Characterization of two low pathogenic avian influenza viruses isolated in Hungary in 2007.

Two low pathogenic (LP) avian influenza virus strains, A/mallard/Hungary/19616/07 (H3N8) and A/mute swan/Hungary/5973/07 (H7N7), isolated as part of the National Surveillance Program in Hungary, were fully sequenced and characterized. The two viruses showed the closest phylogenetic relationship regarding their acidic polymerase genes. The H7N7 Hungarian virus and some H5N2 influenza viruses isolated from Korean pigs appeared to have their basic polymerase gene 1 from a relatively recent common ancestor. The matrix gene nucleotide sequence of each Hungarian virus showed close relationship with contemporaneous Czech H3N8 mallard isolates, which belonged to distinct phylogenetic branches. The non-structural protein genes belonged to different alleles, rendering a peculiar characteristic to the H7N7 isolate compared to the so far analyzed Eurasian H7 viruses. The surface glycoprotein genes of the H3N8 isolate showed a close phylogenetic relationship and high nucleotide identities to H3N8 subtype isolates from Northern Europe collected in 2003-2006, and to an H3N2 isolate in Italy in 2006, extending the perceptions of this HA subtype across Northern and Southern Europe close to this period. These findings provide further data to the diversity of influenza viruses found in wild migratory birds and present useful information for large scale studies on influenza virus evolution.

Third genome size category of avian paramyxovirus serotype 1 (Newcastle disease virus) and evolutionary implications.

The goal of the study was to establish if there was a relationship between molecular patterns and virus evolution. Therefore the complete genome sequence of two distinct apathogenic Newcastle disease virus (NDV) strains was determined and a third genome size category, containing 15,198 nucleotides, was recognized. Phylogenetic analysis revealed that two major separations resulting in three genome size categories occurred during the history of NDV. An ancient division in the primordial reservoir (wild waterbird species) led to two basal sister clades, class I and II, with genome sizes 15,198 (due to a 12 nucleotide insert in the phosphoprotein gene) and 15,186 nucleotides, respectively. Ancestors of only class II viruses colonized chicken populations and subsequently converted to virulent forms. These took place more than once and resulted in an early lineage [including genotypes I-IV and H33(W)] with genome size of 15,186 nucleotides. A second division occurred in the 20th century in the secondary (chicken) host. This gave rise to the branching-off of a clade (including recent genotypes V-VIII consisting of only pathogenic viruses) with the concomitant insertion of six nucleotides into the 5' non-coding region of the nucleoprotein gene thereby increasing the genome size to 15,192 nucleotides.

Identification and subgrouping of pigeon type Newcastle disease virus strains by restriction enzyme cleavage site analysis.

A host variant of Newcastle disease virus (NDV, genus Avulavirus, family Paramyxoviridae) is responsible for an autonomous disease in pigeons. It emerged in the late 1970s in the Mediterranean region. Despite great genetic diversity the vast majority of strains belong to a monophyletic group (sublineage VIb) within genotype VI of NDV strains that were indigenous in the region at that time. To date only a monoclonal antibody assay is available for the specific identification of pigeon type strains. A specific genetic assay is described suitable for the identification of pigeon isolates. Cleavage site analysis of a 1349 bp amplicon of the fusion protein gene was carried out using restriction enzymes (RE) HinfI, BstOI and RsaI. RE analysis of over 100 strains isolated between 1978 and 2002 deriving from 16 countries has revealed nine RE-patterns, which were progressive site variants of the parental (group VI) genotype. In spite of substantial site variation, extant pigeon viruses lacked a BstOI cleavage site at nucleotide 1601 shared by other NDV strains of chicken origin. RE analysis is a simple and reliable method both for the identification and subgrouping of pigeon type viruses.

Phylogenetic analysis reveals extensive evolution of avian paramyxovirus type 1 strains of pigeons (Columba livia) and suggests multiple species transmission.

Partial sequence and residue substitution analyses of the fusion protein gene were performed for 68 strains of avian paramyxovirus type 1 of pigeons (PPMV-1), an antigenic variant of Newcastle disease virus (NDV) of chickens, derived from 16 countries between 1978 and 2002. The majority of isolates clustered into a single genetic lineage, termed VIb/1, within genotype VI of NDV strains of chickens, whereas a small number of isolates that originated in Croatia after 1995, grouped in a highly diverged lineage, termed VIb/2, indicating a separate host-switching event from that of VIb/1 strains. Four distinct subgroups of lineage VIb/1, Iraqi (IQ), early European (EU/ea), North American (NA) and recent European (EU/re) have emerged and circulated in the past decades. Subgroup EU/ea and NA strains were responsible for the main streams of infection in the 1980s, while EU/re viruses for infections in the 1990s. The degree of genetic diversity of viruses in the early phase of the epizootic suggested a prolonged infection period of the pigeon-type viruses prior to the emergence of the disease in the early 1980s. Shared derived character analysis showed a close genetic relationship to Sudanese viruses from the mid-1970, suggesting that PPMV-1 viruses could be of African origin.