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In this presentation, seven grad students talk about their collective objective based on Professor Niles research: to figure out how cellular networks function and the role that small molecules play in these networks through gene knockout, RNA interference studies, and hybird studies. RNA apatamers' main function is to bind to a specific molecule. This material is great for gene expression, can be developed invitro, can be expressed inside a cell, and is useful in exploring protein based networks. To prove Prof Niles hypothesis, an equalized heme based synthetic pathway model was created.  Presenters: U’kevia Bell, Mobolaji Akinpelu, Brian Perea, Jose Antonio Rodriguez Lopez, Dalziel Soto, Ramses Saavedra, Jose Mugiel Veleta, Prof. Jacquin Niles
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Video Length: 2700
Date Found: July 13, 2011
Date Produced: July 12, 2011
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MIT TechTV |
July 16, 2011
A student from the Beijing No. 4 High School InvenTeam explains their team’s invention, a classroom desk that protects students in an earthquake.
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MIT TechTV |
July 15, 2011
A paper solar cell circuit is shown powering an LCD clock when illuminated. The entire integrated paper photovoltaic is then fed through a roll-to-roll office laser-jet printer. The resulting ink spells MIT on the device side of the paper array, which then continues to power the LCD clock. The ...
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MIT TechTV |
July 15, 2011
Webinar conducted by Bruce Arntzen on July 14, 2011 with potential 2011-2012 partners.
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MIT TechTV |
July 15, 2011
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MIT TechTV |
July 15, 2011
The 2011 MIT Energy Conference gathered more than 1,000 at the Westin Copley for the MIT Energy Club’s annual flagship event. This video captures what makes the Conference unique and deeply grounded in the MIT Energy Club's values.
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