Abstract
Leishmania cycles between the insect vector and its mammalian host undergoing several important changes mediated by the stage-specific expression of a number of genes. Using a genomic differential screening approach, we isolated differentially expressed cosmid clones carrying several copies of the mini-exon gene. We report that the spliced leader (SL) RNA, essential for the maturation of all pre-mRNAs by trans-splicing, is developmentally regulated in Leishmania donovani amastigotes and that this regulation is rapidly induced upon parasite growth under acidic conditions. Stage-specific regulation of the SL RNA is associated with the expression of a larger approximately 170-nucleotide transcript that bears an additional 15-nucleotide sequence at its 3'-end and is polyadenylated in contrast to the mature SL RNA. The poly(A)+ SL RNA represents 12-16% of the total SL transcript synthesized in amastigotes and is 2.5-3-fold more stable than the poly(A)- transcript. The poly(A)+ SL transcript is synthesized specifically from one class of the genomic mini-exon copies. Polyadenylation of the SL RNA may control the levels of the SL mature transcript under amastigote growth and may represent an additional step in the gene regulation process during parasite differentiation.
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