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Team:Valencia
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<a href="https://2012.igem.org/Team:Valencia/Project"><p align="justify"><h4><span style="color: #2E0286;"><div align="center">Synechosunshine: photosynthetically powered biolamp</span></h4></a> | <a href="https://2012.igem.org/Team:Valencia/Project"><p align="justify"><h4><span style="color: #2E0286;"><div align="center">Synechosunshine: photosynthetically powered biolamp</span></h4></a> | ||
| - | We present <b>an artificial consortium of two specialized bacteria</b> by the means of synthetic biology, in order to obtain a <b>photosynthetically fed biolamp</b>. To achieve this we are modifying the cyanobacterium <i>Synechococcus elongatus</i> to feed the population of <i>Aliivibrio fischeri</i> through a transporter protein and produce AHL <b>to induce bioluminescence in response to the activity of a photosensitive operator</b>, which would activate the systems only at night. We look forward to develop an <b>efficient and autosufficient environmentally friendly biolamp</b>, with potential application to cover the illumination needs of many industrial sectors and places where electricity is hard to get.<a href="https://2012.igem.org/Team:Valencia/Project">Read more.</a></p> | + | <div align="justify">We present <b>an artificial consortium of two specialized bacteria</b> by the means of synthetic biology, in order to obtain a <b>photosynthetically fed biolamp</b>. To achieve this we are modifying the cyanobacterium <i>Synechococcus elongatus</i> to feed the population of <i>Aliivibrio fischeri</i> through a transporter protein and produce AHL <b>to induce bioluminescence in response to the activity of a photosensitive operator</b>, which would activate the systems only at night. We look forward to develop an <b>efficient and autosufficient environmentally friendly biolamp</b>, with potential application to cover the illumination needs of many industrial sectors and places where electricity is hard to get.<a href="https://2012.igem.org/Team:Valencia/Project">Read more.</a></p> |
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Synechosunshine: photosynthetically powered biolamp
We present an artificial consortium of two specialized bacteria by the means of synthetic biology, in order to obtain a photosynthetically fed biolamp. To achieve this we are modifying the cyanobacterium Synechococcus elongatus to feed the population of Aliivibrio fischeri through a transporter protein and produce AHL to induce bioluminescence in response to the activity of a photosensitive operator, which would activate the systems only at night. We look forward to develop an efficient and autosufficient environmentally friendly biolamp, with potential application to cover the illumination needs of many industrial sectors and places where electricity is hard to get.Read more.
Contact us: igemvalencia2012@gmail.com
We present an artificial consortium of two specialized bacteria by the means of synthetic biology, in order to obtain a photosynthetically fed biolamp. To achieve this we are modifying the cyanobacterium Synechococcus elongatus to feed the population of Aliivibrio fischeri through a transporter protein and produce AHL to induce bioluminescence in response to the activity of a photosensitive operator, which would activate the systems only at night. We look forward to develop an efficient and autosufficient environmentally friendly biolamp, with potential application to cover the illumination needs of many industrial sectors and places where electricity is hard to get.Read more.
Contact us: igemvalencia2012@gmail.com
