Late Male-Killing Viruses in Homona magnanima Identified as Osugoroshi Viruses, Novel Members of Partitiviridae.

Ryosuke Fujita,Michael Amoa-Bosompem,Kentaro Itokawa,Yasuhisa Kunimi,Madoka Nakai,Mayu Nishino,Maki N Inoue,Hiroshi Arai,Takumi Takamatsu,Nobuhiko Abe,Yuto Chiba,Syun-Ichi Urayama

doi:10.3389/fmicb.2020.620623

Abstract

Late male-killing, a male-specific death after hatching, is a unique phenotype found in Homona magnanima, oriental tea tortrix. The male-killing agent was suspected to be an RNA virus, but details were unknown. We herein successfully isolated and identified the putative male-killing virus as Osugoroshi viruses (OGVs). The three RNA-dependent RNA polymerase genes detected were phylogenetically related to Partitiviridae, a group of segmented double-stranded RNA viruses. Purified dsRNA from a late male-killing strain of H. magnanima revealed 24 segments, in addition to the RdRps, with consensus terminal sequences. These segments included the previously found male-killing agents MK1068 (herein OGV-related RNA16) and MK1241 (OGV-related RNA7) RNAs. Ultramicroscopic observation of purified virions, which induced late male-killing in the progeny of injected moths, showed sizes typical of Partitiviridae. Mathematical modeling showed the importance of late male-killing in facilitating horizontal transmission of OGVs in an H. magnanima population. This study is the first report on the isolation of partiti-like virus from insects, and one thought to be associated with late male-killing, although the viral genomic contents and combinations in each virus are still unknown.

Highlights

Inherited female-biased sex ratio is caused by a variety of mechanisms, including malekilling
Because those two RNAs did not show any specific similarity with known cellular genes, we speculated that the male-killing agent is an RNA virus
OGV1 RNA1, G1 of lineage 16 exhibited complete late malekilling, suggesting that OGV1 RNA1 may not be necessary for late male-killing in H. magnanima

Summary

Introduction

Inherited female-biased sex ratio is caused by a variety of mechanisms, including malekilling. The phenomenon of male-killing can be categorized into two types: early (male-specific death in the embryonic stage) or late (male-specific death in the larval or pupal stage), both of which result in female-biased sex ratios (Hurst, 1991, 1993; Dunn and Smith, 2001). Oriental tea tortrix, is known as a pest for tea plants in East Asia. It feeds on a variety of plant leaves, including apple trees and citrus.

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Conclusion