Should we pay attention to recombinant norovirus strain GII.P7/GII.6?

Should we pay attention to recombinant norovirus strain GII.P7/GII.6?

Background: Recombinant norovirus strain GII.P7/GII.6 has been circulating in Asia and around the world for at least 20 years, but has been responsible for relatively few outbreaks. Methods: We used statistical analyses, real-time reverse transcription – PCR, and genome sequence analyses to investig...

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Main Authors: Xiaogen Dong, Meng Qin, Zhao-e Wang, Xiaoxing Yang, Qingrui Wu, Huiru Feng, Xiuxia Wei, Hong Yu, Jinsong Li, Jie Li
Format: Article
Language:English
Published: Elsevier 2019-05-01
Series:Journal of Infection and Public Health
Online Access:http://www.sciencedirect.com/science/article/pii/S1876034118303393
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spelling doaj-9b7b0ac0c0c2429aab42901c1d34956a2020-11-25T00:34:19ZengElsevierJournal of Infection and Public Health1876-03412019-05-01123403409Should we pay attention to recombinant norovirus strain GII.P7/GII.6?Xiaogen Dong0Meng Qin1Zhao-e Wang2Xiaoxing Yang3Qingrui Wu4Huiru Feng5Xiuxia Wei6Hong Yu7Jinsong Li8Jie Li9Fengtai District Center for Disease Control and Prevention of Beijing, 3 Xi An St., Feng-Tai District, Beijing, 100071, ChinaFengtai District Center for Disease Control and Prevention of Beijing, 3 Xi An St., Feng-Tai District, Beijing, 100071, ChinaFengtai District Center for Disease Control and Prevention of Beijing, 3 Xi An St., Feng-Tai District, Beijing, 100071, ChinaFengtai District Center for Disease Control and Prevention of Beijing, 3 Xi An St., Feng-Tai District, Beijing, 100071, ChinaFengtai District Center for Disease Control and Prevention of Beijing, 3 Xi An St., Feng-Tai District, Beijing, 100071, ChinaFengtai District Center for Disease Control and Prevention of Beijing, 3 Xi An St., Feng-Tai District, Beijing, 100071, ChinaFengtai District Center for Disease Control and Prevention of Beijing, 3 Xi An St., Feng-Tai District, Beijing, 100071, ChinaFengtai District Center for Disease Control and Prevention of Beijing, 3 Xi An St., Feng-Tai District, Beijing, 100071, ChinaChina CDC, National Institute for Viral Disease Control and Prevention, 100 Ying-Xin St., Xuan-Wu District, Beijing, 100052, China; Corresponding author.Fengtai District Center for Disease Control and Prevention of Beijing, 3 Xi An St., Feng-Tai District, Beijing, 100071, China; Corresponding author.Background: Recombinant norovirus strain GII.P7/GII.6 has been circulating in Asia and around the world for at least 20 years, but has been responsible for relatively few outbreaks. Methods: We used statistical analyses, real-time reverse transcription – PCR, and genome sequence analyses to investigate an outbreak of gastroenteritis, identifying the pathogen, the risk factors associated with the outbreak, and the molecular features of GII.P7/GII.6 strains. Results: An outbreak of gastroenteritis was reported at a school involving 12 students and lasting 6 days, from September 13 to September 18, 2017. Epidemiological studies suggested that norovirus was transmitted from person to person and not via contaminated food or drinking water in this outbreak. Using a sequence analysis of the junction region between open reading frames 1 and 2, the pathogen was identified as a recombinant norovirus (strain GII.P7/GII.6).The full-length genome of the outbreak strain shared 86%–97% identity with those of other GII.P7/GII.6 strains. Phylogenetic trees were constructed from partial open reading frame 1 (ORF1) and ORF2 sequences from the outbreak strain and GII.P7/GII.6 norovirus sequences available in GenBank. On the ORF1 tree, the partial sequences of ORF1 were grouped into cluster A (with GII.6), cluster B (with GII.7), and a separate cluster (C), based on the GII.6 and GII.7 reference strains. The ORF2 