Anders Serj Hansen, Class of 1943 Career Development Professor in the Department of Biological Engineering, has been named as the recipient of the 2024-25 Harold E. Edgerton Faculty Achievement Award.
The annual award was established in fall 1982 as a permanent tribute to Institute Professor Emeritus Harold E. Edgerton for his great and enduring support for younger faculty members over the years. The purpose of the award is to recognize exceptional distinction in teaching, in research, and in service.
Hansen is the principal investigator of the Hansen Lab, which develops new methods to resolve 3D genome structure at high spatiotemporal resolution to understand how DNA looping and 3D folding regulates gene expression in health and disease. His areas of research include cancer biology, computational systems biology, instrumentation and measurement, and synthetic biology.
“My research focuses on how the expression of our genes is regulated,” says Hansen. “All the cells in our body have the same DNA and the same genes. Thus, the software or applications to each cell are the same. What’s different between a neuron and a blood cell is what genes they choose to express. My research focuses on understanding how this regulation takes place.”
Those who nominated Anders for the award emphasized his remarkable productivity, mentioning his two “highly cited, paradigm-shifting research articles in Science and Nature Genetics,” and his research presentations at 50 invited talks, including two keynotes, at universities and conferences worldwide. They also highlighted his passion for mentorship and career development for the 20 current members of his laboratory.
“Anders is an outstanding role model and ambassador of biological engineering, combining a powerful research program, run as a caring mentor, and innovative undergraduate education,” says Christopher Voigt, the Daniel I.C. Wang Professor in Biological Engineering and head of the Department of Biological Engineering.
Adds Laurie Boyer, a professor of biology and biological engineering, “His work reveals new insights into how we think about the dynamics of gene regulation that would not otherwise be possible. The Hansen Lab’s work provides a unified framework rapidly adopted by the field to learn how conserved regulators provide exquisite spatial and temporal control of gene expression in the context of 3D genome architecture.”
During the nomination process, students praised Hansen’s passion for his work, along with his ability to prepare them to apply their education outside the classroom.
“He always strives to guide each lab member towards both short-term scientific success and long-term career planning through regular one-on-one meetings, facilitating collaborations and access to scientific resources, and sharing his own experiences,” says Jin Yang, a graduate student in biological engineering and member of the Hansen Lab.
“Dr. Hansen's infectious excitement for the course material made it very enjoyable to come to class and envision potential applications of the fundamental topics he taught,” adds another one of his students. “Excellent lecturer!”
Hansen obtained his undergraduate and master’s degree in chemistry at Oxford University. He received his PhD in chemistry and chemical biology from Harvard University, where he applied systems biology approaches to understand how cells can encode and transmit information in the dynamics of transcription factor activation. For his postdoc at the University of California at Berkeley, Hansen developed new imaging approaches for dissecting the dynamics of architectural proteins with single-molecule resolution in living cells. Hansen joined MIT as an assistant professor of biological engineering in early 2020.
His recognitions include an NIH K99 Pathway to Independence Award (2019), NIH Director’s New Innovator Award (2020), a Pew-Stewart Scholar for Cancer Research Award (2021), an NSF CAREER Award (2024), and an NIH Director’s Transformative Research Award (2024).
Hansen has served on several committees at MIT, including the MIT Biological Engineering Graduate Program Admissions Committee, the MIT Computational and Systems Biology Graduate Admissions Committee, and the MIT Biological Engineering Graduate Recruiting Committee, of which he has been chair since 2023.
“I have known about the Edgerton Award since I started at MIT, and I think the broad focus on both research, teaching, and service really captures what makes MIT such a unique and wonderful place,” says Hansen. “I was therefore absolutely thrilled to receive the news that I would receive the Edgerton Award this year, and I am very grateful to all the wonderful colleagues here at MIT who have supported me over the years, and all the exceptional people in my lab whose work is being recognized.”
