Capturing intrahost recombination of SARS-CoV-2 during superinfection with Alpha and Epsilon variants in New York City
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2022-01-21Author
Wertheim, Joel O.Wang, Jade C.
Leelawong, Mindy
Martin, Darren P.
Havens, Jennifer L.
Chowdhury, Moinuddin A.
Pekar, Jonathan
Amin, Helly
Arroyo, Anthony
Awandare, Gordon A.
Chow, Hoi Yan
Gonzalez, Edimarlyn
Luoma, Elizabeth
Morang'a, Collins M.
Nekrutenko, Anton
Shank, Stephen
Quashie, Peter K.
Rakeman, Jennifer L.
Ruiz, Victoria
Torian, Lucia V.
Vasylyeva, Tetyana I.
Pond, Sergei
Hughes, Scott
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BiologyPermanent link to this record
http://hdl.handle.net/20.500.12613/7567
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https://doi.org/10.1101/2022.01.18.22269300Abstract
Recombination is an evolutionary process by which many pathogens generate diversity and acquire novel functions. Although a common occurrence during coronavirus replication, recombination can only be detected when two genetically distinct viruses contemporaneously infect the same host. Here, we identify an instance of SARS-CoV-2 superinfection, whereby an individual was simultaneously infected with two distinct viral variants: Alpha (B.1.1.7) and Epsilon (B.1.429). This superinfection was first noted when an Alpha genome sequence failed to exhibit the classic S gene target failure behavior used to track this variant. Full genome sequencing from four independent extracts revealed that Alpha variant alleles comprised between 70-80% of the genomes, whereas the Epsilon variant alleles comprised between 20-30% of the sample. Further investigation revealed the presence of numerous recombinant haplotypes spanning the genome, specifically in the spike, nucleocapsid, and ORF 8 coding regions. These findings support the potential for recombination to reshape SARS-CoV-2 genetic diversity.Citation to related work
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http://dx.doi.org/10.34944/dspace/7545
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