Author: Korber, B; Fischer, WM; Gnanakaran, S; Yoon, H; Theiler, J; Abfalterer, W; Foley, B; Giorgi, EE; Bhattacharya, T; Parker, MD; Partridge, DG; Evans, CM; Freeman, TM; de Silva, TI; LaBranche, CC; Montefiori, DC
Title: Spike mutation pipeline reveals the emergence of a more transmissible form of SARS-CoV-2 Cord-id: 4hmecfi0 Document date: 2020_5_5
ID: 4hmecfi0
Snippet: We have developed an analysis pipeline to facilitate real-time mutation tracking in SARS-CoV-2, focusing initially on the Spike (S) protein because it mediates infection of human cells and is the target of most vaccine strategies and antibody-based therapeutics. To date we have identified thirteen mutations in Spike that are accumulating. Mutations are considered in a broader phylogenetic context, geographically, and over time, to provide an early warning system to reveal mutations that may conf
Document: We have developed an analysis pipeline to facilitate real-time mutation tracking in SARS-CoV-2, focusing initially on the Spike (S) protein because it mediates infection of human cells and is the target of most vaccine strategies and antibody-based therapeutics. To date we have identified thirteen mutations in Spike that are accumulating. Mutations are considered in a broader phylogenetic context, geographically, and over time, to provide an early warning system to reveal mutations that may confer selective advantages in transmission or resistance to interventions. Each one is evaluated for evidence of positive selection, and the implications of the mutation are explored through structural modeling. The mutation Spike D614G is of urgent concern; it began spreading in Europe in early February, and when introduced to new regions it rapidly becomes the dominant form. Also, we present evidence of recombination between locally circulating strains, indicative of multiple strain infections. These finding have important implications for SARS-CoV-2 transmission, pathogenesis and immune interventions.
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