Lineage diversification, homo- and heterologous reassortment and recombination shape the evolution of chicken orthoreoviruses.

The near complete genome sequences of ten field avian orthoreovirus (ARV) strains collected from young chicken between 2002 and 2011 in Hungary have been determined in order to explore the genetic diversity and evolutionary mechanisms affecting ARVs in this region. Sequence analyses and phylogenetic calculations revealed similar geographic distribution and distinct evolution in case of eight studied strains that were closely related to the recently described Hungarian strain T1781. The remaining two strains showed the highest similarity with the US origin AVS-B.

Phylogenetic analysis of a novel reassortant orthoreovirus strain detected in partridge (Perdix perdix).

Avian orthoreoviruses cause various diseases in wild birds and domesticated poultry. In this study we report the detection and genomic characterization of a partridge (Perdix perdix) origin reovirus strain, D1007/2008. The virus was isolated on cell culture from acute pneumonia and infra-orbital sinusitis.

Genome Sequences of Three Turkey Orthoreovirus Strains Isolated in Hungary.

We have investigated the genomic properties of three turkey reovirus strains-19831M09, D1246, and D1104-isolated in Hungary in 2009. Sequence identity values and phylogenetic calculations indicated genetic conservativeness among the studied Hungarian strains and a close relationship with strains isolated in the United States.

Detection of shared genes among Asian and European waterfowl reoviruses in the whole genome constellations.

In order to explore the genetic relatedness and evolution of 'classical' and 'novel' waterfowl origin reoviruses (WRV) isolated in different years and continents, and filling up our lacking knowledge about the European WRV strains, the complete genomic sequence of two French isolates causing the 'classical' type of reovirus infection of Muscovy ducks had been determined. Based on the genome organization and the encoded proteins the two isolates could be referred as classical type strains. Sequence comparison showed that the two strains were most closely related to each other and belong to the same monophyletic group of European and Asian WRV strains.

The complete genome sequence of a European goose reovirus strain.

The complete genomic sequence of a Hungarian goose orthoreovirus strain (D20/99) is reported in this study. The genome of D20/99 is 22,969 bp in length (range, 3958 bp for L1 to 1124 bp for S4) and encodes 11 putative proteins. Pairwise sequence comparisons and phylogenetic analyses indicated that D20/99 shares genetic signatures with some contemporary Chinese duck and goose reovirus strains, except for the μA, μNS and σA protein coding genes, which represented independent genetic lineages.

Complete genome analysis identifies Tvärminne avian virus as a candidate new species within the genus Orthoreovirus.

Orthoreoviruses have been associated with a variety of diseases in domesticated poultry and wild-living birds. In 2002, a reovirus strain named Tvärminne avian virus (TVAV), was identified in Finland in a crow showing neurological disorders. The objective of this study was the molecular characterization of this novel reovirus strain.

Detection and characterization of a divergent avian reovirus strain from a broiler chicken with central nervous system disease.

Avian orthoreoviruses have been associated with a variety of diseases in chickens, including tenosynovitis, runting-stunting syndrome, hepatitis, myocarditis, osteoporosis, respiratory diseases, and central nervous system disease. The primary objective of our study was the molecular characterization of an avian reovirus strain, T1781, which was isolated from a broiler chicken with a central nervous system disorder in Hungary during 2012. The complete genome sequence was determined using a traditional sequencing method after cell culture adaptation of the strain.

Surveillance of human rotaviruses in 2007-2011, Hungary: exploring the genetic relatedness between vaccine and field strains.

Background: The availability of rotavirus vaccines has resulted in an intensification of post vaccine strain surveillance efforts worldwide to gain information on the impact of vaccines on prevalence of circulating rotavirus strains.

Objectives: In this study, the distribution of human rotavirus G and P types in Hungary is reported. In addition, the VP4 and VP7 genes of G1P[8] strains were sequenced to monitor if vaccine-derived strains were introduced and/or some strains/lineages were selected against.

The genomic constellation of a novel avian orthoreovirus strain associated with runting-stunting syndrome in broilers.

Avian orthoreoviruses (ARVs) are responsible for considerable economic losses in broiler chickens; yet, the genetic characterization of most ARV strains is limited to a few genes, and the full coding region has been determined for only S1133 and 138, two ARV strains associated with tenosynovitis. Recently, in parts of the United States, ARVs with novel neutralization antigen type were isolated from chickens afflicted with runting-stunting syndrome. One such strain, AVS-B, was selected for full genome sequencing and phylogenetic analysis.

Whole genome sequencing and phylogenetic analysis of a zoonotic human G8P[14] rotavirus strain.

The full-length genome of a rare human G8P[14] rotavirus strain, BP1062/04, identified during a surveillance study in Hungary was determined and analyzed. This strain showed a G8-P[14]-I2-R2-C2-M2-A11-N2-T6-E2-H3 genomic constellation. Phylogenetic analysis of each genome segment revealed common origins with selected animal and zoonotic human strains.