烟草
生物
病毒学
马铃薯Y病毒
基因敲除
抄写(语言学)
转录因子
核糖核酸
寄主因子
细胞生物学
烟草花叶病毒
表观遗传学
非翻译区
植物病毒
小RNA
RNA依赖性RNA聚合酶
RNA病毒
下调和上调
免疫沉淀
RNA聚合酶Ⅱ
病毒复制
一般转录因子
RNA结合蛋白
甲基转移酶
RNA沉默
分子生物学
基因表达
病毒进化
抗病毒蛋白
非编码RNA
基因表达调控
基因
遗传学
作者
Jian Li,Jianli Luo,Hongfu He,F. Wang,Huan Wu,Chunni Zhao,Runjiang Song,Baoan Song
标识
DOI:10.1016/j.xplc.2025.101584
摘要
N6-methyladenosine (m6A), a reversible epigenetic modification, is ubiquitously present across diverse RNA species, including viral RNA. This modification plays a pivotal role in orchestrating RNA metabolism. Nevertheless, the mechanisms by which plants utilize m6A modifications to fine-tune antiviral immunity remain largely unknown. In this study, we systematically examined the dynamic changes and biological significance of m6A modifications throughout potato virus Y (PVY) infection in host plants. Methylated RNA immunoprecipitation sequencing reveals a conserved m6A distribution pattern in Nicotiana benthamiana, predominantly enriched in 3' untranslated regions of transcripts. The nuclear transcription factor NFYA3_0 exhibits robust hypermethylation accompanied by transcriptional upregulation during PVY infection. NFYA3_0 knockdown promotes PVY accumulation and reduces global m6A modification levels in the host. NFYA3_0 positively regulates transcription of the m6A methyltransferase gene NbMTA, whose loss of function similarly compromises viral resistance while diminishing m6A abundance. Moreover, NbMTA anchors and methylates the PVY coat protein-coding region, thereby facilitating viral RNA degradation and effectively restricting infection. These findings indicate that the core antiviral mechanism of the nuclear transcription factor NFYA3_0 enables targeted degradation of viral RNA by activating methyltransferase NbMTA-mediated m6A epitranscriptome regulation. This work provides a new strategy for developing green virus-resistant crop lines based on epigenetic editing.
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