Team:Victoria Australia

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== <div style="width: 60%; height: 60%; color: #50cad; font-size: 25px; ">Preliminary Project Outline</div> ==
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[[Image:Protien.jpg|300px|right|Fluorescent proteins emiting light of various colors upon excitation with UV light|thumb]]
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== <div style="width: 100%; height: 100%; color: #120cad; font-size: 28px; filter: progid:DXImageTransform.Microsoft.Glow(color=#6132fa, strength=8); -ms-filter: progid:DXImageTransform.Microsoft.Glow(color=#6132fa, strength=8);">Victoria_Australia Preliminary Project Outline</div> ==
 
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<div style='position:absolute;margin-left:72px;z-index:18'><div style="width: 500px; height: 400px; background-color: #ffffff; font-size: 12px; font-family: Verdana; text-align: justify; overflow: auto;">The RMIT University iGEM (Victoria_Australia) team aims to build a biological lighting system via cell free transcription and translation (CFTnT). This project applies Synthetic Biology in a simple manner that could be efficient for everyday use. It was developed after the consideration of current energy and climate change issues.  
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The RMIT University iGEM (Victoria_Australia) team aims to build a biological lighting system via cell free transcription and translation also known as CFTnT technology. This project aims to apply the principles of Synthetic Biology in a simple manner that could be efficient for everyday use. The project concept was developed after the consideration of current energy and climate change issues.
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A CFTnT system was chosen because in principle, the lysate used in the CFTnT system may be prepared from any type of cell. Hence, the team thought it would be of merit to develop an alternative light source, which could possibly be powered by a waste material as simple as grass clippings used as the cell lysate. The team also hopes to address cellular and bioprocess problems that arise when employing a CFTnT system and is considering many novel approaches to creating a more sustainable system that can be scaled up for practical applications. Initial experiments conducted by Victoria_Australia RMIT University team will focus on two cell-free systems derived from ''Escherichia coli'' and wheat germ.  
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A CFTnT system was chosen because in principle, the lysate used in the CFTnT system may be prepared from any type of cell. Hence, the team thought it would be of merit to develop an alternative light source, which could possibly be powered by a waste material as simple as grass clippings (cell lysate).
 
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The team also hopes to address cellular and bioprocess problems that arise when employing a CFTnT system and is considering many novel approaches to creating a more sustainable system that can be scaled up for practical applications.
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<span style="font-weight: bold;">Current Status:</span> With lab work nearing to an end, we have created an E.Coli cell free system, transformed and purified fluorescent proteins and are currently working on expressing the proteins in the cell free system and making an iGEM biobrick. Many hours are being put in to finish our presentation and poster with the jamboree not too far away.
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Initial experiments conducted by Victoria_Australia will focus on two cell-free systems derived from E. coli and wheat germ.
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<span style="font-weight: bold;">Current Status:</span> We've ordered basic materials, have designed a logo and spending a lot of time fundraising and writing letters for support. We are also holding a fundraiser charity auction on the 13th August and will describe this event more fully as our wiki evolves.  
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[[Image:rmit_team_and_lou.jpg|center|frame|Team Victoria]]
 
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Latest revision as of 15:00, 20 October 2009

Finalised fluoroforce header.jpg



Preliminary Project Outline


Fluorescent proteins emiting light of various colors upon excitation with UV light

The RMIT University iGEM (Victoria_Australia) team aims to build a biological lighting system via cell free transcription and translation also known as CFTnT technology. This project aims to apply the principles of Synthetic Biology in a simple manner that could be efficient for everyday use. The project concept was developed after the consideration of current energy and climate change issues. A CFTnT system was chosen because in principle, the lysate used in the CFTnT system may be prepared from any type of cell. Hence, the team thought it would be of merit to develop an alternative light source, which could possibly be powered by a waste material as simple as grass clippings used as the cell lysate. The team also hopes to address cellular and bioprocess problems that arise when employing a CFTnT system and is considering many novel approaches to creating a more sustainable system that can be scaled up for practical applications. Initial experiments conducted by Victoria_Australia RMIT University team will focus on two cell-free systems derived from ''Escherichia coli'' and wheat germ.

Current Status: With lab work nearing to an end, we have created an E.Coli cell free system, transformed and purified fluorescent proteins and are currently working on expressing the proteins in the cell free system and making an iGEM biobrick. Many hours are being put in to finish our presentation and poster with the jamboree not too far away.