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Structural insights into the nairovirus nucleoprotein endonuclease activity

核糖核酸 核蛋白 核糖核蛋白 核酸酶 生物 核酸 核酸内切酶 病毒复制 DNA 病毒 病毒学 聚合酶 核酸结构 重组DNA RNA依赖性RNA聚合酶 RNA病毒 生物化学 RNA聚合酶 RNA结合蛋白 化学 遗传学 分子生物学 非编码RNA
作者
Zan Li,Shan Du,Feng Gao,Yanshuang Xiao,Qilu Weng,Wei Zhang,Pufei Chen,Wenbo Xu,Yi Wang,Quan Liu,Yan Wu,Litao Sun
出处
期刊:Proceedings of the National Academy of Sciences of the United States of America [National Academy of Sciences]
卷期号:123 (28): e2602311123-e2602311123
标识
DOI:10.1073/pnas.2602311123
摘要

Nairoviruses are emerging tick-borne pathogens for which effective antiviral therapies are currently unavailable. Although nucleoproteins (NPs) are essential for viral genome encapsulation and have been extensively characterized at the structural level, whether they perform additional functions during viral replication remains unclear. Here, we investigated the NP of the representative nairovirus Tacheng tick virus 1 (TcTV1). We found that the TcTV1 NP binds to nucleic acids in a sequence-independent manner and assembles into tetramer-based ribonucleoprotein complexes upon nucleic acid binding. This assembly process is accompanied by a pronounced conformational rearrangement that facilitates NP polymerization. In addition to its role in RNA encapsulation, TcTV1 NP exhibits intrinsic endonuclease activity that does not require metal ions and preferentially cleaves unstructured single-stranded RNA, while structured RNA substrates are largely resistant to cleavage. Functional analysis indicates that the stalk domain of NP plays a central role in coordinating RNA binding, oligomerization, and access to the nuclease-active site, thereby influencing whether an RNA molecule is protected or degraded. Finally, we identified a small-molecule compound that interferes with both RNA binding and nuclease activity by targeting a conserved functional region of nairovirus NP. Together, these results reveal an expanded functional repertoire of nairovirus NPs and suggest that NP-mediated RNA discrimination may contribute to viral replication. Our findings also support the feasibility of targeting NP for the development of antiviral drugs against emerging nairoviruses.
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