Team:NCTU Formosa

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<div class="team">a regulation system that does multitasking.</div>
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<p style="text-align:center;color:white;">Abstract</p>
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Insect damage has been a severe problem ever since ancient agricultural times. Nowadays, people are still suffering from harmful insects. People have been striving to resolve these problems by using pesticides. It seemed to be really effective at first, but after several years, people became conscious of the side effects of those environmentally hazardous chemicals. This year, our team NCTU Formosa established a taskforce, Harmful Insects Elimination Force, to solve this problem. Compared to the complex biosynthesis pathway of pheromones, we found the simple act of expressing the DNA sequence of PBAN (Pheromone Biosynthesis Activating Neuropeptide) to be equally, if not more, efficient and effective. Just like pheromones, PBAN is species-specific. Once our target species comes in contact with the PBAN produced by our <i>E.coli</i>, its pheromone glands will be stimulated and thus attract more of its own kind into our capturing device. So far, we have already collected sequences of a few common species of harmful insects. Hopefully this model can be widely used in the future when PBANs of more insects are found.
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<div style="font-size:110%;line-height:105%;font-family:"Times New Roman", Times, serif;">Insect damage has been a severe problem ever since ancient agricultural times. Nowadays, people are still suffering from harmful insects. People have been striving to resolve these problems by using pesticides. It seemed to be really effective at first, but after several years, people became conscious of the side effects of those environmentally hazardous chemicals. This year, our team NCTU Formosa established a taskforce, Harmful Insects Elimination Force, to solve this problem. Compared to the complex biosynthesis pathway of pheromones, we found the simple act of expressing the DNA sequence of PBAN (Pheromone Biosynthesis Activating Neuropeptide) to be equally, if not more, efficient and effective. Just like pheromones, PBAN is species-specific. Once our target species comes in contact with the PBAN produced by our <i>E.coli</i>, its pheromone glands will be stimulated and thus attract more of its own kind into our capturing device. So far, we have already collected sequences of a few common species of harmful insects. Hopefully this model can be widely used in the future when PBANs of more insects are found.</div>
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<p style="font-size:130%;text-align:center;color:white;">The Story of PBAN</p>
 
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<p>This is a video that tells the story of PBAN, an underdog in the peptide world who rose to the top with the help of HIEF (Harmful Insect Elimination Force). The video introduces NCTU_Formosa's project, Operation Debug, for the 2014 iGEM competition.
 
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Latest revision as of 03:15, 18 October 2014

a regulation system that does multitasking.

Abstract

Insect damage has been a severe problem ever since ancient agricultural times. Nowadays, people are still suffering from harmful insects. People have been striving to resolve these problems by using pesticides. It seemed to be really effective at first, but after several years, people became conscious of the side effects of those environmentally hazardous chemicals. This year, our team NCTU Formosa established a taskforce, Harmful Insects Elimination Force, to solve this problem. Compared to the complex biosynthesis pathway of pheromones, we found the simple act of expressing the DNA sequence of PBAN (Pheromone Biosynthesis Activating Neuropeptide) to be equally, if not more, efficient and effective. Just like pheromones, PBAN is species-specific. Once our target species comes in contact with the PBAN produced by our E.coli, its pheromone glands will be stimulated and thus attract more of its own kind into our capturing device. So far, we have already collected sequences of a few common species of harmful insects. Hopefully this model can be widely used in the future when PBANs of more insects are found.

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