7.349 Biological Computing: At the Crossroads of Engineering and Science, Spring 2005

Author(s)
Khodor, Julia
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Biological Computing: At the Crossroads of Engineering and Science
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Abstract
Imagine you are a salesman needing to visit 100 cities connected by a set of roads. Can you do it while stopping in each city only once? Even a supercomputer working at 1 trillion operations per second would take longer than the age of the universe to find a solution when considering each possibility in turn. In 1994, Leonard Adleman published a paper in which he described a solution, using the tools of molecular biology, for a smaller 7-city example of this problem. His paper generated enormous scientific and public interest, and kick-started the field of Biological Computing, the main subject of this discussion based seminar course. Students will analyze the Adleman paper, and the papers that preceded and followed it, with an eye for identifying the engineering and scientific aspects of each paper, emphasizing the interplay of these two approaches in the field of Biological Computing. This course is appropriate for both biology and non-biology majors. Care will be taken to fill in any knowledge gaps for both scientists and engineers.This course is one of many Advanced Undergraduate Seminars offered by the Biology Department at MIT. These seminars are tailored for students with an interest in using primary research literature to discuss and learn about current biological research in a highly interactive setting.
Date issued
2005-06
URI
https://hdl.handle.net/1721.1/152415
Department
Massachusetts Institute of Technology. Department of Biology
Other identifiers
7.349-Spring2005
Other identifiers
7.349
IMSCP-MD5-1e9d3b9feca1df0ccc8ff8a166eb9464
Keywords
biological computing, Leonard Adleman, exquisite detection, whole-cell computing, computation, molecular biology, biotin-avidin, magnetic beads, cellular processes, combinatorial problems, self-assembly, nanodevices, molecular machines, quorum sensing, molecular switches, ciliates, molecular gates, molecular circuits, genetic switch, cellular networks, genetic networks, genetic circuits
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