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Full-Text Articles in Biology
Colonization Of Lutzomyia Verrucarum And Lutzomyia Longipalpis Sand Flies (Diptera: Psychodidae) By Bartonella Bacilliformis, The Etiologic Agent Of Carrion's Disease, James M. Battisti, Phillip G. Lawyer, Michael F. Minnick
Colonization Of Lutzomyia Verrucarum And Lutzomyia Longipalpis Sand Flies (Diptera: Psychodidae) By Bartonella Bacilliformis, The Etiologic Agent Of Carrion's Disease, James M. Battisti, Phillip G. Lawyer, Michael F. Minnick
Biological Sciences Faculty Publications
Bartonella bacilliformis is a pathogenic bacterium transmitted to humans presumably by bites of phlebotomine sand flies, infection with which results in a bi-phasic syndrome termed Carrion's disease. After constructing a low-passage GFP-labeled strain of B. bacilliformis, we artificially infected Lutzomyia verrucarum and L. longipalpis populations, and subsequently monitored colonization of sand flies by fluorescence microscopy. Initially, colonization of the two fly species was indistinguishable, with bacteria exhibiting a high degree of motility, yet still confined to the abdominal midgut. After 48h, B. bacilliformis transitioned from bacillus-shape to a non-motile, small coccoid form and appeared to be digested along with …
Proteins Of Bartonella Bacilliformis:Candidates For Vaccine Development, Cesar Henriquez-Camocho, Palmira Ventosilla, Michael F. Minnick, Joaquim Ruiz, Ciro Maguina
Proteins Of Bartonella Bacilliformis:Candidates For Vaccine Development, Cesar Henriquez-Camocho, Palmira Ventosilla, Michael F. Minnick, Joaquim Ruiz, Ciro Maguina
Biological Sciences Faculty Publications
Bartonella bacilliformis is the etiologic agent of Carrion's disease suggest complex adaptations by the bacterium to the human host, with the overall objectives of persistence, maintenance of a reservoir state for vectorial transmission, and immune evasion. These events include a multitude of biochemical and genetic mechanisms involving both bacterial and host proteins. This review focuses on proteins involved in interactions between B. bacilliformis and human host. Some of them (e.g., flagellin, Brps, IalB, FtsZ, Hbp/Pap31, and other outer membrane proteins) are potential protein antigen candidates for a synthetic vaccine.
Oroya Fever And Verruga Peruana: Bartonelloses Unique To South America, Michael F. Minnick, Burt E. Anderson, Amorce Lima, James M. Battisti, Phillip G. Lawyer, Richard J. Birtles
Oroya Fever And Verruga Peruana: Bartonelloses Unique To South America, Michael F. Minnick, Burt E. Anderson, Amorce Lima, James M. Battisti, Phillip G. Lawyer, Richard J. Birtles
Biological Sciences Faculty Publications
Bartonella bacilliformis is the bacterial agent of Carrión's disease and is presumed to be transmitted between humans by phlebotomine sand flies. Carrión's disease is endemic to high-altitude valleys of the South American Andes, and the first reported outbreak (1871) resulted in over 4,000 casualties. Since then, numerous outbreaks have been documented in endemic regions, and over the last two decades, outbreaks have occurred at atypical elevations, strongly suggesting that the area of endemicity is expanding. Approximately 1.7 million South Americans are estimated to be at risk in an area covering roughly 145,000 km2 of Ecuador, Colombia, and Peru. Although disease …
Inactivation Of Genes For Antigenic Variation In The Relapsing Fever Spirochete Borrelia Hermsii Reduces Infectivity In Mice And Transmission By Ticks, Sandra J. Raffel, James M. Battisti, Robert J. Fischer, Tom G. Schwan
Inactivation Of Genes For Antigenic Variation In The Relapsing Fever Spirochete Borrelia Hermsii Reduces Infectivity In Mice And Transmission By Ticks, Sandra J. Raffel, James M. Battisti, Robert J. Fischer, Tom G. Schwan
Biological Sciences Faculty Publications
Borrelia hermsii, a causative agent of relapsing fever of humans in western North America, is maintained in enzootic cycles that include small mammals and the tick vector Ornithodoros hermsi. In mammals, the spirochetes repeatedly evade the host’s acquired immune response by undergoing antigenic variation of the variable major proteins (Vmps) produced on their outer surface. This mechanism prolongs spirochete circulation in blood, which increases the potential for acquisition by fast-feeding ticks and therefore perpetuation of the spirochete in nature. Antigenic variation also underlies the relapsing disease observed when humans are infected. However, most spirochetes switch off the bloodstream …