Characterization of horizontally acquired ribotoxin encoding genes and their transcripts in Aedes aegypti.

Abstract

Ribosome Inactivating Proteins (RIPs) are RNA N-glycosidases that depurinate a specific adenine residue in the conserved sarcin/ricin loop of the 28S rRNA. The occurrence of RIP genes has been described in a wide range of plant taxa, as well as in several species of bacteria and fungi. A remarkable case is the presence of these genes in metazoans belonging to the Culicinae subfamily. We reported that these genes are derived from a single horizontal gene transfer event, most likely from a bacterial donor species. Moreover, we have shown evidence that mosquito RIP genes are evolving under purifying selection, suggesting that these toxins have acquired a functional role in these organisms. In the present work, we characterized the intra-specific sequence variability of Aedes aegypti RIP genes (RIPAe1, RIPAe2, and RIPAe3) and tested their expression at the mRNA level. Our results show that RIPAe2 and RIPAe3 are transcribed and polyadenylated, and their expression levels are modulated across the developmental stages. Varibility among genes was observed, including the existence of null alleles for RIPAe1 and RIPAe2, with variants showing partial deletions. These results further support the existence of a physiological function for these foreign genes in mosquitoes. The possible nature of this functionality is discussed.