My research focuses primarily on the genetic regulation of innate immunity in animals, with a particular focus on innate immune pattern recognition proteins.
I am dedicated to seek out practicum experiences that support the competency development of the MAN students. Additionally, I am interested in exploring if simulated learning exercises could accelerate competency attainment.
Language is in a constant process of change. Understanding the hows and whys of change and the effects it has on society can help us better understand each other as human beings.
We study light-activated membrane proteins important in bioenergetics and vision. In our research, we combine methods of modern biophysics with techniques of molecular biology and biochemistry.
My research uses mathematical models and computer simulation to help identify improved infectious disease prevention and control strategies in both humans and animals. Our work has a significant impact on public health and veterinary health, by strengthening planning and disease control strategies to prevent infectious disease outbreaks.
