Team:UST Beijing

From 2014.igem.org

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  <p>Synthetic biology is an emerging field which combines forward-engineering technology with that of conventional biochemical and molecular genetics approaches, also considered “reverse engineering” of terrestrial life systems. Since first established in 2003, the iGEM competition, a college level education platform, encourages the practice of genetic engineering using standardized function-oriented DNA fragments; in recent years especially, iGEM projects have become increasingly sophisticated, and some winning ones have reached the limit of logical reasoning and design. </p>
  <p>Synthetic biology is an emerging field which combines forward-engineering technology with that of conventional biochemical and molecular genetics approaches, also considered “reverse engineering” of terrestrial life systems. Since first established in 2003, the iGEM competition, a college level education platform, encourages the practice of genetic engineering using standardized function-oriented DNA fragments; in recent years especially, iGEM projects have become increasingly sophisticated, and some winning ones have reached the limit of logical reasoning and design. </p>
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  <p>Our 2011 UST-Beijing team took the initiative of exploring horizontal gene transfer, by inserting a bacterial light-driven proton-pump into the inner mitochondrial membrane of cultured human cells. This year, for the 2014 iGEM competition, our UST-Beijing team will continue to analyze the transformed human cells, and make further proposals based on the unique observation of these experiments, in order to promote health and human welfare. </p>
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  <p>Our <a href="https://static.igem.org/mediawiki/2014/2/2b/IGEM2011.jpg">2011 UST-Beijing team</a> took the initiative of exploring horizontal gene transfer, by inserting a bacterial light-driven proton-pump into the inner mitochondrial membrane of cultured human cells. This year, for the 2014 iGEM competition, our UST-Beijing team will continue to analyze the transformed human cells, and make further proposals based on the unique observation of these experiments, in order to promote health and human welfare. </p>
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<td align ="center"><img src="https://static.igem.org/mediawiki/2014/1/1c/Mmexport1397189112932.jpg" width="55px"></a> </td>
<td align ="center"><img src="https://static.igem.org/mediawiki/2014/1/1c/Mmexport1397189112932.jpg" width="55px"></a> </td>
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Revision as of 08:34, 27 August 2014


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Project Executive Summary

  • Synthetic biology is an emerging field which combines forward-engineering technology with that of conventional biochemical and molecular genetics approaches, also considered “reverse engineering” of terrestrial life systems. Since first established in 2003, the iGEM competition, a college level education platform, encourages the practice of genetic engineering using standardized function-oriented DNA fragments; in recent years especially, iGEM projects have become increasingly sophisticated, and some winning ones have reached the limit of logical reasoning and design.

    Our 2011 UST-Beijing team took the initiative of exploring horizontal gene transfer, by inserting a bacterial light-driven proton-pump into the inner mitochondrial membrane of cultured human cells. This year, for the 2014 iGEM competition, our UST-Beijing team will continue to analyze the transformed human cells, and make further proposals based on the unique observation of these experiments, in order to promote health and human welfare.