RNA干扰
生物
烟草
细胞生物学
转录因子
小干扰RNA
抄写(语言学)
基因沉默
基因表达
病毒
基因
RNA沉默
信号转导
遗传学
钙信号传导
基因表达调控
病毒学
感应(电子)
核糖核酸
转基因
先天免疫系统
RNA病毒
作者
Yunjing Wang,Qian Gong,Yuyao Wu,Fan Huang,Asigul Ismayil,Danfeng Zhang,Huangai Li,Hanqing Gu,Márta Ludman,Károly Fátyol,Yijun Qi,Keiko Yoshioka,Linda Hanley‐Bowdoin,Yiguo Hong,Yule Liu
标识
DOI:10.1016/j.chom.2021.07.003
摘要
RNA interference (RNAi) is an across-kingdom gene regulatory and defense mechanism. However, little is known about how organisms sense initial cues to mobilize RNAi. Here, we show that wounding to Nicotiana benthamiana cells during virus intrusion activates RNAi-related gene expression through calcium signaling. A rapid wound-induced elevation in calcium fluxes triggers calmodulin-dependent activation of calmodulin-binding transcription activator-3 (CAMTA3), which activates RNA-dependent RNA polymerase-6 and Bifunctional nuclease-2 (BN2) transcription. BN2 stabilizes mRNAs encoding key components of RNAi machinery, notably AGONAUTE1/2 and DICER-LIKE1, by degrading their cognate microRNAs. Consequently, multiple RNAi genes are primed for combating virus invasion. Calmodulin-, CAMTA3-, or BN2-knockdown/knockout plants show increased susceptibility to geminivirus, cucumovirus, and potyvirus. Notably, Geminivirus V2 protein can disrupt the calmodulin-CAMTA3 interaction to counteract RNAi defense. These findings link Ca2+ signaling to RNAi and reveal versatility of host antiviral defense and viral counter-defense.
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