- Main
CryoEM and AI reveal a structure of SARS-CoV-2 Nsp2, a multifunctional protein involved in key host processes
- Gupta, Meghna;
- Azumaya, Caleigh M;
- Moritz, Michelle;
- Pourmal, Sergei;
- Diallo, Amy;
- Merz, Gregory E;
- Jang, Gwendolyn;
- Bouhaddou, Mehdi;
- Fossati, Andrea;
- Brilot, Axel F;
- Diwanji, Devan;
- Hernandez, Evelyn;
- Herrera, Nadia;
- Kratochvil, Huong T;
- Lam, Victor L;
- Li, Fei;
- Li, Yang;
- Nguyen, Henry C;
- Nowotny, Carlos;
- Owens, Tristan W;
- Peters, Jessica K;
- Rizo, Alexandrea N;
- Schulze-Gahmen, Ursula;
- Smith, Amber M;
- Young, Iris D;
- Yu, Zanlin;
- Asarnow, Daniel;
- Billesbølle, Christian;
- Campbell, Melody G;
- Chen, Jen;
- Chen, Kuei-Ho;
- Chio, Un Seng;
- Dickinson, Miles Sasha;
- Doan, Loan;
- Jin, Mingliang;
- Kim, Kate;
- Li, Junrui;
- Li, Yen-Li;
- Linossi, Edmond;
- Liu, Yanxin;
- Lo, Megan;
- Lopez, Jocelyne;
- Lopez, Kyle E;
- Mancino, Adamo;
- Moss, Frank R;
- Paul, Michael D;
- Pawar, Komal Ishwar;
- Pelin, Adrian;
- Pospiech, Thomas H;
- Puchades, Cristina;
- Remesh, Soumya Govinda;
- Safari, Maliheh;
- Schaefer, Kaitlin;
- Sun, Ming;
- Tabios, Mariano C;
- Thwin, Aye C;
- Titus, Erron W;
- Trenker, Raphael;
- Tse, Eric;
- Tsui, Tsz Kin Martin;
- Wang, Feng;
- Zhang, Kaihua;
- Zhang, Yang;
- Zhao, Jianhua;
- Zhou, Fengbo;
- Zhou, Yuan;
- Zuliani-Alvarez, Lorena;
- Consortium, QCRG Structural Biology;
- Agard, David A;
- Cheng, Yifan;
- Fraser, James S;
- Jura, Natalia;
- Kortemme, Tanja;
- Manglik, Aashish;
- Southworth, Daniel R;
- Stroud, Robert M;
- Swaney, Danielle L;
- Krogan, Nevan J;
- Frost, Adam;
- Rosenberg, Oren S;
- Verba, Kliment A
- et al.
Published Web Location
https://pubmed.ncbi.nlm.nih.gov/34013269/Abstract
The SARS-CoV-2 protein Nsp2 has been implicated in a wide range of viral processes, but its exact functions, and the structural basis of those functions, remain unknown. Here, we report an atomic model for full-length Nsp2 obtained by combining cryo-electron microscopy with deep learning-based structure prediction from AlphaFold2. The resulting structure reveals a highly-conserved zinc ion-binding site, suggesting a role for Nsp2 in RNA binding. Mapping emerging mutations from variants of SARS-CoV-2 on the resulting structure shows potential host-Nsp2 interaction regions. Using structural analysis together with affinity tagged purification mass spectrometry experiments, we identify Nsp2 mutants that are unable to interact with the actin-nucleation-promoting WASH protein complex or with GIGYF2, an inhibitor of translation initiation and modulator of ribosome-associated quality control. Our work suggests a potential role of Nsp2 in linking viral transcription within the viral replication-transcription complexes (RTC) to the translation initiation of the viral message. Collectively, the structure reported here, combined with mutant interaction mapping, provides a foundation for functional studies of this evolutionary conserved coronavirus protein and may assist future drug design.
Many UC-authored scholarly publications are freely available on this site because of the UC's open access policies. Let us know how this access is important for you.
Main Content
Enter the password to open this PDF file:
-
-
-
-
-
-
-
-
-
-
-
-
-
-