Discovery of aphid-transmitted Rice tiller inhibition virus from native plants through metagenomic sequencing
文献类型: 外文期刊
第一作者: Yan, Wenkai
作者: Yan, Wenkai;Liu, Wencheng;Jia, Bei;Chen, Zhong-Qi;Han, Yanhong;Wu, Jianguo;Xie, Lianhui;Guo, Zhongxin;Zhu, Yu;Wu, Qingfa;Zou, Chengwu;Chen, Baoshan;Li, Rongbai;Yang, Dong-Lei;Zhang, Zhongkai;Ding, Shou-Wei
作者机构:
期刊名称:PLOS PATHOGENS ( 影响因子:6.7; 五年影响因子:6.7 )
ISSN: 1553-7366
年卷期: 2023 年 19 卷 3 期
页码:
收录情况: SCI
摘要: Author summaryEmerging and re-emerging dangerous viruses cause epidemics or pandemics to threaten human and economically important crops and animals. Some of the most dangerous human viruses have zoonotic origins from wild animals. Native plants may also host new endemic viruses that can spread to cause epidemics in cultivated rice, one of the most important staple plants in the world. In the research, we discovered Rice tiller inhibition virus (RTIV), a new insect-borne positive-strand RNA virus, from Asian wild rice plants through metagenomic sequencing, and demonstrated that RTIV could be transmitted by a wide-distributed specific species of aphids to cultivated rice and inhibited tillering, an important agronomic trait of rice plants. We further rescued RTIV by developing infectious clone and confirmed that it can be a dangerous aphid-transmitted viral pathogen of cultivated rice plants. Thus, not only a rare aphid-transmitted viral pathogen of rice plants was discovered in the research, our findings also indicate that novel pathogenic viruses could spread out from native plants to threaten important crop plants. A major threat to rice production is the disease epidemics caused by insect-borne viruses that emerge and re-emerge with undefined origins. It is well known that some human viruses have zoonotic origins from wild animals. However, it remains unknown whether native plants host uncharacterized endemic viruses with spillover potential to rice (Oryza sativa) as emerging pathogens. Here, we discovered rice tiller inhibition virus (RTIV), a novel RNA virus species, from colonies of Asian wild rice (O. rufipogon) in a genetic reserve by metagenomic sequencing. We identified the specific aphid vector that is able to transmit RTIV and found that RTIV would cause low-tillering disease in rice cultivar after transmission. We further demonstrated that an infectious molecular clone of RTIV initiated systemic infection and causes low-tillering disease in an elite rice variety after Agrobacterium-mediated inoculation or stable plant transformation, and RTIV can also be transmitted from transgenic rice plant through its aphid vector to cause disease. Finally, global transcriptome analysis indicated that RTIV may disturb defense and tillering pathway to cause low tillering disease in rice cultivar. Thus, our results show that new rice viral pathogens can emerge from native habitats, and RTIV, a rare aphid-transmitted rice viral pathogen from native wild rice, can threaten the production of rice cultivar after spillover.
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