Abstract
Bombyx mori latent virus (BmLV) is a positive, single-stranded insect RNA virus closely related to plant maculaviruses. BmLV was first isolated from Bombyx mori ovary-derived cell line BmN-4, and this virus has already infected most B. mori-derived cultured cell lines. We previously reported that small interfering RNA (siRNA) and PIWI-interacting RNA (piRNA) pathways function cooperatively to maintain the amount of BmLV RNA for normal BmN-4 cell growth. On the other hand, BmLV does not propagate in B. mori larvae. Here we conducted BmLV injection into the larval body cavities of B. mori, and examined BmLV accumulation in larval ovaries where siRNA and piRNA pathways are both active, to investigate whether this in vivo resistance is governed by small RNA pathways. Expression levels of RNA-dependent RNA polymerase, coat protein, and p15 genes in BmLV-injected larval ovaries were extremely low compared with those in B. mori cultured cells, indicating that B. mori larval ovaries are more resistant to BmLV than B. mori cultured cells. We also sequenced small RNAs prepared from BmLV-injected larval ovaries and mapped them onto the BmLV genome. Although their amounts were very small, we were able to detect BmLV-derived small RNAs in the ovaries. According to their length distribution and nucleotide bias, they were likely to be siRNAs and piRNAs. These results suggest that B. mori ovaries can potentially produce small RNAs against BmLV, but the resistance of larval ovaries against BmLV is not dependent on RNA silencing pathways.
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