Viral genomes reveal patterns of the SARS-CoV-2 outbreak in Washington State | Zendy

Nicola F. Müller | Zendy; Cassia Wagner | Zendy; Chris Frazar | Zendy; Pavitra Roychoudhury | Zendy; Jover Lee | Zendy; Louise H. Moncla | Zendy; Benjamin Pelle | Zendy; M Richardson | Zendy; Erica Ryke | Zendy; Hong Xie | Zendy; Lasata Shrestha | Zendy; Amin Addetia | Zendy; Victoria M. Rachleff | Zendy; Nicole A. P. Lieberman | Zendy; MeeiLi Huang | Zendy; Romesh Gautom | Zendy; Geoff Melly | Zendy; Brian Hiatt | Zendy; Philip Dykema | Zendy; Amanda Adler | Zendy; Elisabeth Brandstetter | Zendy; Peter D. Han | Zendy; Kairsten Fay | Zendy; Misja Ilcisin | Zendy; Kirsten Lacombe | Zendy; Thomas R. Sibley | Zendy; Melissa Truong | Zendy; Caitlin R. Wolf | Zendy; Michael Boeckh | Zendy; Janet A. Englund | Zendy; Michael Famulare | Zendy; Barry R. Lutz | Zendy; Mark J. Rieder | Zendy; Matthew Thompson | Zendy; Jeffrey S. Duchin | Zendy; Lea M. Starita | Zendy; Helen Y. Chu | Zendy; Jay Shendure | Zendy; Keith R. Jerome | Zendy; Scott Lindquist | Zendy; Alexander L. Greninger | Zendy; Deborah A. Nickerson | Zendy; Trevor Bedford | Zendy

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Viral genomes reveal patterns of the SARS-CoV-2 outbreak in Washington State

Author(s) -

Nicola F. Müller,

Cassia Wagner,

Chris Frazar,

Pavitra Roychoudhury,

Jover Lee,

Louise H. Moncla,

Benjamin Pelle,

M Richardson,

Erica Ryke,

Hong Xie,

Lasata Shrestha,

Amin Addetia,

Victoria M. Rachleff,

Nicole A. P. Lieberman,

MeeiLi Huang,

Romesh Gautom,

Geoff Melly,

Brian Hiatt,

Philip Dykema,

Amanda Adler,

Elisabeth Brandstetter,

Peter D. Han,

Kairsten Fay,

Misja Ilcisin,

Kirsten Lacombe,

Thomas R. Sibley,

Melissa Truong,

Caitlin R. Wolf,

Michael Boeckh,

Janet A. Englund,

Michael Famulare,

Barry R. Lutz,

Mark J. Rieder,

Matthew Thompson,

Jeffrey S. Duchin,

Lea M. Starita,

Helen Y. Chu,

Jay Shendure,

Keith R. Jerome,

Scott Lindquist,

Alexander L. Greninger,

Deborah A. Nickerson,

Trevor Bedford

Publication year - 2021

Publication title -

science translational medicine

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 6.819

H-Index - 216

eISSN - 1946-6242

pISSN - 1946-6234

DOI - 10.1126/scitranslmed.abf0202

Subject(s) - outbreak , pandemic , covid-19 , biology , genome , virology , transmission (telecommunications) , coronavirus , viral load , virus , viral evolution , evolutionary biology , genetics , medicine , gene , disease , infectious disease (medical specialty) , pathology , electrical engineering , engineering

The rapid spread of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has gravely affected societies around the world. Outbreaks in different parts of the globe have been shaped by repeated introductions of new viral lineages and subsequent local transmission of those lineages. Here, we sequenced 3940 SARS-CoV-2 viral genomes from Washington State (USA) to characterize how the spread of SARS-CoV-2 in Washington State in early 2020 was shaped by differences in timing of mitigation strategies across counties and by repeated introductions of viral lineages into the state. In addition, we show that the increase in frequency of a potentially more transmissible viral variant (614G) over time can potentially be explained by regional mobility differences and multiple introductions of 614G but not the other variant (614D) into the state. At an individual level, we observed evidence of higher viral loads in patients infected with the 614G variant. However, using clinical records data, we did not find any evidence that the 614G variant affects clinical severity or patient outcomes. Overall, this suggests that with regard to D614G, the behavior of individuals has been more important in shaping the course of the pandemic in Washington State than this variant of the virus.

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