Team:SDU-Denmark/protocols

From 2010.igem.org

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(CK1.1)
(EX1.2)
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3. Re-suspend cells in 8 mL acetone and sonicate the sample for 2x 30 sek<br> <br>
3. Re-suspend cells in 8 mL acetone and sonicate the sample for 2x 30 sek<br> <br>
4. Centrifuge the samples at 16000g for 2 min and collect 2 mL of the supernatant<br><br>
4. Centrifuge the samples at 16000g for 2 min and collect 2 mL of the supernatant<br><br>
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5. Measure absorbance using an HPLC at 450 nm for bata-carotene and 382 nm for retinal analysis, using a C18… column with 100% Methanol as the A Buffer and 60% Methanol, 40% acetone as the B buffer <br><br>
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5. Measure absorbance using an HPLC at 450 nm for bata-carotene and 382 nm for retinal analysis, For this particular purpose, we use a C-18 column, and the eluents used are as follows: <br>
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A-buffer: 100% methanol with 0,1% trifluoroacetic acid. <br>
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B-buffer: A mixture consisting of 60% methanol and 40% acetone with 0,1% trifluoroacetic acid. <br>
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Due to the chemical properties of beta-carotene and retinal, respectively, retinal will come through the column before beta-carotene when a gradient is run from 100% A-buffer to 100% B-buffer. <br>
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Afterwards, the solutions of purified retinal or beta-carotene are studied using UV-vis photospectrometry and the values and spectra are compared to those of the same compounds of known concentrations. Again, this gives both qualitative and quantitative indications of whether the compound in question is present and, if it is, in what concentration. <br>
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Revision as of 21:00, 24 October 2010