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Revision as of 17:32, 18 October 2016
Goal #1: To construct a PETase biobrick to add to the iGEM registry. We wanted to achieve this goal so as to make the PETase enzyme more accessible for further study in the future.
In order to test for successful synthesis of a PETase biobrick, our team decided to integrate the gene into a plasmid backbone that would only express Chloro resistance following modification of the initial backbone. Terminator sequences prevented transcription of the plasmid unless a gene was>
Table 1: Change in Average Mass of PET Film (g) per Promoter
Day 0
Day 7
Day 13
Strong
0.05175
0.05175
0.05175
Moderately-Strong
0.071
0.071
0.07125
Weak
0.06675
0.06825
0.06725
Graph 1: Average PET Mass Sample over Time
Future Works
Although we were successful in creating a PETase biobrick, we have yet to collect enough data to find an ideal promoter for the construct. As such, the future proceedings of this project would be in gathering a greater amount of data at more frequent intervals in order to identify an ideal promoter.
In addition, we hope to insert an ampicillin resistance gene in our construct, and test for E. coli growth on an ampicillin plate. Testing for another selection factor would act as a secondary confirmation test for the successful construction of a PETase biobrick.
Determining the Andersen promoter with the highest potential to degrade PET plastic would be the first step regarding real-life applications of our lab. The later steps of the PET
degradation process, such as the breakdown of Terephthalic Acid and Ethylene Glycol, may be topics of further investigation.
RESULTS