Synthetic Counter (iGem2005 ETH Zurich)
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=Introduction= | =Introduction= | ||
- | = | + | The past few years have seen the emergence of the field of synthetic biology, in which functional units are designed and built into cells for a particular purpose, and ultimately to improve our understanding of life. Previous work include |
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+ | =Design of the Counter= | ||
=Methods= | =Methods= | ||
=Results and Discussion= | =Results and Discussion= |
Revision as of 13:10, 14 October 2005
Abstract. We report here the design and implementation in vivo of a gene circuit that can count up to 4. In essence, it uses two toggle switches, each storing 1 bit, to keep track of the 4 states. The design of the counter is highly modular, in the hope that it can be included as a unit in larger circuits, but also combined with similar units to keep track of a much larger number of states, up to (2^(n+1)) with n units. To facilitate further development and integration to other projects, the counter is available in form of BioBricks.
Contents |
Introduction
The past few years have seen the emergence of the field of synthetic biology, in which functional units are designed and built into cells for a particular purpose, and ultimately to improve our understanding of life. Previous work include