Team:UNITN-Trento/Project/Methyl Salicylate

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Results - Methyl Salicylate

While the choice for the molecule to induce the ripening process was quiet easy because the quantities and the effects of ethylene on plants and on both climacteric and nonclimateric fruits are largely described in literature, was harder to find a synthesizable substance able to block the fruits’ ripening. This is due to the fact that most of the molecule reported to inhibit the maturation are toxic or they have a terrible smell (this is the case of putrescine and cadaverin). Moreover we were searching for a volatile molecule in order to reach the fruit from the bacteria without contact of these two. After long discussions and researches we finally ran into some papers that present the effects of Methyl Salicylate (MeSA) in inhibit fruit maturation. So, the choice to produce this organic ester was made. To produce it we have decided to exploit the work Eau De Coli done by the MIT IGEM Team 2006 that exploited the pathway shown in the picture that starts from chorismate, a metabolic intermediate of the Shikimate pathway.

In that project were designed BioBricks that contain all the three enzymes necessary for the production of MeSA: pCHA, the isochorismate synthase, pCHB, the isochorismate pyruvate lyase and BMST1, the SA methyltransferase- We have extracted them from the Registry Distribution Kit and we have exploited them to build our own devices as it is shown in the picture.

MeSA detection

At the beginning of our work we have worked with the device BBa_K1065102 that contained all the enzymes needed to obtain MeSA from the metabolic intermediate chorismate when arabinose was added. To detect the presence of the compound in the medium of our E. coli we tried both qualitative and quantitative analysis on sample.

GC-MS FID

To have a quantitative analysis we used the Finnigan Trace GC ULTRA with a flame ionization detector (FID). To achieve the results shown here and to finally measure the quantity presents in our samples many tries were done. The column exploited was a DB5-MS capillary with a total length of 30 m (loops), an internal diameter of 0.25 mm and a film of 0.25 μm. The temperature program set for all the analyses was set to start with the oven thermostat and so the column at 80°C for 2’, to increase the temperature at the rate of 30°C/min until reaching the temperature of 280°C and maintaining it for 10’. The temperatures of the injector and of the FID were set 280°C. The carrier in the column was He 1.4 mL/min and the flow of the FID was set to be 40 mL/min of H2, 450 mL/min of air and to make up (it is needed for the stability of the helium flame) 30 mL/min of N2. The modality of the introduction of the samples in the detector was set to splitless, in particular 70 mL/min. With these setting the retention index of MeSA was between 10.20-10.27 min. The measurements where performed on liquid and 1 μL of liquid from the samples was taken and injected in the instrument. Here we have report the calibration curve that was constructed by using MeSA solutions with different concentrations (0 mM, 0.2 mM, 0.5 mM, 1.0 mM, 2 mM).

After the calibration curve was constructed, the measurements on the MeSA producing bacteria were done: to not damage the instrument, for the bacteria’s samples, the falcons were before centrifuged and 1 mL of supernatant was filtrated with a 0.22 μm filter and then 1 μL of each sample was injected in the gas chromatographer. The software that registered all the chromatograms was Finningan Xcalibur® after that the correct method was uploaded. This software also allowed to obtain directly the MeSA quantities from bacteria’s samples. In the histogram showed below you can see the results that we have obtained.

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