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Stabilization of the SARS-CoV-2 Spike Receptor-Binding Domain Using Deep Mutational Scanning and Structure-Based Design

Front Immunol. 2021-06; 
Daniel Ellis, Natalie Brunette, Katharine H D Crawford, Alexandra C Walls, Minh N Pham, Chengbo Chen, Karla-Luise Herpoldt, Brooke Fiala, Michael Murphy, Deleah Pettie, John C Kraft, Keara D Malone, Mary Jane Navarro, Cassandra Ogohara, Elizabeth Kepl, Rashmi Ravichandran, Claire Sydeman, Maggie Ahlrichs, Max Johnson, Alyssa Blackstone, Lauren Carter, Tyler N Starr, Allison J Greaney, Kelly K Lee, David Veesler, Jesse D Bloom, Neil P King
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Catalog Antibody … Genes encoding CV30 and CR3022 heavy and light chains were ordered from GenScript and cloned into pCMV/R. Antibodies were expressed by transient co-transfection of both heavy … Get A Quote

摘要

The unprecedented global demand for SARS-CoV-2 vaccines has demonstrated the need for highly effective vaccine candidates that are thermostable and amenable to large-scale manufacturing. Nanoparticle immunogens presenting the receptor-binding domain (RBD) of the SARS-CoV-2 Spike protein (S) in repetitive arrays are being advanced as second-generation vaccine candidates, as they feature robust manufacturing characteristics and have shown promising immunogenicity in preclinical models. Here, we used previously reported deep mutational scanning (DMS) data to guide the design of stabilized variants of the RBD. The selected mutations fill a cavity in the RBD that has been identified as a linoleic acid binding pocket... More

关键词

SARS-CoV-2, antigen stabilization, computational protein design, deep mutational scanning, nanoparticle, receptor-binding domain, vaccine