key: cord-0710850-qipffl8e
authors: Chen, Cao; Ma, Hemuti; Jia, Zhiyuan; Zhao, Xiang; Wang, Dayan; Zhao, Jun; Gao, Zhenguo; Liu, Peipei; Song, Yang; Chen, Zhixiao; Wu, Yuchao; Meng, Yao; Wu, Guizhen; Xu, Wenbo; Fan, Xucheng; Zhang, Yong
title: Reemergent Cases of COVID-19 — Xinjiang Uygur Autonomous Region, China, July 16, 2020
date: 2020-09-25
journal: China CDC Wkly
DOI: 10.46234/ccdcw2020.206
sha: b9d5ddb101b2b581ece41a0e08fddb9ebca62545
doc_id: 710850
cord_uid: qipffl8e

nan

Before the coronavirus disease 2019 (COVID-19) outbreak on July 16, 2020, no new COVID-19 cases were reported in Urumqi City of Xinjiang for 150 consecutive days. During this outbreak, 826 confirmed COVID-19 cases have been reported in Urumqi. The phylogenetic characteristics of COVID-19 virus from clinical specimens of the initial 4 cases in the Urumqi outbreak were sequenced.

The full-length genome sequencing of COVID-19 virus was performed on the Illumina MiSeq platform, and 4 full-length COVID-19 virus genome sequences were obtained from clinical specimens of the initial 4 cases in this outbreak. Compared with the reference sequence EPI_ISL_402119 (1), which was isolated from Wuhan City in Hubei Province on January 7, 2020. A total of 13 nucleotide variations were determined, among which 7 nucleotide variations (C241T, C3037T, C14408T, A23403G, G28881A, G28882A, and G28883C) were identified in each fulllength genome of the 4 Xinjiang strains, which were consistent with the characteristics of the L-lineage European branch 1/B.1.1 according to the latest classification principle (2) ( Figure 1 ). The Xinjiang strains were different from the previous hCoV-19/Wuhan/IVDC-HB-01/2019 hCoV-19/Wuhan/ IVDC-HB-03/2019 hCoV-19/Wuhan/IVDC-HB-05/2019 (belonging to S-lineage/A) strains in Wuhan in December 2019, indicating that they were not continuous transmission of indigenous COVID-19 virus strains. Other nucleotide substitutions were also identified in these Xinjiang strains, including C12789T and G14118T substitutions in all 4 genomes of the viruses, C2197T in specimen 1, C12809T in specimen 2, and C19718T and C23481T in specimen 3.

Since no Xinjiang strains contained the characteristic substitutions of Beijing Xinfadi strains (C6024T) (3) and Dalian strains (C2091T, A5128G, A8360G, C13860T, T19839C, G19999T, and C28905T) (4) and because the Beijing Xinfadi strains and Dalian strains also did not contain the characteristic substitutions of Xinjiang strains (C12789T and G14118T), the correlation between Xinjiang strains, Beijing Xinfadi strains, and Dalian strains were preliminarily excluded. The Xinjiang strains had high nucleotide similarity with several genomes of the COVID-19 virus (Shulan strains, Harbin strains) from the recently imported COVID-19 cases in northeastern China from April to May that also belonged to L-lineage European branch 1 (5) (6) . However, because of the interval (more than 2 months) and epidemiological evidence (no epidemiological link of the cases and contacts from Shulan and Harbin with the Xinjiang outbreak), the possibility of Harbin strains and Shulan strains spreading in Xinjiang was also ruled out. In addition, the full-length genome sequence analysis of the Xinjiang strains further confirmed that the virus source of the outbreak was not transmitted from natural animal hosts or intermediate animal hosts to human beings.

Although the source of COVID-19 virus of the Urumqi outbreak has not been determined, the possibility of transmission of the COVID-19 virus through importing contaminated products could not be excluded according to the characteristics of the recent COVID-19 outbreaks. Therefore, the COVID-19 virus detection in imported products should be further strengthened. Meanwhile, entry control at ports in Xinjiang and among key populations from Central Asia should be strengthened. A comprehensive analysis of epidemiology, serology, and etiology is needed to determine the source of the virus. 

HLJ-0418-36-Y' 'HLJ-0418-1-1' 'EPI ISL 408665|hCoV-19/Japan/TY-WK-012/2020|Asia/Japan|' 'EPI ISL 418366|hCoV-19/Canada/ON PHL3350/2020|North-America/Canada|' 'EPI ISL 422463|hCoV-19/USA/WI-GMF-00588/2020|North-America/USA|' 'EPI ISL 420080|hCoV-19/Russia/StPetersburg-RII3992/2020|Europe/Russia|' 'EPI ISL 419559|hCoV-19/USA/FL 5125/2020|North-America/USA|' 'EPI ISL 414624|hCoV-19/France/N1620/2020|Europe/France|' 'EPI ISL 424673|hCoV-19/Mexico/CDMX-InDRE 06/2020|North-America/Mexico|' 'EPI ISL 419296|hCoV-19/Japan/P1/2020|Asia/Japan|' 'nCoVBeijing IVDC-002 06 2020' 'EPI ISL 424912|hCoV-19/USA/MA 9889/2020|North-America/USA|' 'XJ3-0716-Y S29 L001 R1 001' 'EPI ISL 413997|hCoV-19/Switzerland/GE3895/2020|Europe/Switzerland|' 'EPI ISL 412973|hCoV-19/Italy/CDG1/2020|Europe/Italy|' 'nCoVBeijing IVDC-001 06 2020' 'EPI ISL 418390|hCoV-19/Finland/13M33/2020|Europe/Finland|' 'EPI ISL 413015|hCoV-19/Canada/ON-VIDO-01/2020|North-America/Canada|' 'EPI ISL 418269|hCoV-19/Vietnam/19-01S/2020|Asia/Vietnam|' 'EPI ISL

Europic Branch 1 (L-lineage B1.1)

FIGURE 1. Phylogenetic tree based on the full-length genome sequences of the COVID-19 virus. The genomes of COVID-19

The recent reemergence of COVID-19 virus in Beijing Xinfadi were highlighted in green, and the recent reemergence of COVID-19 virus in northeastern China (Shulan and Heilongjiang) that related to imported cases were highlighted in pink and brown

A novel coronavirus from patients with pneumonia in China

A dynamic nomenclature proposal for SARS-CoV-2 lineages to assist genomic epidemiology

Reemergent cases of COVID-19-Xinfadi wholesales market

Reemergent cases of COVID-19-Dalian City

The Initial Case of COVID-19-Shulan City

A reemergent case of COVID-19-Harbin City