tree showed all GII.P7/GII.6 strains formed a cluster together with GII.6 strains. Amino-acid substitutions and insertions/deletions were common in the capsid protein, especially in it’s P2 and P1 domains. The outbreak was controlled within several days using appropriate measures. Conclusions: Because it may play a prominent role in future outbreaks, recombinant norovirus strain GII.P7/GII.6 should be monitored with routine surveillance. Keywords: Norovirus, Strain GII.P7/GII.6, Recombinant strain, Gastroenteritis, Outbreak investigation, Evolution, Phylogenetichttp://www.sciencedirect.com/science/article/pii/S1876034118303393
collection DOAJ
language English
format Article
sources DOAJ
author Xiaogen Dong
Meng Qin
Zhao-e Wang
Xiaoxing Yang
Qingrui Wu
Huiru Feng
Xiuxia Wei
Hong Yu
Jinsong Li
Jie Li
spellingShingle Xiaogen Dong
Meng Qin
Zhao-e Wang
Xiaoxing Yang
Qingrui Wu
Huiru Feng
Xiuxia Wei
Hong Yu
Jinsong Li
Jie Li
Should we pay attention to recombinant norovirus strain GII.P7/GII.6?
Journal of Infection and Public Health
author_facet Xiaogen Dong
Meng Qin
Zhao-e Wang
Xiaoxing Yang
Qingrui Wu
Huiru Feng
Xiuxia Wei
Hong Yu
Jinsong Li
Jie Li
author_sort Xiaogen Dong
title Should we pay attention to recombinant norovirus strain GII.P7/GII.6?
title_short Should we pay attention to recombinant norovirus strain GII.P7/GII.6?
title_full Should we pay attention to recombinant norovirus strain GII.P7/GII.6?
title_fullStr Should we pay attention to recombinant norovirus strain GII.P7/GII.6?
title_full_unstemmed Should we pay attention to recombinant norovirus strain GII.P7/GII.6?
title_sort should we pay attention to recombinant norovirus strain gii.p7/gii.6?
publisher Elsevier
series Journal of Infection and Public Health
issn 1876-0341
publishDate 2019-05-01
description Background: Recombinant norovirus strain GII.P7/GII.6 has been circulating in Asia and around the world for at least 20 years, but has been responsible for relatively few outbreaks. Methods: We used statistical analyses, real-time reverse transcription – PCR, and genome sequence analyses to investigate an outbreak of gastroenteritis, identifying the pathogen, the risk factors associated with the outbreak, and the molecular features of GII.P7/GII.6 strains. Results: An outbreak of gastroenteritis was reported at a school involving 12 students and lasting 6 days, from September 13 to September 18, 2017. Epidemiological studies suggested that norovirus was transmitted from person to person and not via contaminated food or drinking water in this outbreak. Using a sequence analysis of the junction region between open reading frames 1 and 2, the pathogen was identified as a recombinant norovirus (strain GII.P7/GII.6).The full-length genome of the outbreak strain shared 86%–97% identity with those of other GII.P7/GII.6 strains. Phylogenetic trees were constructed from partial open reading frame 1 (ORF1) and ORF2 sequences from the outbreak strain and GII.P7/GII.6 norovirus sequences available in GenBank. On the ORF1 tree, the partial sequences of ORF1 were grouped into cluster A (with GII.6), cluster B (with GII.7), and a separate cluster (C), based on the GII.6 and GII.7 reference strains. The ORF2 tree showed all GII.P7/GII.6 strains formed a cluster together with GII.6 strains. Amino-acid substitutions and insertions/deletions were common in the capsid protein, especially in it’s P2 and P1 domains. The outbreak was controlled within several days using appropriate measures. Conclusions: Because it may play a prominent role in future outbreaks, recombinant norovirus strain GII.P7/GII.6 should be monitored with routine surveillance. Keywords: Norovirus, Strain GII.P7/GII.6, Recombinant strain, Gastroenteritis, Outbreak investigation, Evolution, Phylogenetic
url http://www.sciencedirect.com/science/article/pii/S1876034118303393
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