Longitudinal epidemiology of human coronavirus OC43 in Yamagata, Japan, 2010–2017: Two groups based on spike gene appear one after another

Human coronavirus OC43 (HCoV‐OC43) is divided into genotypes A to H based on genetic recombination including the spike (S) gene. To investigate the longitudinal transition of the phylogenetic feature of the HCoV‐OC43 S gene in a community, phylogenetic analysis of the S1 region of the S gene was con...

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Published inJournal of medical virology Vol. 93; no. 2; pp. 945 - 951
Main Authors Komabayashi, Kenichi, Matoba, Yohei, Tanaka, Shizuka, Seto, Junji, Aoki, Yoko, Ikeda, Tatsuya, Shimotai, Yoshitaka, Matsuzaki, Yoko, Itagaki, Tsutomu, Mizuta, Katsumi
Format Journal Article
LanguageEnglish
Published United States Wiley Subscription Services, Inc 01.02.2021
Subjects
acute respiratory infection
Adolescent
Adult
Child
Child, Preschool
Clusters
Coronaviridae
Coronavirus Infections - epidemiology
Coronavirus Infections - virology
Coronavirus OC43, Human - classification
Coronavirus OC43, Human - genetics
Coronaviruses
Epidemics
Epidemiology
Evolution, Molecular
Female
Genotype
Genotype & phenotype
Genotypes
Humans
Infant
Infant, Newborn
influenza‐like illness
Longitudinal Studies
Male
Middle Aged
outpatient clinic
phylogenetic tree
Phylogenetics
Phylogeny
Recombination
Recombination, Genetic
RNA, Viral - genetics
S gene
Sequence Analysis, DNA
Spike Glycoprotein, Coronavirus - genetics
Spikes
Strains (organisms)
Virology
Young Adult
Japan
phylogenetic tree
outpatient clinic
acute respiratory infection
influenza-like illness
Online AccessGet full text
ISSN0146-6615
1096-9071
1096-9071
DOI10.1002/jmv.26361

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Abstract Human coronavirus OC43 (HCoV‐OC43) is divided into genotypes A to H based on genetic recombination including the spike (S) gene. To investigate the longitudinal transition of the phylogenetic feature of the HCoV‐OC43 S gene in a community, phylogenetic analysis of the S1 region of the S gene was conducted using 208 strains detected in Yamagata during 2010 to 2017 with reference strains of the genotype. The S1 sequences were divisible into four groups: A to D. All Yamagata strains belonged to either group B or group D. In group B, 46 (90.2%) out of 51 Yamagata strains were clustered with those of genotype E reference strains (cluster E). In group D, 28 (17.8%) and 122 (77.7%) out of 157 Yamagata strains were clustered, respectively, with genotype F and genotype G reference strains. In cluster G, 28 strains formed a distinct cluster. Monthly distributions of HCoV‐OC43 in Yamagata in 2010 to 2017 revealed that group B and group D appeared one after another. In group B, the cluster E strains were prevalent recurrently. In conclusion, epidemics of HCoV‐OC43 in Yamagata, Japan might be attributable to two genetically different groups: group B showed a recurrent epidemic of strains belonging to a single phylogenetic cluster and group D showed epidemic strains belonging to multiple clusters. Highlights Longitudinal transition of the phylogenetic feature of the HCoV‐OC43 spike gene in a community. Epidemics of HCoV‐OC43 in Yamagata, Japan might be attributable to two genetically different groups.
AbstractList Human coronavirus OC43 (HCoV-OC43) is divided into genotypes A to H based on genetic recombination including the spike (S) gene. To investigate the longitudinal transition of the phylogenetic feature of the HCoV-OC43 S gene in a community, phylogenetic analysis of the S1 region of the S gene was conducted using 208 strains detected in Yamagata during 2010 to 2017 with reference strains of the genotype. The S1 sequences were divisible into four groups: A to D. All Yamagata strains belonged to either group B or group D. In group B, 46 (90.2%) out of 51 Yamagata strains were clustered with those of genotype E reference strains (cluster E). In group D, 28 (17.8%) and 122 (77.7%) out of 157 Yamagata strains were clustered, respectively, with genotype F and genotype G reference strains. In cluster G, 28 strains formed a distinct cluster. Monthly distributions of HCoV-OC43 in Yamagata in 2010 to 2017 revealed that group B and group D appeared one after another. In group B, the cluster E strains were prevalent recurrently. In conclusion, epidemics of HCoV-OC43 in Yamagata, Japan might be attributable to two genetically different groups: group B showed a recurrent epidemic of strains belonging to a single phylogenetic cluster and group D showed epidemic strains belonging to multiple clusters.
