Team:Peking S
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'''PROJECT SUMMARY''' | '''PROJECT SUMMARY''' | ||
- | + | Cell-cell communication based multi-cellular systems provide an extended vista for synthetic biology. By compartmentalizing the target network into different cells, crosstalk between molecular interactions and metabolic burden of single cells may be reduced and increasingly complex dynamic functions might be more realizable. However, well-characterized orthogonal signaling systems are far from sufficient. | |
- | Accordingly, our project intends to develop a versatile signaling platform for complicated multicellular dynamics. For this goal, we are going to characterize a set of recently reported quorum sensing molecules to implement cell-cell communication in a variety of forms. Further, we are constructing logic gates and a teamwork based cell density oscillator to test our Biobricks in both Boolean andntinuous networks. | + | Accordingly, our project intends to develop a versatile signaling platform for complicated multicellular dynamics. For this goal, we are going to characterize a set of recently reported quorum sensing molecules to implement cell-cell communication in a variety of forms. Further, we are constructing logic gates and a teamwork based cell density oscillator to test our Biobricks in both Boolean andntinuous networks. |
Revision as of 22:08, 14 July 2011
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PROJECT SUMMARY
Cell-cell communication based multi-cellular systems provide an extended vista for synthetic biology. By compartmentalizing the target network into different cells, crosstalk between molecular interactions and metabolic burden of single cells may be reduced and increasingly complex dynamic functions might be more realizable. However, well-characterized orthogonal signaling systems are far from sufficient.
Accordingly, our project intends to develop a versatile signaling platform for complicated multicellular dynamics. For this goal, we are going to characterize a set of recently reported quorum sensing molecules to implement cell-cell communication in a variety of forms. Further, we are constructing logic gates and a teamwork based cell density oscillator to test our Biobricks in both Boolean andntinuous networks.