The stability and sequence cleavage preference of dsRNA are key factors differentiating RNAi efficiency between migratory locust and Asian corn borer

Abstract

We compared the stability of double-stranded RNA (dsRNA) in each of two body fluids (hemolymph, midgut fluid) and in each of two tissues (integument, midgut), and the uptake of dsRNA in each of two cultured tissues (integument, midgut) between the migratory locust (Locusta migratoria) and the Asian corn borer (Ostrinia furnacalis). We further compared the abundance of putative small interfering RNAs (siRNAs) generated from each of two dsRNAs (dsβ-actin, dsEf1α) and the preference of dsRNA cleavages between the two insect species. Our studies showed a rapid degradation of dsRNA in the midgut fluids of both insect species and in O. furnacalis hemolymph. However, dsRNA remained reasonably stable in L. migratoria hemolymph. When nuclease degradation of dsRNA in cultured tissues was inhibited, dsRNA uptake was not significantly different between the two species. We further showed that the silencing efficiency against target genes was consistent with the abundance of putative siRNAs processed from the dsRNA. In addition, O. furnacalis showed a strong preference in cleaving dsRNA when the nucleotide G was in the position of “1” at 5′-end whereas L. migratoria showed broad spectrum in cleavage sites to generate siRNA. Taken together, our study revealed that silencing efficiency of a target gene by RNAi was directly related to the dsRNA degradation by nucleases and the abundance of siRNAs generated from the dsRNA.