed by the coat gene and the RNA-dependent RNA polymerase (RDRP). It has been shown that the 5' end UTR of the genome promotes internal initiation of translation in an in-vitro assay, indicating the presence of an internal ribosomal entry site (IRES) element upstream of the coat gene. The nucleotide sequences of the 5' subterminal regions of six new isolates of LRV1, of different geographical origins, have now been determined. The RNA folding of the 5' subterminal region of LRV1 has been predicted, using a combination of thermodynamic parameters and folding constraints based on nucleotide substitutions. Furthermore, a putative pyrimidine-rich region (a feature unique to all IRES elements), which is complementary to the Leishmania 18S rRNA, has been identified. The significance and relevance of these findings in the context of the function of the 5' UTR of LRV1 as an IRES element are discussed.

Molecular organization of Leishmania RNA virus 1.

The complete 5284-nucleotide sequence of the double-stranded RNA genome of Leishmania RNA virus 1 (LRV1) was determined and contains three open reading frames (ORFs) on the plus (+) (mRNA) strand. The predicted amino acid sequence of ORF3 has motifs characteristic of viral RNA-dependent RNA polymerases. ORF2, which may encode the major viral coat protein, overlaps ORF3 by 71 nucleotides, suggesting a +1 translational frameshift to produce a gag-pol type of fusion protein. Two alternative models for the frameshift are presented. The 5' splice leader sequence of kinetoplastid mRNAs is not in LRV1 RNA. This suggests that the 450-base region at the 5' end of the LRV1 (+)-strand, which contains ORF1 and is highly conserved among viral strains, does not encode protein but has a role in initiation of translation and/or RNA stability. The similarity of LRV1 genomic organization, replication cycle, and RNA-dependent RNA polymerase sequence to those of the yeast virus ScV L-A suggests a common ancestral origin. The possibility that LRV1 affects pathogenesis in leishmaniasis is intriguing.