Team:MIT

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<p>Below is an animation created by our team member Jenny Cheng, showing the Notch-Delta interaction leading to the cleavage of the Notch intracellular domain, which enters the nucleus and leads to the expression of cadherins, which cause cells to bind to other cells expressing the same cadherin.</p>
<p>Below is an animation created by our team member Jenny Cheng, showing the Notch-Delta interaction leading to the cleavage of the Notch intracellular domain, which enters the nucleus and leads to the expression of cadherins, which cause cells to bind to other cells expressing the same cadherin.</p>
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Revision as of 22:48, 28 September 2011

Project

MIT's iGEM project focuses on genetically programming tissue self-construction to achieve specific spatiotemporal patterns of cell differentiation (initially with fluorescence, ultimately with cell fate regulators). This is accomplished through synthetic gene networks that integrate control over engineered cell-cell communication pathways, intracellular information processing circuits, and cell-cell adhesion. Through engineered control of these mechanisms, we are investigating how programmed local rules of interactions between cells can lead to the emergence of desired global spatiotemporal properties.

Below is an animation created by our team member Jenny Cheng, showing the Notch-Delta interaction leading to the cleavage of the Notch intracellular domain, which enters the nucleus and leads to the expression of cadherins, which cause cells to bind to other cells expressing the same cadherin.

Sponsors

MIT Departments

For more information about iGEM, please refer to: https://2011.igem.org/Main_Page

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Email: igem2011@mit.edu