Whole genome characterization of a G6P[5] rotavirus A strain isolated from a stray cat in Japan

•An unusual G6P[5] rotavirus A strain, FRV537, was isolated from a stray cat.•The genotype constellation of FRV537 was G6-P[5]-I2-R2-C2-M2-A13-N2-T6-E2-H3.•FRV537 showed a close relationship with bovine rotaviruses in all genome segments.•The cat was most probably infected with a bovine rotavirus st...

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Published inVeterinary microbiology Vol. 188; pp. 25 - 33
Main Authors Kaneko, Miho, Mochizuki, Masami, Nakagomi, Osamu, Nakagomi, Toyoko
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier B.V 30.05.2016
Subjects
Animals
Bovine rotavirus
capsid
Cat Diseases - virology
Cats
cattle
G6P
genes
Genome, Viral - genetics
Genotype
horses
Interspecies transmission
Japan
nucleotide sequences
Phylogeny
Rotavirus
Rotavirus - classification
Rotavirus - genetics
Rotavirus - isolation & purification
Rotavirus Infections - veterinary
Rotavirus Infections - virology
Sequence Homology, Nucleic Acid
Stray cat
Japan
G6P
Interspecies transmission
Stray cat
Rotavirus
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Abstract •An unusual G6P[5] rotavirus A strain, FRV537, was isolated from a stray cat.•The genotype constellation of FRV537 was G6-P[5]-I2-R2-C2-M2-A13-N2-T6-E2-H3.•FRV537 showed a close relationship with bovine rotaviruses in all genome segments.•The cat was most probably infected with a bovine rotavirus strain. The whole genome of an unusual G6P[5] rotavirus A strain named FRV537, which was isolated from a stray cat in Japan, was characterized to determine its species of origin. The genotype constellation of FRV537 was G6-P[5]-I2-R2-C2-M2-A13-N2- T6-E2-H3. No known feline rotavirus has this genotype constellation; the Japanese equine strain OH-4 is the only known strain that does. While FRV537 shares the same genotype with some feline rotaviruses in all genes except those encoding VP4 and NSP1, none of these genes are closely related to those of known feline rotaviruses. By contrast, G6P[5] is almost exclusively present in bovine rotaviruses. The VP7 and VP4 genes of FRV537 formed a lineage with typical bovine rotaviruses with high bootstrap values. As to the internal capsid and nonstructural gene constellation, three bovine rotavirus strains had a constellation identical to that of FRV537. Moreover, each of the genotypes of FRV537 was found to be a common bovine genotype. In addition to the high nucleotide sequence identities between FRV537 and bovine rotaviruses in each genome segment (≥95%), phylogenetic analysis revealed a close relationship to bovine/artiodactyl rotaviruses. Thus, the molecular and phylogenetic evidence suggests that FRV537 isolated from a stray cat was of bovine rotavirus origin.
AbstractList The whole genome of an unusual G6P[5] rotavirus A strain named FRV537, which was isolated from a stray cat in Japan, was characterized to determine its species of origin. The genotype constellation of FRV537 was G6-P[5]-I2-R2-C2-M2-A13-N2- T6-E2-H3. No known feline rotavirus has this genotype constellation; the Japanese equine strain OH-4 is the only known strain that does. While FRV537 shares the same genotype with some feline rotaviruses in all genes except those encoding VP4 and NSP1, none of these genes are closely related to those of known feline rotaviruses. By contrast, G6P[5] is almost exclusively present in bovine rotaviruses. The VP7 and VP4 genes of FRV537 formed a lineage with typical bovine rotaviruses with high bootstrap values. As to the internal capsid and nonstructural gene constellation, three bovine rotavirus strains had a constellation identical to that of FRV537. Moreover, each of the genotypes of FRV537 was found to be a common bovine genotype. In addition to the high nucleotide sequence identities between FRV537 and bovine rotaviruses in each genome segment (≥95%), phylogenetic analysis revealed a close relationship to bovine/artiodactyl rotaviruses. Thus, the molecular and phylogenetic evidence suggests that FRV537 isolated from a stray cat was of bovine rotavirus origin.
