Team:Austin Texas/human practices
From 2014.igem.org
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<h2>Measuring Caffeine Content</h2> | <h2>Measuring Caffeine Content</h2> | ||
- | + | [[file:UT_Austin_E._coli_coffee_cultures.jpg|300px|thumb|left| Cultures of knockout strain grown with collected coffee samples.]] | |
- | [[file:UT_Austin_E._coli_coffee_cultures.jpg|300px|thumb| | + | |
- | The ''E. coli'' we used are a synthetic strain, previously made by the [https://2012.igem.org/Team:Austin_Texas 2012 UT Austin iGEM team]. This strain has had its normal guanine synthesis pathway knocked out, but contains a plasmid with a set of genes that enables the organism to synthesize guanine from xanthine and many of its derivatives, including caffeine. Without caffeine (or other xanthines), the strain cannot grow. When caffeine is added, the strain can demethylate the caffeine molecules (and other derivatives) to make guanine. It then grows normally until the caffeine is completely metabolized, at which point the cells can no longer synthesize guanine, and cease to grow. Thus, by looking at the relative growth of the strain with different samples of coffee and comparing it to a standard curve of growth in solutions with known amounts of caffeine, we could somewhat accurately measure the amount of caffeine in the coffee. | + | The ''E. coli'' we used are a synthetic strain, previously made by the [https://2012.igem.org/Team:Austin_Texas 2012 UT Austin iGEM team]. This strain has had its normal guanine synthesis pathway knocked out, but contains a plasmid with a set of genes that enables the organism to synthesize guanine from xanthine and many of its derivatives, including caffeine. Without caffeine (or other xanthines), the strain cannot grow. When caffeine is added, the strain can demethylate the caffeine molecules (and other derivatives) to make guanine. It then grows normally until the caffeine is completely metabolized, at which point the cells can no longer synthesize guanine, and cease to grow.[[file:UT_Austin_caffeine_growth_standard_curve.png|200px|thumb|center| Standard growth curve of knockout strain grown with different amounts of caffeine.]] Thus, by looking at the relative growth of the strain with different samples of coffee and comparing it to a standard curve of growth in solutions with known amounts of caffeine, we could somewhat accurately measure the amount of caffeine in the coffee. |
The protocol was simple: We provided our Caffeinated coli with a diluted sample of coffee we had acquired from the various shops, and then compared the relative growth rates by taking an OD600 value at a time point. | The protocol was simple: We provided our Caffeinated coli with a diluted sample of coffee we had acquired from the various shops, and then compared the relative growth rates by taking an OD600 value at a time point. |
Revision as of 17:40, 15 October 2014
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