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+ | <h1> <b> Interlab Measurement Study </b> </h1> | ||
+ | <p>The Interlab Study is an initiative started in 2014 by the iGEM foundation to collect standard measurement data from around the world. This year, as a part of the measurement track, we completed the Interlab study according to the directions provided on the iGEM Interlab Study webpage. The purpose of this year's study was to measure the absorbance and fluorescence of three different GFP containing devices as well as a positive and negative control. The absorbance and fluorescence of a series of diluted FITC samples and LUDOX-S30 to serve as measurement standards. Below, we have detailed our procedures, implications of our results, and conclusions we have drawn that relate back to our main focus of evolutionary stability in synthetic biology. In synthetic biology, it is important that part characterization is consistent between different labs to create well-defined standard parts for the Registry. We are excited to contribute to this study!</p> |
Revision as of 20:43, 9 September 2016
Interlab Measurement Study
The Interlab Study is an initiative started in 2014 by the iGEM foundation to collect standard measurement data from around the world. This year, as a part of the measurement track, we completed the Interlab study according to the directions provided on the iGEM Interlab Study webpage. The purpose of this year's study was to measure the absorbance and fluorescence of three different GFP containing devices as well as a positive and negative control. The absorbance and fluorescence of a series of diluted FITC samples and LUDOX-S30 to serve as measurement standards. Below, we have detailed our procedures, implications of our results, and conclusions we have drawn that relate back to our main focus of evolutionary stability in synthetic biology. In synthetic biology, it is important that part characterization is consistent between different labs to create well-defined standard parts for the Registry. We are excited to contribute to this study!