Rapid Characterization of Cellular Pathways Using Time-Varying Signals
Citable URI:
http://hdl.handle.net/1721.1/29803
| Title: | Rapid Characterization of Cellular Pathways Using Time-Varying Signals |
| Author: | Thomson, Ty M; Endy, Drew |
| Publisher: | International Conference on Systems Biology |
| Issue Date: | 2005-10-21 |
| Abstract: | The use of traditional tools for the discovery and characterization of biological systems has resulted in a wealth of biological knowledge. Unfortunately, only a small portion of the biological world is well-understood to date, and the study of the rest remains a daunting task. This work involves using time-varying stimuli in order to more rapidly interrogate and characterize signaling pathways. The time-dependent stimulation of a signaling pathway can be used in conjunction with a model of the pathway to efficiently evaluate and test hypotheses. We are developing this technology using the yeast pheromone signal transduction pathway as a model system. The time-varying stimuli will be applied to the yeast cells via a novel microfluidic device, and the pathway output will be measured via various fluorescent reporters. The output of the pathway can then be compared to the output from a computational model of the pathway in order to test hypotheses and constrain our knowledge of the pathway. Initial work shows that a computational model can be used to identify stimuli time-courses that increase the parameter sensitivity, meaning that corresponding experiments could potentially be much more informative. |
| Description: | Poster presented at the 2005 ICSB meeting, held at Harvard Medical School in Boston, MA. |
| URI: | http://hdl.handle.net/1721.1/29803 |
| Citation: | Ty Thomson and Drew Endy. Rapid Characterization of Cellular Pathways Using Time-Varying Signals. Sixth International Conference on Systems Biology, 2005. |
| Keywords: | Pheromone Response, Time-Varying Signals, Microfluidics |
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| Files | Size | Format | View |
|---|---|---|---|
| poster v1.ppt | 2.764Mb | Microsoft PowerPoint |
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