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Arterivirus nsp4 Antagonizes Interferon Beta Production by Proteolytically Cleaving NEMO at Multiple Sites.

J. Virol.. 2019; 
ChenJiyao,WangDang,SunZheng,GaoLi,ZhuXinyu,GuoJiahui,XuShangen,FangLiurong,LiKui,XiaoSh
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Peptide Synthesis Based on cleavage sites of EAV and PRRSV nsp4 -mediated NEMO cleavage, we designed four fluorogenic peptide substrates Dabcyl -EAATKE ↓CQALE E -Edans, Dabcyl -CQALE ↓ GRARAA E -Edans, Dabcyl -DQLRMQ ↓ GQSV E -Edans, Dabcyl -KASCQE ↓SARIEDE -Edans (Nanjing GenScript Company) which derived from NEMO containing four cleavage sites E166, E171, Q205, E349, respectively. Get A Quote

摘要

Equine arteritis virus (EAV) and porcine reproductive and respiratory syndrome virus (PRRSV) represent two members of the family and pose major threats for the horse- and swine-breeding industries worldwide. A previous study suggested that PRRSV nsp4, a 3C-like protease, antagonizes interferon beta (IFN-β) production by cleaving the NF-κB essential modulator (NEMO) at a single site, glutamate 349 (E349). Here, we demonstrated that EAV nsp4 also inhibited virus-induced IFN-β production by targeting NEMO for proteolytic cleavage and that the scission occurred at four sites: E166, E171, glutamine 205 (Q205), and E349. Additionally, we found that, besides the previously reported cleavage site ... More

关键词

3C-like protease,NF-κB essential modulator,equine arteritis virus,interferon beta,porcine reproductive and respiratory syndrome v
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