Abby Robinson 301-405-5845, Barabara Brawn-Cinani (writer)
COLLEGE PARK, Md. -- The University of Maryland recently received a five-year, $3 million National Science Foundation grant to help researchers in the life sciences learn how to transform the massive amounts of raw data made possible by the advent of powerful new technologies into useful information from which new biological insights can be inferred.
Through the NSF Research Traineeship grant, UMD is establishing a new training and research program in network biology. The Computation and Mathematics for Biological Networks (COMBINE) program will teach graduate students in the life sciences how to marry physics-style quantitative modeling with data processing, analysis and visualization methods from computer science to gain deeper insights into the principles governing living systems.
“More data does not mean better information without the interdisciplinary tools required to make the transformation,” said COMBINE’s principal investigator Michelle Girvan, an associate professor with a joint appointment in the Department of Physics and the Institute for Physical Science and Technology. In her own research, Girvan combines methods from statistical physics, nonlinear dynamics and computer science to develop network science tools that can address problems in computational biology and sociophysics.
The COMBINE program anticipates training approximately 60 Ph.D. students, including 35 who will be supported by 12-month fellowships. Participants will receive training in four areas of network analysis: quantitative metrics for biological networks; mechanistic models of biological networks; network statistics and machine learning for biological applications; and visualization techniques for large, complex biological data sets. This training will provide the foundation for research in at least one of the following areas: biomolecular, neuronal and/or ecological/behavioral networks.
Research experiences, interdisciplinary coursework, peer-to-peer tutorials and internships with partners—including the Smithsonian Institution, the National Institutes of Health, the University of Maryland School of Medicine and industry partners—will provide the graduate students with the skills needed to communicate complex scientific ideas to diverse audiences to maximize impact. Outreach activities will extend the benefits of the program to undergraduates, middle and high school students, and to the public at large.
COMBINE brings together a unique, multidisciplinary team of researchers. Co-principal investigators of the program are Associate Professor Daniel Butts and Professor Bill Fagan of the Department of Biology, and Associate Professor Hector Corrada Bravo and Professor Amitabh Varshney of the Department of Computer Science and the University of Maryland Institute for Advanced Computer Studies. Varshney also serves as interim vice president for research and chief research officer at UMD.
The highly competitive NSF Research Traineeship program fosters development and implementation of bold, new, potentially transformative models for graduate education in science, technology, engineering and mathematics (STEM) fields. Fewer than 10 percent of proposals submitted to the program are funded.
"Innovative and interdisciplinary approaches will be key to tackling tomorrow’s scientific challenges, and today’s STEM graduate students will need to develop the skills to meet those challenges," said Joan Ferrini-Mundy, NSF assistant director for education and human resources. "The NSF Research Traineeship program is testing new models to train graduate students across STEM disciplines and to prepare them for contributions in diverse careers.”
This work is supported by the National Science Foundation (Award No. DGE1632976). The content of this article does not necessarily reflect the view of this organization.