Characterization of Wuhan Nodavirus subgenomic RNA3 and the RNAi inhibition property of its encoded protein B2
- PMID: 20441781
- DOI: 10.1016/j.virusres.2010.04.010
Characterization of Wuhan Nodavirus subgenomic RNA3 and the RNAi inhibition property of its encoded protein B2
Abstract
Wuhan Nodavirus (WhNV) is the first reported nodavirus isolated from insect in China. The viral genome consists of two positive-strand RNA, RNA1 and RNA2. RNA1 is 3149 nucleotides in length, and contains three putative Open Reading Frames (ORFs) which encode proteins A, B1 and B2, respectively. In contrast, only one putative ORF encoding protein alpha was identified within 1562-nt-long RNA2 species. Here, we report the newly characterized molecular properties of WhNV subgenomic RNA3 and its encoded protein B2. We have successfully multiplied WhNV in the natural host Pieris rapae larvae under laboratory conditions. WhNV replication in the host cells resulted in the expression of viral proteins, ProA, B2 and Proalpha, with the absence of B1 production. Northern blot hybridization assay revealed the existence of subgenomic RNA3 which is 5' capped and 3' co-terminal with RNA1. The subgenomic RNA3 is 370 nucleotides in length and contains only one ORF (B2) with the first AUG as the authentic initiation codon. In addition, we found that nonstructural protein B2 of WhNV is an efficient RNA interference (RNAi) suppressor in a cultured drosophila cell line. The amino-terminal region (aa 1-20) of B2 is essential for this RNAi inhibition activity.
Copyright 2010 Elsevier B.V. All rights reserved.
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