Bovine adenovirus type 3 (BAV3) is a medium size DNA virus that
causes respiratory and gastrointestinal disorders in cattle. The viral
genome consists of a 35,000 base pair, linear, double-stranded DNA
molecule with inverted terminal repeats and a 55 kilodalton protein
covalently linked to each of the 5' ends. In this study, the viral genome
was cloned in the form of subgenomic restriction fragments. Five EcoRI
internal fragments spanning 3.4 to 89.0 % and two Xb a I internal
fragments spanning 35.7 to 82.9 % of the viral genome were cloned into
the EcoRI and Xbal sites of the bacterial vector pUC19. To generate
overlap between cloned fragments, ten Hi n dIll internal fragments
spanning 3.9 to 84.9 and 85.5 to 96% and two BAV3 BamHI internal
fragments spanning 59.8 to 84.9% of the viral genome were cloned into
the HindllI and BamHI sites of pUC19. The HindlII cloning strategy
also resulted in six recombinant plasmids carrying two or more Hi ndII I
fragments. These fragments provided valuable information on the
linear orientation of the cloned fragments within the viral genome.
Cloning of the terminal fragments required the removal of the residual
peptides that remain attached to the 5' ends of the genome. This was
accomplished by alkaline hydrolysis of the DNA-peptide bond. BamH I
restriction fragments of the peptide-free DNA were cloned into pUC19
and resulted in two plasmids carrying the BAV3 Bam HI terminal
fragments spanning 0 to 53.9% and 84.9 to 100% of the viral genome.
Bovine adenovirus type 3 (BAV3) is a medium size DNA virus that
causes respiratory and gastrointestinal disorders in cattle. The viral
genome consists of a 35,000 base pair, linear, double-stranded DNA
molecule with inverted terminal repeats and a 55 kilodalton protein
covalently linked to each of the 5' ends. In this study, the viral genome
was cloned in the form of subgenomic restriction fragments. Five EcoRI
internal fragments spanning 3.4 to 89.0 % and two Xb a I internal
fragments spanning 35.7 to 82.9 % of the viral genome were cloned into
the EcoRI and Xbal sites of the bacterial vector pUC19. To generate
overlap between cloned fragments, ten Hi n dIll internal fragments
spanning 3.9 to 84.9 and 85.5 to 96% and two BAV3 BamHI internal
fragments spanning 59.8 to 84.9% of the viral genome were cloned into
the HindllI and BamHI sites of pUC19. The HindlII cloning strategy
also resulted in six recombinant plasmids carrying two or more Hi ndII I
fragments. These fragments provided valuable information on the
linear orientation of the cloned fragments within the viral genome.
Cloning of the terminal fragments required the removal of the residual
peptides that remain attached to the 5' ends of the genome. This was
accomplished by alkaline hydrolysis of the DNA-peptide bond. BamH I
restriction fragments of the peptide-free DNA were cloned into pUC19
and resulted in two plasmids carrying the BAV3 Bam HI terminal
fragments spanning 0 to 53.9% and 84.9 to 100% of the viral genome.
