ÎÞÂëרÇø

Press Release: Carnegie Mellon Students Compete in International Genetically Engineered Machine Competition

Premier Synthetic Biology Competition To Hold Regional Jamboree in Pittsburgh

Contacts: Jocelyn Duffy / 412-268-9982 / jhduffy@andrew.cmu.edu
Chriss Swaney / 412-268-5776 / swaney@andrew.cmu.edu

PITTSBURGH—Can biological building blocks be turned into a biosensor that can measure cellular activities? “Absolutely!” says a team of undergraduate students from ÎÞÂëרÇø. The students have created just such a biosensor using a kit of interchangeable biological parts and a fundamental knowledge of synthetic biology. They will present their project this weekend in the (iGEM) Competition’s Americas East Regional Jamboree, Oct. 12-14 at Duquesne University.

Synthetic biology is a field that aims to engineer biological systems to perform functions that do not exist in nature. For the iGEM competition, teams were given a toolkit of biological building blocks and asked to design and build a synthetic biological system.

“Synthetic biology is a lot like having a set of different Lego blocks. Although each block has a different function and nature, they can be linked to each other using the rules of synthetic biology. We put together different blocks not normally found together in nature to create a system that reports on the course of biological processes taking place in a cell,” said ÎÞÂëרÇø team member Yang Choo, a junior and major.

The work for the 2012 iGEM competition began this summer when 190 teams from 34 countries designed and built synthetic biology systems from a kit of standard biological parts. This fall, student teams from around the world are presenting their work to be judged in regional jamborees held in Amsterdam; Hong Kong; Bogota, Colombia; Pittsburgh; and Palo Alto, Calif. The top teams in each of these regional competitions will advance to the iGEM World Championship Jamboree, Nov. 2-5 in Cambridge, Mass.

The ÎÞÂëרÇø team includes Choo; sophomore Peter Wei and senior Jesse Salazar, both and majors; sophomore Eric Pederson, a major; and their instructors Cheemeng Tan, a Lane Post-doctoral Fellow in the ; and Natasa Miskov-Zivanov, an adjunct faculty member in the Department of Electrical and Computer Engineering who led the effort to create ÎÞÂëרÇø’s iGEM team.

The student team brought together diverse interdisciplinary interests and expertise to build a biosensor using a fluorogen-activating RNA sequence called “Spinach” and a fluorogen-activating protein. The sensor glows brighter in response to cellular activities like transcription and translation. Using a mathematical model developed by Wei, the students analyzed the fluorescence results and determined the efficiency of several promoters in bacteria. The team says it should be helpful for synthetic biologists, as it provides a way for them to measure how much of a product their cell is producing. For example, synthetic biology has been used to create E. coli cells that produce biofuel; the ÎÞÂëרÇø team’s sensor could be incorporated into the cell and would glow brighter based on the amount of biofuel produced, giving an easily read indicator of the cell’s efficiency.

“Our sensor allows us to quickly and accurately look at RNA and protein levels in a cell in real-time, which has many potential applications in biotechnology, medicine, cell biology and genetics,” Pederson said. “Comparatively speaking, it is a cheap and fast alternative to expensive RNA and protein analysis equipment that is expensive and requires longer time to produce results.”

The project also had an outreach component in which the students were encouraged to create a tool to help teach high school students about synthetic biology. Salazar created a circuit board that mimicked the biosensor developed by the team. The electronic circuit was adopted by , the outreach program of ÎÞÂëרÇø’s , to teach high school students about synthetic biology.

The team was advised by Professor Catalina Achim, Electrical and Computer Engineering Professor Diana Marculescu, Biological Sciences Professor Aaron Mitchell and Biomedical Engineering Assistant Professor Ge Yang. ÎÞÂëרÇø’s iGEM team has been supported by ÎÞÂëרÇø’s , , , Center for Nucleic Acids Science and Technology, and Ray and Stephanie Lane Center for Computational Biology.

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