Genomic epidemiology identifies emergence and rapid transmission of SARS-CoV-2 B.1.1.7 in the United States

Nicole Washington; Karthik Gangavarapu; Mark Zeller; Alexandre Bolze; Elizabeth T. Cirulli; Kelly M. Schiabor Barrett; Brendan B. Larsen; Catelyn Anderson; Simon White; Tyler Cassens; Sharoni Jacobs; Geraint Levan; Jason Nguyen; Jimmy M. Ramirez; Charlotte Rivera-Garcia; Efren Sandoval; Xueqing Wang; David Wong; Emily Spencer; Refugio Robles‐Sikisaka; Ezra Kurzban; Laura D. Hughes; Xianding Deng; Candace Wang; Venice Servellita; Holly Valentine; Peter De Hoff; Phoebe Seaver; Shashank Sathe; Kimberly Gietzen; Brad Sickler; Jay Antico; Kelly Hoon; Jianwen Liu; Aaron Harding; Omid Bakhtar; Tracy Basler; Brett Austin; Magnus Isaksson; Phillip G. Febbo; David G. Becker; Marc Laurent; Eric McDonald; G Yeo; Rob Knight; Louise C. Laurent; Eileen de Feo; Michael Worobey; Charles Y. Chiu; Marc A. Suchard; James T. Lu; William Lee; Kristian G. Andersen

doi:10.1101/2021.02.06.21251159

Genomic epidemiology identifies emergence and rapid transmission of SARS-CoV-2 B.1.1.7 in the United States

Nicole Washington(Helix (United States)), Karthik Gangavarapu(Scripps Research Institute), Mark Zeller(Scripps Research Institute), Alexandre Bolze(Helix (United States)), Elizabeth T. Cirulli(Helix (United States)), Kelly M. Schiabor Barrett(Helix (United States)), Brendan B. Larsen(University of Arizona), Catelyn Anderson(Scripps Research Institute), Simon White(Helix (United States)), Tyler Cassens(Helix (United States)), Sharoni Jacobs(Helix (United States)), Geraint Levan(Helix (United States)), Jason Nguyen(Helix (United States)), Jimmy M. Ramirez(Helix (United States)), Charlotte Rivera-Garcia(Helix (United States)), Efren Sandoval(Helix (United States)), Xueqing Wang(Helix (United States)), David Wong(Helix (United States)), Emily Spencer(Scripps Research Institute), Refugio Robles‐Sikisaka(Scripps Research Institute), Ezra Kurzban(Scripps Research Institute), Laura D. Hughes(Scripps Research Institute), Xianding Deng(University of California, San Francisco), Candace Wang(University of California, San Francisco), Venice Servellita(University of California, San Francisco), Holly Valentine(University of California San Diego), Peter De Hoff(University of California San Diego), Phoebe Seaver(University of California San Diego), Shashank Sathe(University of California San Diego), Kimberly Gietzen(Illumina (United States)), Brad Sickler(Illumina (United States)), Jay Antico(Illumina (United States)), Kelly Hoon(Illumina (United States)), Jianwen Liu(Illumina (United States)), Aaron Harding(Sharp HealthCare Foundation), Omid Bakhtar(Sharp HealthCare Foundation), Tracy Basler(Health and Human Services Agency), Brett Austin(Health and Human Services Agency), Magnus Isaksson(Helix (United States)), Phillip G. Febbo(Illumina (United States)), David G. Becker(Helix (United States)), Marc Laurent(Helix (United States)), Eric McDonald(Health and Human Services Agency), G Yeo(University of California San Diego), Rob Knight(University of California San Diego), Louise C. Laurent(University of California San Diego), Eileen de Feo(Illumina (United States)), Michael Worobey(University of Arizona), Charles Y. Chiu(University of California, San Francisco), Marc A. Suchard(University of California, Los Angeles), James T. Lu(Helix (United States)), William Lee(Helix (United States)), Kristian G. Andersen(Scripps Research Institute)

medRxiv

February 7, 2021

10.1101/2021.02.06.21251159

Cited by 106Open Access

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Abstract

As of January of 2021, the highly transmissible B.1.1.7 variant of SARS-CoV-2, which was first identified in the United Kingdom (U.K.), has gained a strong foothold across the world. Because of the sudden and rapid rise of B.1.1.7, we investigated the prevalence and growth dynamics of this variant in the United States (U.S.), tracking it back to its early emergence and onward local transmission. We found that the RT-qPCR testing anomaly of S gene target failure (SGTF), first observed in the U.K., was a reliable proxy for B.1.1.7 detection. We sequenced 212 B.1.1.7 SARS-CoV-2 genomes collected from testing facilities in the U.S. from December 2020 to January 2021. We found that while the fraction of B.1.1.7 among SGTF samples varied by state, detection of the variant increased at a logistic rate similar to those observed elsewhere, with a doubling rate of a little over a week and an increased transmission rate of 35-45%. By performing time-aware Bayesian phylodynamic analyses, we revealed several independent introductions of B.1.1.7 into the U.S. as early as late November 2020, with onward community transmission enabling the variant to spread to at least 30 states as of January 2021. Our study shows that the U.S. is on a similar trajectory as other countries where B.1.1.7 rapidly became the dominant SARS-CoV-2 variant, requiring immediate and decisive action to minimize COVID-19 morbidity and mortality.

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