Bioinformatics & Computational Biology
Bioinformatics & Computational Biology (BCB)
From sequencing the human genome to modeling living organisms, biology has gone digital, and WPI’s Bioinformatics & Computational Biology (BCB) program is at the forefront of this digital revolution.
Bioinformatics involves the collection, management, and analysis of biological data; Computational Biology is the development of quantitative models of biological systems. While many schools offer BCB as a concentration within a traditional Biology program, WPI’s program comprises three academic departments: Biology, Computer Science, and Mathematics.
Our program’s diverse environment encourages a collaborative mindset and access to a broad range of resources that promote creative solutions to pressing scientific questions. Undergraduate and graduate students work alongside expert faculty researchers to use cutting-edge, quantitative techniques to increase our understanding of biology and translate this knowledge into meaningful solutions.
Undergraduate Research Projects Showcase
A celebration of research, design, and creative theses—a requirement of every graduating senior through the Major Qualifying Project (MQP)—takes place each spring on campus. Student teams representing all academic departments present their work to their faculty advisors, external sponsors, and the community-at-large, and the public is invited.
Featuring Our Students
BS/MS Student, Class of 2021
Ann-Elizabeth Le is a BCB student that has done bioinformatics research in and outside of WPI. She is currently on track to complete her 5 year BS/MS for a bioinformatics degree. In her sophomore year, Ann had the opportunity to go to the Janelia Research Campus to present about a predicted protein function based on sequential overlaps from a novel bacteriophage through a two-part lab class and ISP. For the past three summers, she also worked at the Ragon Institute of MGH, MIT, and Harvard as an intern analyzing HIV antigen processing and presentation.
PhD
Alicia Howell-Munson has been in the WPI PhD Program for Bioinformatics and Computational Biology since the fall of 2019. Her research interest has been to develop computers that are more intuitive and streamlined with the intent of the user. She is currently working under Professor Erin Solovey on a National Science Foundation grant for adaptive learning environments using non-invasive neuroimaging.
Our Students' Experience
Facts
average starting salary, bachelor's degree (class of 2023)
of master’s and PhD recipients are employed or continuing their studies shortly after graduation
best career placement
worldwide out of 20,000 universities
Our Faculty
Professor Amity Manning
Professor Manning is an assistant professor for the Department of Biology & Biotechnology. The work in her lab focuses on defining the cellular mechanisms that maintain genome stability in normal cells and understanding how these pathways are corrupted in cancer cells. She looks forward to working with students both in class and in the lab to gain a better understanding of cancer cell biology and to make meaningful contributions to cancer research.
Professor Reeta Rao
Professor Rao is the associate dean of graduate studies and a professor in the department of Biology & Biotechnology. In addition to teaching students in the class setting, she has a research program that focuses on understanding and managing fungal diseases. In the program, Professor Rao mentors and works with students in her lab to employ a myriad of molecular, genetic, genomic, biochemical approaches to understand fungal pathogenesis. Her paper was recently published in Nature Communications, Volume 10.
BCB Program News
Eric Young and colleagues publish article in Nature Communications "Engineered yeast genomes accurately assembled from pure and mixed samples."
A message from Dr. Elizabeth Ryder
Director, Bioinformatics & Computational Biology
We designed WPI’s BCB Program to educate students to feel comfortable in the language, concepts, and techniques of three distinct disciplines: biology, mathematics, and computer science. We also developed courses that overlap two or more of these disciplines, each centered on different aspects of the theories, concepts, techniques, and tools of bioinformatics and computational biology. This interdisciplinary training is exciting and rewarding, and allows students many opportunities to tackle challenging biological problems.
WPI Graduate Student Impresses at Dublin Conference
BCB graduate student Alyssa Tsiros won an honorable mention at the Symposium on Biological Data Visualization in Dublin, Ireland, for her biovisualization depicting the evolution of noncoding RNA in the Human accelerated region 1, a recently discovered gene that may be responsible for the accelerated brain development of humans compared to other mammals. Tsoris’s project stood out for effectively using color-coded arc diagrams to depict genetic data.
Finding Patterns that Can Improve Sleep
With their robust cross-disciplinary knowledge and hands-on project experiences, BCB graduates are well prepared for rewarding careers across a wide variety of industries. Our graduates assume leadership roles in positions in federal and state government, higher education, research and development, and the pharmaceutical industry. The average starting salary in 2015 was $66,500.
Career Outlook
With their robust cross-disciplinary knowledge and hands-on project experiences, BCB graduates are well prepared for rewarding careers across a wide variety of industries. Our graduates assume leadership roles in positions in federal and state government, higher education, research and development, and the pharmaceutical industry. The average starting salary in 2019 was $64,100.
From WPI's University Magazine
Computational Connections
Dmitry Korkin has made the computer a powerful ally for unlocking the mysteries of biology and medicine.