Biological and molecular characterization of Newcastle disease virus (NDV) field isolates with comparisons to reference NDV strains.

Fifty-seven Newcastle disease virus (NDV) isolates from chickens, turkeys, a rhea, a parrot, and an anhinga were pathotyped and characterized by monoclonal antibody (mAb) inhibition profile, elution rate, and hemagglutinin thermostability. Nucleotide sequence analysis of portions of the fusion protein and matrix protein genes of the parrot isolate was done for comparison with prior sequence analysis of the anhinga isolate and NDV reference strains. Seven of the 43 chicken isolates were recovered from flocks in Canada. The remaining isolates, including 11 from turkeys, were isolated in the United States. All isolates except that of the anhinga were of low virulence by mean death time in embryos, intracerebral pathogenicity index, and/or intravenous pathogenicity index procedures and were classified as lentogens. The anhinga isolate was more virulent than the other strains and was pathotyped as a mesogen. However, nucleotide sequence analysis of the anhinga isolate had revealed a homology with the virulent cormorant isolates of 1992 rather than the classical U.S. mesogens characterized by the Roakin strain. Variability was evident among the lentogenic isolates. Two isolates from turkeys had mAb profiles that differed from B1 and La Sota reference and vaccine strains, and 38% (21/56) of the isolates had more thermostable hemagglutinins than those reference strains. There was no evidence that any of the isolates from poultry were more virulent than the lentogenic pathotype.