Human coronavirus OC43 (HCoV-OC43) is divided into genotypes A to H based on genetic recombination including the spike (S) gene. To investigate the longitudinal transition of the phylogenetic feature of the HCoV-OC43 S gene in a community, phylogenetic analysis of the S1 region of the S gene was conducted using 208 strains detected in Yamagata during 2010 to 2017 with reference strains of the genotype. The S1 sequences were divisible into four groups: A to D. All Yamagata strains belonged to either group B or group D. In group B, 46 (90.2%) out of 51 Yamagata strains were clustered with those of genotype E reference strains (cluster E). In group D, 28 (17.8%) and 122 (77.7%) out of 157 Yamagata strains were clustered, respectively, with genotype F and genotype G reference strains. In cluster G, 28 strains formed a distinct cluster. Monthly distributions of HCoV-OC43 in Yamagata in 2010 to 2017 revealed that group B and group D appeared one after another. In group B, the cluster E strains were prevalent recurrently. In conclusion, epidemics of HCoV-OC43 in Yamagata, Japan might be attributable to two genetically different groups: group B showed a recurrent epidemic of strains belonging to a single phylogenetic cluster and group D showed epidemic strains belonging to multiple clusters.Human coronavirus OC43 (HCoV-OC43) is divided into genotypes A to H based on genetic recombination including the spike (S) gene. To investigate the longitudinal transition of the phylogenetic feature of the HCoV-OC43 S gene in a community, phylogenetic analysis of the S1 region of the S gene was conducted using 208 strains detected in Yamagata during 2010 to 2017 with reference strains of the genotype. The S1 sequences were divisible into four groups: A to D. All Yamagata strains belonged to either group B or group D. In group B, 46 (90.2%) out of 51 Yamagata strains were clustered with those of genotype E reference strains (cluster E). In group D, 28 (17.8%) and 122 (77.7%) out of 157 Yamagata strains were clustered, respectively, with genotype F and genotype G reference strains. In cluster G, 28 strains formed a distinct cluster. Monthly distributions of HCoV-OC43 in Yamagata in 2010 to 2017 revealed that group B and group D appeared one after another. In group B, the cluster E strains were prevalent recurrently. In conclusion, epidemics of HCoV-OC43 in Yamagata, Japan might be attributable to two genetically different groups: group B showed a recurrent epidemic of strains belonging to a single phylogenetic cluster and group D showed epidemic strains belonging to multiple clusters.
Human coronavirus OC43 (HCoV‐OC43) is divided into genotypes A to H based on genetic recombination including the spike (S) gene. To investigate the longitudinal transition of the phylogenetic feature of the HCoV‐OC43 S gene in a community, phylogenetic analysis of the S1 region of the S gene was conducted using 208 strains detected in Yamagata during 2010 to 2017 with reference strains of the genotype. The S1 sequences were divisible into four groups: A to D. All Yamagata strains belonged to either group B or group D. In group B, 46 (90.2%) out of 51 Yamagata strains were clustered with those of genotype E reference strains (cluster E). In group D, 28 (17.8%) and 122 (77.7%) out of 157 Yamagata strains were clustered, respectively, with genotype F and genotype G reference strains. In cluster G, 28 strains formed a distinct cluster. Monthly distributions of HCoV‐OC43 in Yamagata in 2010 to 2017 revealed that group B and group D appeared one after another. In group B, the cluster E strains were prevalent recurrently. In conclusion, epidemics of HCoV‐OC43 in Yamagata, Japan might be attributable to two genetically different groups: group B showed a recurrent epidemic of strains belonging to a single phylogenetic cluster and group D showed epidemic strains belonging to multiple clusters. Highlights Longitudinal transition of the phylogenetic feature of the HCoV‐OC43 spike gene in a community. Epidemics of HCoV‐OC43 in Yamagata, Japan might be attributable to two genetically different groups.
