Abstract
BackgroundThe goose is usually considered to be resistant even to strains of Newcastle disease virus (NDV) that are markedly virulent for chickens. However, ND outbreaks have been frequently reported in goose flocks in China since the late 1990s with the concurrent emergence of genotype VIId NDV in chickens. Although the NDVs isolated from both chickens and geese in the past 15 years have been predominantly VIId viruses, published data comparing goose- and chicken-originated ND viruses are scarce and controversial.ResultsIn this paper, we compared genotype VIId NDVs originated from geese and chickens genetically and pathologically. Ten entire genomic sequences and 329 complete coding sequences of individual genes from genotype VIId NDVs of both goose- and chicken-origin were analyzed. We then randomly selected two goose-originated and two chicken-originated VIId NDVs and compared their pathobiology in both geese and chickens in vivo and in vitro with genotype IV virus Herts/33 as a reference. The results showed that all the VIId NDVs either from geese or from chickens shared high sequence homology and characteristic amino acid substitutions and clustered together in phylogenetic trees. In addition, geese and chickens infected by goose or chicken VIId viruses manifested very similar pathological features distinct from those of birds infected with Herts/33.ConclusionsThere is no genetic or phenotypic difference between genotype VIId NDVs originated from geese and chickens. Therefore, no species-preference exists for either goose or chicken viruses and more attention should be paid to the trans-species transmission of VIId NDVs between geese and chickens for the control and eradication of ND.
Highlights
The goose is usually considered to be resistant even to strains of Newcastle disease virus (NDV) that are markedly virulent for chickens
Phylogenetic tree based on the complete genome sequences for comparing five goose- and five chicken-originated genotype VIId viruses was constructed with viruses of other genotypes as references
Sequence homology analysis Analysis of entire genomic sequences from 18 NDVs showed that the nucleotide identity between the gooseand chicken-originated VIId NDV strains was in the range of 96.1–99.1%, while the identities within the chicken- and goose-originated groups ranged from 96.7% to 98.3% and 96% to 98.7%, respectively (Table 1)
Summary
The goose is usually considered to be resistant even to strains of Newcastle disease virus (NDV) that are markedly virulent for chickens. The pathogenicity of NDV isolates can be assessed by determining the mean death time (MDT) in chicken embryos, the intracerebral pathogenicity index (ICPI) in 1-day-old chicks, or the intravenous pathogenicity index (IVPI) in 6-week-old chickens [10]. ICPI and IVPI are used to differentiate high pathogenic from low pathogenic NDVs. The velogenic strains are further divided into a velogenic viscerotropic pathotype, which is an acute lethal infections with necro-hemorrhagic lesions most obvious in the gastrointestinal tract, and a velogenic neurotropic pathotype, which cause predominantly respiratory and neurologic signs with high mortality [5,10,11]. The virulent isolates have the cleavage site motif 112R/K-R-Q/K-K/R-R-F117, while the avirulent NDV isolates present the motif as 112 G/E-K/R-Q-G/E-R-L117 [4,12,13,14]
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