Difference between revisions of "ASIJProjectDescription"

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We are surrounded by plastic everyday, specifically PET (Polyethylene terephthalate). Considered as the most common type of polyester, PET is a plastic resin often used for packaging consumer products. We can also find it in our water bottles, plastic toys, and even in the fiber of our clothing. PET is a combination of two monomers known as ethylene glycol and purified terephthalic acid that, when combined, form the polymer PET. The problem with PET is that although it is a convenient material for humans to use, it does not easily biodegrade. As PET accumulates in the ecosystems around the world, it poses detrimental effects on habitats worldwide. That is why it is crucial that we find an efficient way to degrade PET.   
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We are surrounded by plastic everyday, specifically PET (<i>Polyethylene Terephthalate</i>). Considered as the most common type of Polyester, PET is a plastic resin often used for packaging consumer products. We can also find it in our water bottles, plastic toys, and even in the fiber of our clothing. PET is a combination of two monomers known as ethylene glycol and purified terephthalic acid that, when combined, form the polymer PET. The problem with PET is that although it is a convenient material for humans to use, it does not easily biodegrade. As PET accumulates in the ecosystems around the world, it poses detrimental effects on habitats worldwide. That is why it is crucial that we find an efficient way to degrade PET.   
 
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<h1 >Abstract </h1>
 
<h1 >Abstract </h1>
 
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In recent years, the production of polyethylene terephthalate (PET) has increased rapidly, as a result of low production costs and consumer demands.  PET is one of the most common plastic polymers, comprised of repeating monomeric subunits of Terephthalic Acid and Ethylene Glycol. It is frequently used in the manufacture of plastic bottles and clothing fibres, especially in Japan. As avid users of PET-based products, our team decided to research how to optimise the degradation of PET, which takes an average of 450 years to degrade naturally. We were further inspired to pursue this goal with Keio University’s recent discovery of Ideonella sakaiensis — a unique bacteria capable of PET degradation. Thus, we have focused our project on the synthesis of an optimal PETase biobrick, which would be included in the iGEM database. Ultimately, our goal is to find an ideal promoter to expedite the production and secretion of PETase.
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In recent years, the production of <i>Polyethylene Terephthalate</i> (PET) has increased rapidly, as a result of low production costs and consumer demands.  PET is one of the most common plastic polymers, comprised of repeating monomeric subunits of Terephthalic Acid and Ethylene Glycol. It is frequently used in the manufacture of plastic bottles and clothing fibres, especially in Japan. As avid users of PET-based products, our team decided to research how to optimise the degradation of PET, which takes an average of 450 years to degrade naturally. We were further inspired to pursue this goal with Keio University’s recent discovery of <i>Ideonella sakainesis</i> — a unique bacteria capable of PET degradation. Thus, we have focused our project on the synthesis of an optimal PETase biobrick, which would be included in the iGEM database. Ultimately, our goal is to find an ideal promoter to expedite the production and secretion of PETase.
 
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<h2>References</h2>
 
<h2>References</h2>

Revision as of 07:21, 13 October 2016

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