Difference between revisions of "Team:KU Leuven/Research/Results"
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− | In the first step, the Chromobacterium violacein CV026 was grown with different concentrations of OHHL. The C. violacein CV026 was added to the mixtures at an OD of 1.11. Our cells were grown for 24 hours in air-lid culture tubes at 30 °C in a shaking incubator (200 rpm). In figure 1 is clearly visible that a violet pigment is produced. </p> | + | In the first step, the <i>Chromobacterium violacein</i> CV026 was grown with different concentrations of OHHL. The <i>C. violacein</i> CV026 was added to the mixtures at an OD of 1.11. Our cells were grown for 24 hours in air-lid culture tubes at 30 °C in a shaking incubator (200 rpm). In figure 1 is clearly visible that a violet pigment is produced. </p> |
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− | Culture tubes of inoculated Chromobacterium violacein CV026 with different amounts of OHHL. click to enlarge</h4> | + | Culture tubes of inoculated <i>Chromobacterium violacein</i> CV026 with different amounts of OHHL. click to enlarge</h4> |
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− | <p>First a broad concentration range was used to estimate the linear part. This range was made by a two-fold dilution series. When measuring the absorbance, LB medium was used as blank. Later the absorbance values of the blank were subtracted from the absorbance values of the standards. Then these values were divided by the absorbance values at 600 nm measured in the microtiterplate which gives an indication of the cell number. Eventually the values were corrected by setting the point with a concentration of 0 mM OHHL in the origin. These values were plotted in figure 4. The concentrations 2.56 mM and 5.12 mM were left out because these values were not distinguishable from the blank. This can be explained because the OHHL is dissolved in DMSO which lowers the growth of C. violaceum CV026. Between the concentrations 0.64 mM and 1.28 mM, the curve is stagnating. This is probably due to saturation of the medium or the inhibitory effect of DMSO. In a next step, a more narrow range was investigated. | + | <p>First a broad concentration range was used to estimate the linear part. This range was made by a two-fold dilution series. When measuring the absorbance, LB medium was used as blank. Later the absorbance values of the blank were subtracted from the absorbance values of the standards. Then these values were divided by the absorbance values at 600 nm measured in the microtiterplate which gives an indication of the cell number. Eventually the values were corrected by setting the point with a concentration of 0 mM OHHL in the origin. These values were plotted in figure 4. The concentrations 2.56 mM and 5.12 mM were left out because these values were not distinguishable from the blank. This can be explained because the OHHL is dissolved in DMSO which lowers the growth of <i>C. violaceum</i> CV026. Between the concentrations 0.64 mM and 1.28 mM, the curve is stagnating. This is probably due to saturation of the medium or the inhibitory effect of DMSO. In a next step, a more narrow range was investigated. |
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Revision as of 23:34, 18 September 2015
Results
Leucine detection
The standard curve from 0 to 100 µM did not give a linear relationship. Our working method needs optimisation. Because the enzymes are from other organisms than mentioned in Kugimiya and Fukada (2015), it is possible that the enzymes have another efficiency and as a consequence need to have another ratio (substrates over enzyme). Additionally, we did not have the same equipment as described in the article: we had to manually pipet the luminol solution. This possibly means that the measurements have a delay.
Due to a lack of time, we couldn’t complete the plasmid assembly and therefore, we were not able to proceed the quantification of leucine.
In comparison to HPLC, the chosen method would be less time consuming without the need of specialized equipment.
Contact
Address: Celestijnenlaan 200G room 00.08 - 3001 Heverlee
Telephone: +32(0)16 32 73 19
Email: igem@chem.kuleuven.be