Faculty


 

Karl Klose
Karl E. Klose, Ph.D.
Professor
Robert J. Kleberg Jr. and Helen C. Kleberg College of Sciences Professorship

Phone: (210) 458-6140
Email: karl.klose@utsa.edu


Lab website

Areas of Specialization

» Bacterial pathogenesis
» Francisella tularensis
» Vibrio cholerae


Brain Health Consortium
South Texas Center for Emerging Infectious Diseases

Education

Ph.D. in Microbiology; University of California, Berkeley
B.A. in Biochemistry; University of California, San Diego
B.A. in German Literature; University of California, San Diego

Research Interests

Dr. Klose’s lab is interested in bacterial pathogenesis -- how bacteria cause disease. Dr. Klose has worked most extensively with Vibrio cholerae, the bacterium that causes cholera, and is also researching Francisella tularensis, the bacterium that causes tularemia, or rabbit fever.

Cholera is found only where there are widespread problems with sanitation, so improving water and food supplies would eliminate the disease. Since that is unlikely to occur, a safe, cheap, effective vaccine is needed that would protect people. To design such a vaccine, the lab is addressing questions such as: How does V. cholerae know that it is in a human body and that is the place to express genes necessary for its survival and disease potential? What are the genetic factors responsible for V. cholerae to cause disease? How does this organism persist in aquatic environments, which lead to human infection?

Very little is known about F. tularensis or about tularemia. It is a highly virulent organism and can easily be aerosolized, so it is classified by the Centers for Disease Control (CDC) as a Category A select agent with the highest potential to be used as a biological weapon. The lab is working to identify genetic factors responsible for F. tularensis to cause disease and to develop suitable vaccine candidates to protect against tularemia infection.

Training Opportunities

Dr. Klose’s lab utilizes a variety of techniques to allow students to address the scientific questions associated with bacterial pathogenesis, including genetics, molecular biology, biochemistry, immunology, vaccinology, genomics, and a variety of imaging techniques.

Publications

Click here for a list of publications.