Structure of the RNA-dependent RNA polymerase from COVID-19 virus.
Yan Gao,Yan Gao,Liming Yan,Yucen Huang,Fengjiang Liu,Yao Zhao,Lin Cao,Tao Wang,Qianqian Sun,Zhenhua Ming,Lianqi Zhang,Ji Ge,Litao Zheng,Ying Zhang,Haofeng Wang,Haofeng Wang,Yan Zhu,Chen Zhu,Tianyu Hu,Tian Hua,Bing Zhang,Xiuna Yang,Jun Li,Haitao Yang,Zhi-Jie Liu,Wenqing Xu,Luke W. Guddat,Quan Wang,Zhiyong Lou,Zihe Rao +29 more
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TLDR
The structure of the COVID-19 virus polymerase essential for viral replication provides a basis for the design of new antiviral drugs that target viral RdRp, also named nsp12, and it appears to be a primary target for the antiviral drug remdesivir.Abstract:
A novel coronavirus (COVID-19 virus) outbreak has caused a global 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/transcription machinery and appears to be a primary target for the antiviral drug, remdesivir. We report the cryo-EM structure of COVID-19 virus full-length nsp12 in complex with cofactors nsp7 and nsp8 at 2.9-A 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 targeting viral RdRp.read more
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A Structural View of SARS-CoV-2 RNA Replication Machinery: RNA Synthesis, Proofreading and Final Capping.
TL;DR: This review provides an update of the structural and functional data on the key actors of the replicatory machinery of SARS-CoV-2, to fill the gaps in the currently available structural data, which is mainly obtained through homology modeling.
Journal ArticleDOI
Remdesivir Inhibits SARS-CoV-2 in Human Lung Cells and Chimeric SARS-CoV Expressing the SARS-CoV-2 RNA Polymerase in Mice.
Andrea J. Pruijssers,Andrea J. Pruijssers,Amelia S. George,Amelia S. George,Alexandra Schäfer,Sarah R. Leist,Lisa E. Gralinksi,Kenneth H. Dinnon,Boyd Yount,Maria L. Agostini,Maria L. Agostini,Laura J. Stevens,Laura J. Stevens,James D. Chappell,James D. Chappell,Xiaotao Lu,Xiaotao Lu,Tia M. Hughes,Tia M. Hughes,Kendra Gully,David R. Martinez,Ariane J. Brown,Rachel L. Graham,Jason K. Perry,Venice Du Pont,Jared Pitts,Bin Ma,Darius Babusis,Eisuke Murakami,Joy Y. Feng,John P. Bilello,Danielle P. Porter,Tomas Cihlar,Ralph S. Baric,Mark R. Denison,Mark R. Denison,Timothy P. Sheahan +36 more
TL;DR: Remdesivir (RDV) potently inhibits SARS-CoV-2 replication in human lung cells and primary human airway epithelial cultures and in mice infected with chimeric virus, supporting its further clinical testing for treatment of COVID-19.
Journal ArticleDOI
The Proteins of Severe Acute Respiratory Syndrome Coronavirus-2 (SARS CoV-2 or n-COV19), the Cause of COVID-19.
TL;DR: The proteins found in the SARS CoV-2 that caused this global pandemic are reviewed to provide a better understanding of the disease.
Journal ArticleDOI
The Natural History, Pathobiology, and Clinical Manifestations of SARS-CoV-2 Infections.
Jatin Machhi,Jonathan Herskovitz,Ahmed M. Senan,Debashis Dutta,Barnali Nath,Maxim D. Oleynikov,Wilson R. Blomberg,Douglas D. Meigs,Mahmudul Hasan,Milankumar Patel,Peter Kline,Raymond Chuen-Chung Chang,Linda Chang,Howard E. Gendelman,Bhavesh D. Kevadiya,Bhavesh D. Kevadiya +15 more
TL;DR: Intense global efforts have targeted research into a better understanding of the epidemiology, molecular biology, pharmacology, and pathobiology of SARS-CoV-2 to provide the insights directed to curtailing this disease outbreak with intense international impact.
Journal ArticleDOI
DeepEMhancer: a deep learning solution for cryo-EM volume post-processing.
Rubén J. Sánchez-García,Rubén J. Sánchez-García,Josué Gómez-Blanco,Josué Gómez-Blanco,Ana Maria Cuervo,José María Carazo,Carlos Oscar S. Sorzano,Javier Vargas,Javier Vargas +8 more
TL;DR: DeepEMhancer as mentioned in this paper is a deep learning approach designed to perform automatic post-processing of cryo-EM maps, trained on a dataset of pairs of experimental maps and maps sharpened using their respective atomic models, has learned how to post-process experimental maps performing masking-like and sharpening-like operations.
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