Structure of the RNA-dependent RNA polymerase from COVID-19 virus.
Yan GaoLiming YanYucen HuangFengjiang LiuYao ZhaoLin CaoTao WangQianqian SunZhenhua MingLianqi ZhangJi GeLitao ZhengYing ZhangHaofeng WangYan ZhuChen ZhuTianyu HuTian HuaBing ZhangXiuna YangJun LiHaitao YangZhijie LiuWenqing XuLuke W GuddatQuan WangZhiyong LouZihe RaoPublished in: Science (New York, N.Y.) (2020)
A novel coronavirus [severe acute respiratory syndrome-coronavirus 2 (SARS-CoV-2)] outbreak has caused a global coronavirus disease 2019 (COVID-19) pandemic, resulting in tens of thousands of infections and thousands of deaths worldwide. The RNA-dependent RNA polymerase [(RdRp), also named nsp12] is the central component of coronaviral replication and transcription machinery, and it appears to be a primary target for the antiviral drug remdesivir. We report the cryo-electron microscopy structure of COVID-19 virus full-length nsp12 in complex with cofactors nsp7 and nsp8 at 2.9-angstrom resolution. In addition to the conserved architecture of the polymerase core of the viral polymerase family, nsp12 possesses a newly identified β-hairpin domain at its N terminus. A comparative analysis model shows how remdesivir binds to this polymerase. The structure provides a basis for the design of new antiviral therapeutics that target viral RdRp.