Gilles Marsolais scite author profile

High mortality rates have been reported in budgerigars between one and 15 days of age in 19 aviaries in the Province of Quebec. The most consistent signs of disease were abdominal distention, lack of down feathers on the back and abdomen, lack of filoplumes on the head and neck, and retarded growth of the tail and contour feathers in birds that either survived or died later. Internal gross lesions were hydropericardium, enlarged heart and liver with multiple pinpoint white spots or large, yellow foci, pale or congested kidneys, congested lungs, and ascites. Histologic examination revealed large, slightly basophilic inclusion bodies in the enlarged nuclei of many different cells. These inclusion bodies were composed of viral particles. Multiple foci of coagulation necrosis were scattered in the myocardium and liver parenchyma, and granulovacuolar degeneration was common in renal tubular epithelial cells. Ballooning degeneration was multifocal in the epidermis and very extensive in the epithelial cells of developing feather follicles, and this led to their partial or complete destruction. Viral particles 50 to 55 nm in diameter were observed in negatively stained preparations from different organs of affected birds. These particles had the size and morphology of a papovavirus. In experimentally infected 25-day-old budgerigars, histologic examinations revealed the presence of intranuclear inclusions in hepatocytes, epithelial cells of the kidney tubules, and reticular cells of the spleen, despite the absence of clinical signs. We feel that this disease is caused by a papovavirus-like agent that can replicate in many tissues of the body, causing widespread lesions responsible for the high mortality rate of very young budgerigars and for the absence and/or incomplete development of feathers.

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Coronaviruses Associated with Outbreaks of Transmissible Enteritis of Turkeys in Quebec: Hemagglutination Properties and Cell Cultivation

Dea¹,

Marsolais²,

Beaubien³

et al. 1986

Avian Diseases

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Coronaviruses were observed by electron microscopy in the intestinal contents of turkeys in Quebec flocks where repeated outbreaks of enteritis occurred. Three isolates could be serially propagated in turkey embryos inoculated by the amniotic route with clarified intestinal contents. Purification and concentration of viral particles contained in intestinal contents of infected embryos were achieved by precipitation with polyethylene glycol and ultracentrifugation on sucrose density gradients. Three particle types were demonstrated: intact virions with a density of 1.18 to 1.20 g/ml and incomplete particles with densities of 1.14 and 1.24 g/ml. Hemagglutination of rabbit and guinea pig erythrocytes was demonstrated with the intact viral particles; the hemagglutinin was not dependent on incubation temperature. All the isolates were antigenically related, as shown by hemagglutination-inhibition. The turkey coronaviruses did not cross-react with antisera against coronaviruses of avian infectious bronchitis, porcine transmissible enteritis, bovine neonatal calf diarrhea, or mouse hepatitis. One of the Quebec isolates was shown to induce syncytia formation on its third passage in primary chicken-embryo kidney cell cultures. Electron-microscopic examination of infected cell-culture fluids revealed characteristics coronavirus particles identical to those found in intestinal contents of infected turkeys.

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Preliminary report on the observation of a coronavirus in the intestine of the laboratory rabbit

Lapierre¹,

Marsolais²,

Pilon³

et al. 1980

Can. J. Microbiol.

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Intestinal infections are a major cause of mortality in domestic rabbits. Although a few pathogenic organisms have been associated with this type of infection, it is often impossible to demonstrate the presence of any etiologic agents. Recently viral particles were observed in the intestine of diseased rabbits submitted to our laboratory for diagnosis. A study was then initiated to evaluate the presence of viral agents in the intestine of rabbits showing clinical signs of enteritis. Viral particles with morphological characteristics of the Coronaviridae family were observed by electron microscopy in most specimens of fecal material obtained from sick rabbits. Such particles were not seen in the feces of healthy animals. These particles, which have a density of 1.07-1.18g/cm3 on sucrose gradient, hemagglutinate rabbit red blood cells. Furthermore this virus has some antigenic relationship with the human coronavirus 229-E since immune serum to this virus blocks the hemagglutination of the rabbit erythrocytes. Antibody titers to this virus were detected in rabbit sera obtained from colonies with a high incidence of intestinal infections. When fecal material containing coronavirus particles were inoculated on various tissue culture systems, no cytopathic effects were observed.

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Importance of Primer Selection in the Application of PCR Technology to the Diagnosis of Bovine Leukemia Virus

Marsolais

Dubuc²,

Bergeron³

et al. 1994

J VET Diagn Invest

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Abstract. The polymerase chain reaction (PCR) was used to detect bovine leukemia virus in bovine blood samples. When applied to leucocytes extracted from the blood samples, the standard method of DNA extraction gave good correlation with agar gel immunodiffusion, but a method in which 5 µl of blood was the starting material was unreliable. Selection of the primers was important, and differences in results were observed when the PCR method was applied to blood samples from different geographic areas. The sensitivity varied from 50% to 90%, depending on the primer set applied to the gag gene of proviral nucleic acid. This variation was based on geographic origin of the cattle, suggesting an influence of viral strain. In some areas, more than 1 primer may needed to optimize results.

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Interspecific differences between the DNA restriction profiles of canine adenoviruses

1984

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