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PeerJ . Genomic analysis of early transmissibility assessment of the D614G mutant strain of SARS-CoV-2 in travelers returning to Taiwan from the United States of America

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  • PeerJ . Genomic analysis of early transmissibility assessment of the D614G mutant strain of SARS-CoV-2 in travelers returning to Taiwan from the United States of America


    PeerJ


    . 2021 Sep 2;9:e11991.
    doi: 10.7717/peerj.11991. eCollection 2021.
    Genomic analysis of early transmissibility assessment of the D614G mutant strain of SARS-CoV-2 in travelers returning to Taiwan from the United States of America


    Ming-Jr Jian 1 , Hsing-Yi Chung 1 , Chih-Kai Chang 1 , Shan-Shan Hsieh 1 , Jung-Chung Lin 2 , Kuo-Ming Yeh 2 , Chien-Wen Chen 3 , Feng-Yee Chang 2 , Kuo-Sheng **** 4 , Ming-Tsan Liu 5 , Ji-Rong Yang 5 , Tein-Yao Chang 6 , Sheng-Hui Tang 1 , Cherng-Lih Perng 1 , ****-Sheng Shang 1



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    Abstract

    Background: There is a global pandemic of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Information on viral genomics is crucial for understanding global dispersion and for providing insight into viral pathogenicity and transmission. Here, we characterized the SARS-CoV-2 genomes isolated from five travelers who returned to Taiwan from the United States of America (USA) between March and April 2020.
    Methods: Haplotype network analysis was performed using genome-wide single-nucleotide variations to trace potential infection routes. To determine the genetic variations and evolutionary trajectory of the isolates, the genomes of isolates were compared to those of global virus strains from GISAID. Pharyngeal specimens were confirmed to be SARS-CoV-2-positive by RT-PCR. Direct whole-genome sequencing was performed, and viral assemblies were subsequently uploaded to GISAID. Comparative genome sequence and single-nucleotide variation analyses were performed.
    Results: The D614G mutation was identified in imported cases, which separated into two clusters related to viruses originally detected in the USA. Our findings highlight the risk of spreading SARS-CoV-2 variants through air travel and the need for continued genomic tracing for the epidemiological investigation and surveillance of SARS-CoV-2 using viral genomic data.
    Conclusions: Continuous genomic surveillance is warranted to trace virus circulation and evolution in different global settings during future outbreaks.

    Keywords: COVID-19; Imported case; Phylogenetic analysis; SARS-CoV-2; Whole-genome sequencing.

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