Team:University College London/Research

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Contents

Research

Background

In many of the worlds oceans, currents carry debris and pollution originating from coastlines. This waste accumulates in regional gyres, where the worlds ocean currents meet, and can reach extremely high concentrations. Plastic is estimated to account for 60-80% of this debris, and is known to be gradually broken down by solar energy and the mechanic action of the sea. This means the majority of the plastic waste are several millimetres in size or less, which has made efforts to clean them from the ocean largely unsuccessful. These tiny plastic fragments - microplastics - enter the digestive systems of resident organism, which are affected either by the physical size of the plastic or its toxicity from adsorbing organic pollutants.

Aim

We aim to genetically engineer a bacterial machine capable of constructing 'islands' from microplastics. Using Roseobacter denitrificans, a marine bacterium, we will insert genes that allow it to adhere to, aggregate and buoy fragments. While relatively small, these ‘Plastic Islands’ could be collected and recycled, or alternatively clumped into large artificial ‘islands’. Our vision is to reclaim waste by ‘terraforming’ it into a habitable island – dubbed by our team as the ‘Plastic Republic’.

We are pursuing this project as several separate modules which we will assemble once we have tested their competence.

Detection Module

Receptors based detection is a first step for both aggregation and degradation. The main receptor is human oestrogen receptor that binds to different types of micro-plastics.

Aggregation Module

In the case of aggregation, receptors on bacteria detect micro-plastics and induce the production of sticky extensions of cell membrane. First this allows bacteria stick to the plastics and once covered in bacteria allows micro-plastics to stick to one another.

Degredation Module

The degradation module, which is separate from aggregation module, also comes after receptor detection. This system metabolizes the micro-plastics and their derivatives that are otherwise toxic to the environment. As a result of degradation these materials are converted into non-toxic ones.