Three graduate students from the School of Science at—Anthony Bishop, Chris Newhard, and Divya Shastry—have been awarded National Science Foundation (NSF) Graduate Research Fellowships, while five other students have been recognized with honorable mention. The NSF Graduate Research Fellowship program recognizes and supports outstanding graduate students in NSF-supported science, technology, engineering, and mathematics disciplines who are pursuing research-based master’s and doctoral degrees.
“These three fellowship awards, and five honorable mentions, are an outstanding recognition of the quality of our graduate students, and we congratulate them on their achievement,” said Wilfredo Colón, associate dean of science for research. “The School of Science and the Office of Graduate Education work closely with our students to introduce them to opportunities like the NSF Graduate Research Fellowship and to guide them through the application process. With ongoing plans to enhance our mentoring and guidance, we hope to see even greater success in future years.”
These three fellowship awards, and five honorable mentions, are an outstanding recognition of the quality of our graduate students, and we congratulate them on their achievement.”—Wilfredo Colón
Bishop, a graduate student in the lab of George Makhatadze, a chaired professor in the Biocomputation and Bioinformatics research constellation, professor of biological sciences, and member of the Center for Biotechnology and Interdisciplinary Studies (CBIS), will investigate PAPf39, a protein found in human semen that forms a class of molecular structures—amyloid fibrils—known to dramatically increase HIV infectivity. Because very little is known about the formation and specific conformation of the amyloid fibrils, Bishop will use a combination of molecular dynamics to simulate potential conformations of the protein, and then validate the simulation with experimental data from nuclear magnetic resonance spectroscopy. The findings could be relevant to preventing HIV transmission, as well as treating a multitude of other amyloid related diseases such as Alzheimer’s and Parkinson’s disease.
Newhard, a graduate student in the lab of Douglas Swank, an associate professor of biological sciences and member of CBIS, will investigate the structural and kinetic mechanisms that set muscle-shortening velocity. His research focus will be on myosin function, the molecular motor that powers muscle contraction. Understanding how myosin affects velocity has important implications for understanding how animals move, improving athletic training, and designing artificial muscles.
Shastry, a biochemistry/biophysics graduate student in the lab of Pankaj Karande, an assistant professor of chemical and biological engineering and member of CBIS, will investigate the use of peptides for recognition of biochemical elements in targeted protein states. The development of peptides for this purpose can enable biochemical analysis, leading to structural insights into proteins. This work also has the potential for biosensing applications through selective recognition of biomolecules.