SARS-CoV-2 spike-protein D614G mutation increases virion spike density and infectivity

Zhang, Lizhou; Jackson, Cody B.; Mou, Huihui; Ojha, Amrita; Peng, Haiyong; Quinlan, Brian D.; Rangarajan, Erumbi S.; Pan, Andi; Vanderheiden, Abigail; Suthar, Mehul S.; Li, Wenhui; Izard, Tina; Rader, Christoph; Farzan, Michael; Choe, Hyeryun

doi:10.1038/s41467-020-19808-4

articleNature CommunicationsNov 26, 2020GOLD OA

SARS-CoV-2 spike-protein D614G mutation increases virion spike density and infectivity

LZLizhou Zhang CBCody B. Jackson HMHuihui Mou AOAmrita Ojha HPHaiyong Peng

Scripps Research Institute · Emory University · +2 more institutions

PubMed

Indexed incrossrefdoajpubmed

Abstract

Abstract SARS-CoV-2 variants with spike (S)-protein D614G mutations now predominate globally. We therefore compare the properties of the mutated S protein (S G614 ) with the original (S D614 ). We report here pseudoviruses carrying S G614 enter ACE2-expressing cells more efficiently than those with S D614 . This increased entry correlates with less S1-domain shedding and higher S-protein incorporation into the virion. Similar results are obtained with virus-like particles produced with SARS-CoV-2 M, N, E, and S proteins. However, D614G does not alter S-protein binding to ACE2 or neutralization sensitivity of pseudoviruses. Thus, D614G may increase infectivity by assembling more functional S protein into the…

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Topics

Keywords

Infectivity
Spike Protein
Mutation
Virology
Neutralization
Biology
Plasma protein binding
Spike (software development)

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