Human coronavirus OC43 (HCoV‐OC43) is divided into genotypes A to H based on genetic recombination including the spike ( S ) gene. To investigate the longitudinal transition of the phylogenetic feature of the HCoV‐OC43 S gene in a community, phylogenetic analysis of the S1 region of the  S gene was conducted using 208 strains detected in Yamagata during 2010 to 2017 with reference strains of the genotype. The S1 sequences were divisible into four groups: A to D. All Yamagata strains belonged to either group B or group D. In group B, 46 (90.2%) out of 51 Yamagata strains were clustered with those of genotype E reference strains (cluster E). In group D, 28 (17.8%) and 122 (77.7%) out of 157 Yamagata strains were clustered, respectively, with genotype F and genotype G reference strains. In cluster G, 28 strains formed a distinct cluster. Monthly distributions of HCoV‐OC43 in Yamagata in 2010 to 2017 revealed that group B and group D appeared one after another. In group B, the cluster E strains were prevalent recurrently. In conclusion, epidemics of HCoV‐OC43 in Yamagata, Japan might be attributable to two genetically different groups: group B showed a recurrent epidemic of strains belonging to a single phylogenetic cluster and group D showed epidemic strains belonging to multiple clusters. Longitudinal transition of the phylogenetic feature of the HCoV‐OC43 spike gene in a community. Epidemics of HCoV‐OC43 in Yamagata, Japan might be attributable to two genetically different groups.
Human coronavirus OC43 (HCoV‐OC43) is divided into genotypes A to H based on genetic recombination including the spike (S) gene. To investigate the longitudinal transition of the phylogenetic feature of the HCoV‐OC43 S gene in a community, phylogenetic analysis of the S1 region of the S gene was conducted using 208 strains detected in Yamagata during 2010 to 2017 with reference strains of the genotype. The S1 sequences were divisible into four groups: A to D. All Yamagata strains belonged to either group B or group D. In group B, 46 (90.2%) out of 51 Yamagata strains were clustered with those of genotype E reference strains (cluster E). In group D, 28 (17.8%) and 122 (77.7%) out of 157 Yamagata strains were clustered, respectively, with genotype F and genotype G reference strains. In cluster G, 28 strains formed a distinct cluster. Monthly distributions of HCoV‐OC43 in Yamagata in 2010 to 2017 revealed that group B and group D appeared one after another. In group B, the cluster E strains were prevalent recurrently. In conclusion, epidemics of HCoV‐OC43 in Yamagata, Japan might be attributable to two genetically different groups: group B showed a recurrent epidemic of strains belonging to a single phylogenetic cluster and group D showed epidemic strains belonging to multiple clusters.
Author Matsuzaki, Yoko
Komabayashi, Kenichi
Itagaki, Tsutomu
Ikeda, Tatsuya
Matoba, Yohei
Seto, Junji
Aoki, Yoko
Mizuta, Katsumi
Tanaka, Shizuka
Shimotai, Yoshitaka
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Keywords phylogenetic tree
outpatient clinic
acute respiratory infection
influenza-like illness
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Notes Yohei Matoba, Division of Food Safety and Health, Yamagata Prefectural Government, Yamagata, Japan. Shizuka Tanaka, Department of Laboratory Medicine, Yamagata Prefectural Central Hospital, Yamagata, Japan. Tatsuya Ikeda, Division of Health and Welfare Planning, Yamagata Prefectural Government, Yamagata, Japan.
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Snippet Human coronavirus OC43 (HCoV‐OC43) is divided into genotypes A to H based on genetic recombination including the spike (S) gene. To investigate the...
Human coronavirus OC43 (HCoV‐OC43) is divided into genotypes A to H based on genetic recombination including the spike ( S ) gene. To investigate the...
Human coronavirus OC43 (HCoV-OC43) is divided into genotypes A to H based on genetic recombination including the spike (S) gene. To investigate the...
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SubjectTerms acute respiratory infection
Adolescent
Adult
Child
Child, Preschool
Clusters
Coronaviridae
Coronavirus Infections - epidemiology
Coronavirus Infections - virology
Coronavirus OC43, Human - classification
Coronavirus OC43, Human - genetics
Coronaviruses
Epidemics
Epidemiology
Evolution, Molecular
Female
Genotype
Genotype & phenotype
Genotypes
Humans
Infant
Infant, Newborn
influenza‐like illness
Longitudinal Studies
Male
Middle Aged
outpatient clinic
phylogenetic tree
Phylogenetics
Phylogeny
Recombination
Recombination, Genetic
RNA, Viral - genetics
S gene
Sequence Analysis, DNA
Spike Glycoprotein, Coronavirus - genetics
Spikes
Strains (organisms)
Virology
Young Adult
Title Longitudinal epidemiology of human coronavirus OC43 in Yamagata, Japan, 2010–2017: Two groups based on spike gene appear one after another
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fjmv.26361
https://www.ncbi.nlm.nih.gov/pubmed/32720708
https://www.proquest.com/docview/2473800979
https://www.proquest.com/docview/2428059174
Volume 93
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