Team:Imperial College/Electron microscopy

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Contents

Scanning Electron Microscopy

A good way to observe the function of a degradation enzyme is to incubate it with the polymer and scan the surface after some time with an electron micrograph. This is a widely used method for studying plastic degradation and we are applying it for characterising Proteinase K enzyme ([http://parts.igem.org/Part:BBa_K1149008 BBa_K1149008]) and recording how it "chews" on a PLA cup.

PLA can spontaneously hydrolyse in water. However, this only happens very slowly and at higher temperatures. Here is a SEM image from the literature (see references). We are expecting our enzymes to have at least as visible effect in 3 or less days.

PLA_hydrolisis_SEM.jpg
SEM images of the surface of PLA incubated for 9 and 20 days in deionized water at 58 °C.


method

We cut small pieces of the cup and washed them with ethanol and then with deionised water in order to remove any potential contamination.
2013-09-27_12.47.05.jpg

The samples 1A, 2A and 3A were incubated with 350 uL cell lysate of E.coli MG1655 transformed with BBa_K1149008, for 1, 2 and 3 days.

Sample 1B, 2B and 3B were incubated with proteinase K enzyme solution for 1, 2 and 3 days. (** Units, lets do a LOT)

The negative control A was treated with cell lysate from MG1655 E.coli strain containing the empty vector and the negative control B is a PLA piece with no treatment.

All experiments were carried out at ? degrees. We have used a xxxx electron micrograph at the [http://www3.imperial.ac.uk/materials/facilities/em Harvey Flower Microstructural Characterisation Suite], Imperial College.

results

Below come all the fabulous images we shall hopefully have:

PLA_SEM_plans.jpg

references

Effect of NR on the hydrolytic degradation of PLA, Huang et al., 2013

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