Difference between revisions of "Team:Penn/Overview"

Latest revision as of 03:58, 19 September 2015

University of Pennsylvania iGEM

PROJECT OVERVIEW

The emerging field of optogenetics has driven development of truly fascinating bacterial systems. Scientists have been able to achieve optogenetic control of cell function using engineered photoreceptors, edge detection of an illuminated design, and even patterns on cells with fluorescent proteins. The field still harbors a lot of potential that has yet to be explored. (S Karig)

The Penn 2015 iGEM team attempted to exploit this potential by using light to drive cell communication. Talk between bacterial populations, known as quorum sensing is reliant on diffusion of chemical autoinducers produced by the cell. This process enables microorganisms to modify gene expression as a function of cell density. The reliance of quorum sensing on chemical diffusion restricts communication to within common environments and compatible conditions. However, the use of bioluminescent sender cells and light-sensitive receiver cells to drive talk between cells overcomes these limitations. The system is effective across boundaries, in different environments, and in populations with different growth conditions or antibiotic resistances. Additionally, future research teams can also take advantage of the orthogonality of light to chemicals and spatiotemporal control of light in any future project endeavors.

The design of our project was inspired by an electrical engineering system known as a photocoupler (pictured below.)

This component works by transferring electrical signals between isolated circuits by using light. Our system is a biological analog of the optocoupler, a cell-to-cell communication system in which a "sender" cell transfers a light signal to an isolated "receiver" cell, which expresses photoreceptors to enable a light-dependent response. (CITATION) Please click on the links below to learn more about the individual components of our project.

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-   <h1>OVERVIEW</h1>
+   <h1>PROJECT OVERVIEW</h1>
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-       <p>When the New York fashion community notices your brand, the world soon follows. The widespread love for UGG extended to Europe in the mid-2000's along with the stylish casual movement and demand for premium casual fashion. UGG boots and shoes were now seen walking the streets of London, Paris and Amsterdam with regularity. To meet the rising demand from new fans, UGG opened flagship stores in the UK and an additional location in Moscow. As the love spread farther East, concept stores were opened in Beijing, Shanghai and Tokyo. UGG Australia is now an international brand that is loved by all. This love is a result of a magical combination of the amazing functional benefits of sheepskin and the heightened emotional feeling you get when you slip them on your feet. In short, you just feel better all over when you wear UGG boots, slippers, and shoes.</p>
+       <p class="margin-top-10"> The emerging field of optogenetics has driven development of truly fascinating bacterial systems. Scientists have been able to achieve optogenetic control of cell function using engineered photoreceptors, edge detection of an illuminated design, and even patterns on cells with fluorescent proteins. The field still harbors a lot of potential that has yet to be explored. (S Karig)</p>
-     <p class="margin-top-10">In 2011, UGG will go back to its roots and focus on bringing the active men that brought the brand to life back with new styles allowing them to love the brand again as well. Partnering with Super Bowl champion and NFL MVP Tom Brady, UGG will invite even more men to feel the love the rest of the world knows so well. UGG will also step into the world of high fashion with UGG Collection. The UGG Collection fuses the timeless craft of Italian shoemaking with the reliable magic of sheepskin, bringing the luxurious feel of UGG to high end fashion. As the love for UGG continues to spread across the world, we have continued to offer new and unexpected ways to experience the brand. The UGG journey continues on and the love for UGG continues to spread.</p>
+     <p class="margin-top-10">The Penn 2015 iGEM team attempted to exploit this potential by using light to drive cell communication.  Talk between bacterial populations, known as quorum sensing is reliant on diffusion of chemical autoinducers produced by the cell.  This process enables microorganisms to modify gene expression as a function of cell density. The reliance of quorum sensing on chemical diffusion restricts communication to within common environments and compatible conditions. However, the use of bioluminescent sender cells and light-sensitive receiver cells to drive talk between cells overcomes these limitations. The system is effective across boundaries, in different environments, and in populations with different growth conditions or antibiotic resistances. Additionally, future research teams can also take advantage of the orthogonality of light to chemicals and spatiotemporal control of light in any future project endeavors.</p>
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+ <p class="margin-top-10"><br>This component works by transferring electrical signals between isolated circuits by using light. Our system is a biological analog of the optocoupler, a cell-to-cell communication system in which a "sender" cell transfers a light signal to an isolated "receiver" cell, which expresses photoreceptors to enable a light-dependent response.  (CITATION) Please click on the links below to learn more about the individual components of our project. </p>
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