Team:Imperial College/mainresults
From 2013.igem.org
Main Results
Resource-full Waste
Plastic Fantastic
We made P3HB bioplastic ▼
Modelling ▼
In order to realistically improve our experimental design, we produced P3HB synthesis model with considerations of central metabolic pathway within the cells. Our model predicts that during the synthesis of P3HB, the concentration of PhaB enzymes is an important rate limiting factor that can actually be regulated.
We optimised bioplastic production ▼
Since our model predicts that the concentration of PhaB enzymes is the rate limiting step in P3HB production, we designed a [http://parts.igem.org/Part:BBa_K1149051 hybrid promoter] consists of the J23104 constitutive promoter and the native promoter to optimise gene expression. Our results show that we have successfully produced 11-fold more P3HB bioplastic compared with the native promoter.
We made bioplastic from mixed waste ▼
One of the objectives of Module 1 is to produce P3HB bioplastic from waste. By comparing degradation product 3HB of P3HB bought from Sigma, produced from glucose and produced from the waste, we found there is no significant differences in 3HB concentration between these samples.
E. coli can feed on 3HB ▼
We degraded P3HB ▼
We degraded P3HB we made from waste ▼
Using 3HB colourimetric assay kit, we have shown that we have degraded the P3HB made from waste into 3HB monomers. In addition, there is no significant difference in 3HB concentration between different P3HB sources. This result proves that we now have a closed loop for P3HB bioplastic recycling!
We degraded PLA ▼