•An unusual G6P[5] rotavirus A strain, FRV537, was isolated from a stray cat.•The genotype constellation of FRV537 was G6-P[5]-I2-R2-C2-M2-A13-N2-T6-E2-H3.•FRV537 showed a close relationship with bovine rotaviruses in all genome segments.•The cat was most probably infected with a bovine rotavirus strain. The whole genome of an unusual G6P[5] rotavirus A strain named FRV537, which was isolated from a stray cat in Japan, was characterized to determine its species of origin. The genotype constellation of FRV537 was G6-P[5]-I2-R2-C2-M2-A13-N2- T6-E2-H3. No known feline rotavirus has this genotype constellation; the Japanese equine strain OH-4 is the only known strain that does. While FRV537 shares the same genotype with some feline rotaviruses in all genes except those encoding VP4 and NSP1, none of these genes are closely related to those of known feline rotaviruses. By contrast, G6P[5] is almost exclusively present in bovine rotaviruses. The VP7 and VP4 genes of FRV537 formed a lineage with typical bovine rotaviruses with high bootstrap values. As to the internal capsid and nonstructural gene constellation, three bovine rotavirus strains had a constellation identical to that of FRV537. Moreover, each of the genotypes of FRV537 was found to be a common bovine genotype. In addition to the high nucleotide sequence identities between FRV537 and bovine rotaviruses in each genome segment (≥95%), phylogenetic analysis revealed a close relationship to bovine/artiodactyl rotaviruses. Thus, the molecular and phylogenetic evidence suggests that FRV537 isolated from a stray cat was of bovine rotavirus origin.
The whole genome of an unusual G6P[5] rotavirus A strain named FRV537, which was isolated from a stray cat in Japan, was characterized to determine its species of origin. The genotype constellation of FRV537 was G6-P[5]-I2-R2-C2-M2-A13-N2- T6-E2-H3. No known feline rotavirus has this genotype constellation; the Japanese equine strain OH-4 is the only known strain that does. While FRV537 shares the same genotype with some feline rotaviruses in all genes except those encoding VP4 and NSP1, none of these genes are closely related to those of known feline rotaviruses. By contrast, G6P[5] is almost exclusively present in bovine rotaviruses. The VP7 and VP4 genes of FRV537 formed a lineage with typical bovine rotaviruses with high bootstrap values. As to the internal capsid and nonstructural gene constellation, three bovine rotavirus strains had a constellation identical to that of FRV537. Moreover, each of the genotypes of FRV537 was found to be a common bovine genotype. In addition to the high nucleotide sequence identities between FRV537 and bovine rotaviruses in each genome segment ( greater than or equal to 95%), phylogenetic analysis revealed a close relationship to bovine/artiodactyl rotaviruses. Thus, the molecular and phylogenetic evidence suggests that FRV537 isolated from a stray cat was of bovine rotavirus origin.
Author Nakagomi, Toyoko
Mochizuki, Masami
Nakagomi, Osamu
Kaneko, Miho
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Keywords G6P
Interspecies transmission
Stray cat
Rotavirus
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Snippet •An unusual G6P[5] rotavirus A strain, FRV537, was isolated from a stray cat.•The genotype constellation of FRV537 was...
The whole genome of an unusual G6P[5] rotavirus A strain named FRV537, which was isolated from a stray cat in Japan, was characterized to determine its species...
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SubjectTerms Animals
Bovine rotavirus
capsid
Cat Diseases - virology
Cats
cattle
G6P
genes
Genome, Viral - genetics
Genotype
horses
Interspecies transmission
Japan
nucleotide sequences
Phylogeny
Rotavirus
Rotavirus - classification
Rotavirus - genetics
Rotavirus - isolation & purification
Rotavirus Infections - veterinary
Rotavirus Infections - virology
Sequence Homology, Nucleic Acid
Stray cat
Title Whole genome characterization of a G6P[5] rotavirus A strain isolated from a stray cat in Japan
URI https://dx.doi.org/10.1016/j.vetmic.2016.04.006
https://www.ncbi.nlm.nih.gov/pubmed/27139026
https://www.proquest.com/docview/1808668470
https://www.proquest.com/docview/1846344475
Volume 188
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