Rotavirus RNA polymerases resolve into two phylogenetically distinct classes that differ in their mechanism of template recognition

Ogden,K.M.; Johne,R.; Patton,J.T.

Rotavirus RNA polymerases resolve into two phylogenetically distinct classes that differ in their mechanism of template recognition

2012

Ogden,K.M. | Johne,R. | Patton,J.T.

Rotaviruses (RVs) are segmented double-stranded RNA viruses that cause gastroenteritis in mammals and birds. Within the RV genus, eight species (RVA-RVH) have been proposed. Here, we report the first RVF and RVG sequences for the viral RNA polymerase (VP1)-encoding segments and compare them to those of other RV species. Phylogenetic analyses indicate that the VP1 RNA segments and proteins resolve into two major clades, with RVA, RVC, RVD and RVF in clade A, and RVB, RVG and RVH in clade B. Plus-strand RNA of clade A viruses, and not clade B viruses, contain a 3'-proximal UGUG cassette that serves as the VP1 recognition signal. VP1 structures for a representative of each RV species were predicted using homology modeling. Structural elements involved in interactions with the UGUG cassette were conserved among VP1 of clade A, suggesting a conserved mechanism of viral RNA recognition for these viruses.

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analyse analysis animals assessment aves bangladesh berlin bird birds bovine broiler broiler chickens chickens classification diarrhoea diseases dna epidemiology evolution gastroenteritis gene genes germany guanine health identification infection laboratories mammalia mammals model models molecular characterization nucleotide sequence origin phylogeny prediction protein proteins reovirus research risk risk assessment rna rna rna sequence rna virus rna viruses rotavirus sequence analysis sequence analysis signal species state strains system uridine virology viruses

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Publicado en

Virology

Volumen 431 Edición 1-2 Paginación 50 - 57

Editorial Elsevier

ISSN 0042-6822 | 1096-0341

Otras materias

Mammal; Double stranded rna; Molecular recognition; Genotype; Complexes; Chicken; Article; Recognition; Adult; Rna polymerase; Sequence-analysis; Reference; Gene cassette; Broiler-chickens; Molecular mechanics; Controlled study; Risk-assessment; Genome sequence; 3' untranslated region; Protein structure; Protein vp1; Rotavirus c; Values; Vp1; Rotavirus h; Algorithm; Species comparison; Templates; Genetic; Viral; Allergy; Genetic conservation; Viral core proteins; Strain; Protein protein interaction; A viruses; Rotavirus b; Priority journal; Cluster analysis; Numbers; Nonhuman; Rotavirus a; Genomic; Rotavirus infection; United states; Cladistics; Sequence homology; United-states; Broiler chicken; Double-stranded rna virus; Disease; Homology; Genome; Vp6; Rotaviruses; Characterization; Signal transduction; Human; Molecular phylogeny; Molecular; Complex; Rotavirus d; Polymerase structure; Mechanism; Dna-directed rna polymerases; Report; Protein conformation; Initiation; Sequence; Sequences; Rotavirus g; Infectious disease; Number; International; Molecular sequence data; Rotavirus f; Vp4; Cercopithecine herpesvirus 1

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Journal Article; Text

En AGRIS desde: 2025-02-03

Fecha de modificación: 2026-02-03

Formato: MODS

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DOI https://www.openagrar.de/receive/bimport_mods_00001349

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Rotavirus RNA polymerases resolve into two phylogenetically distinct classes that differ in their mechanism of template recognition

2012

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Información bibliográfica