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Accumulation of waste represents a considerable problem to humanity. Over the next 50 years, the global community will produce approximately 2 trillion tonnes of waste, or 2.5 times the weight of Mount Everest.

Traditionally, mixed non-recyclable waste is sent to landfill or for incineration, both of which result in environmental damage. The detrimental effects are perpetrated by the plastic degradation into toxic byproducts and the production of greenhouse gases by these processes. We propose to upcycle this mixed waste into the bioplastic poly-3-hydroxybutyrate (P3HB) to create a closed loop recycling system. Our engineered E. coli will operate within sealed bioreactors. In the future we picture the use of our system in a variety of contexts as part of our M.A.P.L.E. (Modular And Plastic Looping E.coli) system.

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-<h3 style="margin-top:0; padding-top:0;">Accumulation of waste represents a considerable problem to humanity. <strong>Over  the next 50 years, the global community will produce approximately 2  trillion tonnes of waste, or 2.5 times the weight of Mount Everest.</strong>
+<h4 style="margin-top:0; padding-top:0;">Accumulation of waste represents a considerable problem to humanity. <strong>Over  the next 50 years, the global community will produce approximately 2  trillion tonnes of waste, or 2.5 times the weight of Mount Everest.</strong>
-</h3>  <p>Traditionally, mixed non-recyclable waste is sent to landfill or  for incineration, both of which result in environmental damage. The  detrimental effects are perpetrated by the plastic degradation into  toxic byproducts and the production of greenhouse gases by these  processes. We propose to upcycle this mixed waste into the bioplastic  poly-3-hydroxybutyrate (P3HB) to create a closed loop recycling system.  Our engineered E. coli will operate within sealed bioreactors. In the  future we picture the use of our system in a variety of contexts as part  of our M.A.P.L.E. (Modular And Plastic Looping E.coli) system. </p>
+</h4>  <p>Traditionally, mixed non-recyclable waste is sent to landfill or  for incineration, both of which result in environmental damage. The  detrimental effects are perpetrated by the plastic degradation into  toxic byproducts and the production of greenhouse gases by these  processes. We propose to upcycle this mixed waste into the bioplastic  poly-3-hydroxybutyrate (P3HB) to create a closed loop recycling system.  Our engineered E. coli will operate within sealed bioreactors. In the  future we picture the use of our system in a variety of contexts as part  of our M.A.P.L.E. (Modular And Plastic Looping E.coli) system. </p>
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