Your search keyword '"DeShazer D"' showing total 3 results

1. Application of carbohydrate microarray technology for the detection of Burkholderia pseudomallei, Bacillus anthracis and Francisella tularensis antibodies.

Author

Parthasarathy N, Saksena R, Kováč P, Deshazer D, Peacock SJ, Wuthiekanun V, Heine HS, Friedlander AM, Cote CK, Welkos SL, Adamovicz JJ, Bavari S, and Waag DM

Subjects

Antibodies, Bacterial immunology, Bacillus anthracis chemistry, Burkholderia pseudomallei chemistry, Francisella tularensis chemistry, Antibodies, Bacterial analysis, Bacillus anthracis immunology, Burkholderia pseudomallei immunology, Carbohydrates chemistry, Francisella tularensis immunology, Microarray Analysis methods

Abstract

We developed a microarray platform by immobilizing bacterial 'signature' carbohydrates onto epoxide modified glass slides. The carbohydrate microarray platform was probed with sera from non-melioidosis and melioidosis (Burkholderia pseudomallei) individuals. The platform was also probed with sera from rabbits vaccinated with Bacillus anthracis spores and Francisella tularensis bacteria. By employing this microarray platform, we were able to detect and differentiate B. pseudomallei, B. anthracis and F. tularensis antibodies in infected patients, and infected or vaccinated animals. These antibodies were absent in the sera of naïve test subjects. The advantages of the carbohydrate microarray technology over the traditional indirect hemagglutination and microagglutination tests for the serodiagnosis of melioidosis and tularemia are discussed. Furthermore, this array is a multiplex carbohydrate microarray for the detection of all three biothreat bacterial infections including melioidosis, anthrax and tularemia with one, multivalent device. The implication is that this technology could be expanded to include a wide array of infectious and biothreat agents.

Published

2008

2. Characterization of experimental equine glanders.

Author

Lopez J, Copps J, Wilhelmsen C, Moore R, Kubay J, St-Jacques M, Halayko S, Kranendonk C, Toback S, DeShazer D, Fritz DL, Tom M, and Woods DE

Subjects

Animals, Disease Transmission, Infectious veterinary, Glanders epidemiology, Horses, Burkholderia isolation & purification, Glanders microbiology, Horse Diseases microbiology

Abstract

Considerable advances in understanding of the disease caused by Burkholderia mallei have been made employing a combination of tools including genetic techniques and animal infection models. The development of small animal models has allowed us to assess the role of a number of putative virulence determinants in the pathogenesis of disease due to B. mallei. Due to the difficulties in performing active immunization studies in small animals, and due to the fact that the horse is the target mammalian species for glanders, we have initiated experimental studies on glanders in horses. Intratracheal deposition of B. mallei produced clinical glanders with organisms being recovered from tissues of infected horses. The model should prove to be of considerable value in our ongoing studies on the pathogenesis and vaccine development for glanders.

Published

2003

3. Current studies on the pathogenesis of melioidosis.

Author

Woods DE, DeShazer D, Moore RA, Brett PJ, Burtnick MN, Reckseidler SL, and Senkiw MD

Subjects

Animals, Anti-Bacterial Agents pharmacology, Bacterial Adhesion, Burkholderia pseudomallei drug effects, Burkholderia pseudomallei physiology, Cells, Cultured microbiology, Complement System Proteins pharmacology, Disease Models, Animal, Drug Resistance, Microbial, Genes, Bacterial, Humans, Melioidosis drug therapy, Melioidosis mortality, Thailand, Virulence genetics, Burkholderia pseudomallei pathogenicity, Melioidosis microbiology

Abstract

Burkholderia pseudomallei is a major cause of bacterial septicemias in many parts of the world, particularly Thailand; the known geographic range of the organism appears to be enlarging as awareness of the organism and the disease it causes--melioidosis--increases. B. pseudomallei is intrinsically resistant to most antibiotics, and our knowledge of B. pseudomallei pathogenesis is lacking. Thus, the long-term objective of our research is to define at a molecular level the pathogenesis by combining genetic, immunologic, and biochemical approaches with animal model studies. Basic studies on B. pseudomallei pathogenesis are acutely needed to provide a knowledge base to rationally design new modes of therapy directed against this organism.

Published

1999