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Abstract
A p7.5/beta-galactosidase (7.5 lacZ) gene construct, cloned adjacent to the fowlpox
virus (FPV) thymidine kinase (tk) gene was used as a marker to identify the products
of recombination as 'blue' FPV plaques. The rFPVs were detected as early as 4 h after
the introduction of plasmid DNAs and by 72 h post-infection (p.i.) for one transfer
vector comprised 0.48% of the viral population. The proportion of rFPV increased linearly
from 0.073% to 0.62% as the cumulative length of homologous sequences in the transfer
vector increased from 0.73 to 4.5 kb. Two approaches using a second reporter gene,
the Newcastle disease virus haemagglutinin-neuraminidase (NDV HN) gene were tested
to differentiate between single and double cross-over events. In one, the HN gene
was cloned into the FPV tk gene and the 7.5 lacZ cloned outside of the homologous
region. Progeny of a single cross-over with FPV DNA generated an unstable plaque containing
the HN gene and subsequent intramolecular recombination resulted in excision of the
7.5 lacZ and the generation of a stable 'white' plaque. For virus grown in CEF cells
(tk+) in the presence of 5-bromo-deoxyuridine, only those viruses which contained
a tk gene disrupted by the HN gene formed plaques. This approach allowed us to easily
identify rFPV containing the HN gene but lacking 7.5 lacZ or other bacterial sequences.
In a second approach, a double cross-over between rFPV DNA containing a stably expressed
beta-galactosidase gene cloned into the tk gene (blue plaque) and plasmid DNA containing
the HN gene flanked by tk sequences would allow transplacement of the 7.5 lacZ gene
with the HN gene, and generating a white plaque. We were unable to generate recombinant
viruses with the HN gene and which generated a white plaque, indicating that double
cross-over events do not occur at a sufficiently high frequency in FPV.