Mark P. Foster

Dr. Mark P. Foster is advancing the conversation in the field of biochemistry as a distinguished Professor at Ohio State University. With a PhD in Medicinal Chemistry from the University of Utah, Dr. Foster brings a wealth of knowledge and expertise to his research and teaching. His work is primarily focused on the intricate processes of macromolecular assembly, structural biology, gene regulation, and DNA recombination, areas in which he has made significant contributions. At the helm of the Foster Lab, Dr. Foster employs cutting-edge techniques in structural biology to unravel the complexities of biological functions. His research endeavors are aimed at understanding the fundamental mechanisms that govern cellular processes, with a particular emphasis on how macromolecules interact and assemble to regulate gene expression and facilitate DNA recombination. These insights are crucial for advancing our understanding of various biological systems and have implications for the development of novel therapeutic strategies. Dr. Foster's commitment to the scientific community is reflected in his active membership in several professional organizations, including the American Chemical Society and the Biophysical Society. His leadership skills have been recognized through his past roles as Chair of the Department of Biochemistry and Director of the Structural Biology and Molecular Biophysics Division at Ohio State University. These positions have allowed him to influence the direction of research and education in biochemistry, fostering an environment of innovation and collaboration. Throughout his career, Dr. Foster has been dedicated to mentoring the next generation of scientists, guiding students and researchers in their pursuit of scientific excellence. His contributions to the field of biochemistry are not only evident in his research achievements but also in his commitment to education and professional service. As a respected figure in the scientific community, Dr. Foster continues to inspire and lead efforts in understanding the molecular underpinnings of life.