Northwestern University’s Erik C. Andersen has received a Faculty Early Career Development Program (CAREER) award from the National Science Foundation (NSF), the foundation’s most prestigious honor for junior faculty members.
Andersen will receive $500,000 over five years from NSF’s Division of Integrative Organismal Systems to support both research and education initiatives.
“I am deeply honored to be chosen for this award,” said Andersen, an assistant professor of molecular biosciences in the Weinberg College of Arts and Sciences. “The support will enable me and my research group to pursue a basic science project at a time when basic science is less appreciated than it used to be. This pathway to discovery will benefit my lab long after this award expires.”
The NSF CAREER award supports early career development of individuals who exemplify the role of teacher-scholar through outstanding research, excellent education and the integration of education and research.
For nearly two decades, Andersen has been focused on understanding the nematode C. elegans. From developmental to evolutionary processes, this tiny roundworm enables discoveries not possible in other metazoans. His lab currently focuses on understanding the molecular mechanisms that underlie population-wide differences in evolutionarily important traits (fitness), drug responses and behaviors. Andersen and his group use high-throughput assays, computational biology, genomics and genetics of all flavors (molecular, quantitative, population) to addresses these problems.
The CAREER award will fund Andersen and his lab’s efforts to understand the evolution of plasticity in development. Plasticity is the ability of organisms to go down different developmental routes using the same genetic instructions. Many organisms encounter differences in the environment, such as temperature and food, and these differences influence how the organism grows.
In harsh conditions, C. elegans develops into a long-lived larval form that can disperse in nature. Andersen’s group has found that strains from all over the world enter this long-lived larval form differently, indicating that some will disperse and survive better than others. The system Andersen’s lab uses will offer a unique approach to identifying the genes that vary to cause evolutionary change.
In parallel, Andersen’s lab will continue its efforts to involve citizen-scientists and students in the collection of wild nematodes from nature.
Erik Andersen is a member of the Chemistry of Life Processes Institute.
Chemistry of Life Processes Institute is Northwestern University’s singular hub for early-stage biomedical discovery and a catalyst for broad collaboration across scientific disciplines. Established in 2010, CLP includes four centers of research excellence and eight shared resource facilities whose cutting edge instruments and expert staff support investigators across Northwestern, as well as other academic and industry organizations across the US to accelerate drug discovery and development. CLP faculty represent more than 20 University departments in three different schools: Feinberg School of Medicine, McCormick School of Engineering and Weinberg School of Arts and Sciences – all working together at the intersection of science to solve life’s toughest health concerns from cancer and heart disease to Alzheimer’s and infertility. Our highly competitive training programs prepare the next generation of scientists to think, communicate and work at the interface of multiple disciplines.