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+ | A critical component of measurement and modeling in synthetic biology involves standardization of values to ensure accurate conversion and comparison of data between different experiments for validation. Reproducibility has therefore become a necessity for confirmation of results in various experiments, as well as providing a sufficient standard of comparison. The InterLab study aims to address this goal through the characterization of the Green Fluorescent Protein (GFP) with studies conducted by labs across the world. As GFP is utilized as an almost universal reporter in experiments, it is crucial for standardizing fluorescence values for comparison. Lambert iGEM shares this vision of reproducibility in synthetic biology and participated in the InterLab to help achieve this goal. | ||
+ | <br><br> | ||
+ | In the spirit of collaboration, we worked with the University of Georgia iGEM Team to conduct our experiments and compare results in order to optimize protocols and recognize changes that can be made to ensure increased reproducibility. We performed our experiments and obtained measurements in tandem to limit variables, and analyzed our measurement curves to compare differences. One of the critical components we realized affected the measurements was a reconstitution of the particle solution and the time the particles were allowed to settle. We resuspended the particles after obtaining plate reader data indicating that was the factor affecting the values. Throughout this experience, we have learned the critical need for reproducibility and hope to pursue future opportunities with the InterLab study! | ||
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− | < | + | <img src = "https://static.igem.org/mediawiki/2018/2/20/T--Lambert_GA--interlab3.png" style = "height:240px; padding-left: 10px; padding-right: 15px;" > |
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− | + | <div id="content2" style="font-size: 12px"><i> Pictured are Lambert iGEM members Ellie Kim and Gaurav Bygathvalli working on the InterLab study alongside UGA iGEM members in the UGA iGEM facilities.</i></div> | |
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+ | <div id="subheading1"><b>Results</b></div> | ||
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+ | Download our InterLab data by clicking on <a href="https://static.igem.org/mediawiki/2018/3/3c/T--Lambert_GA--InterLab_Data.xls">this link.</a><br><br> | ||
+ | Here are the graphs that show our InterLab data:<br><br><center> | ||
+ | <img src="https://static.igem.org/mediawiki/2018/f/f9/T--Lambert_GA--IL1.png"><br> | ||
+ | <img src="https://static.igem.org/mediawiki/2018/9/9c/T--Lambert_GA--IL2.png"><br> | ||
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+ | <img src="https://static.igem.org/mediawiki/2018/3/3f/T--Lambert_GA--IL4.png"><br> | ||
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Latest revision as of 04:54, 17 October 2018
I N T E R L A B
Overview
A critical component of measurement and modeling in synthetic biology involves standardization of values to ensure accurate conversion and comparison of data between different experiments for validation. Reproducibility has therefore become a necessity for confirmation of results in various experiments, as well as providing a sufficient standard of comparison. The InterLab study aims to address this goal through the characterization of the Green Fluorescent Protein (GFP) with studies conducted by labs across the world. As GFP is utilized as an almost universal reporter in experiments, it is crucial for standardizing fluorescence values for comparison. Lambert iGEM shares this vision of reproducibility in synthetic biology and participated in the InterLab to help achieve this goal.
In the spirit of collaboration, we worked with the University of Georgia iGEM Team to conduct our experiments and compare results in order to optimize protocols and recognize changes that can be made to ensure increased reproducibility. We performed our experiments and obtained measurements in tandem to limit variables, and analyzed our measurement curves to compare differences. One of the critical components we realized affected the measurements was a reconstitution of the particle solution and the time the particles were allowed to settle. We resuspended the particles after obtaining plate reader data indicating that was the factor affecting the values. Throughout this experience, we have learned the critical need for reproducibility and hope to pursue future opportunities with the InterLab study!
In the spirit of collaboration, we worked with the University of Georgia iGEM Team to conduct our experiments and compare results in order to optimize protocols and recognize changes that can be made to ensure increased reproducibility. We performed our experiments and obtained measurements in tandem to limit variables, and analyzed our measurement curves to compare differences. One of the critical components we realized affected the measurements was a reconstitution of the particle solution and the time the particles were allowed to settle. We resuspended the particles after obtaining plate reader data indicating that was the factor affecting the values. Throughout this experience, we have learned the critical need for reproducibility and hope to pursue future opportunities with the InterLab study!
Pictured are Lambert iGEM members Ellie Kim and Gaurav Bygathvalli working on the InterLab study alongside UGA iGEM members in the UGA iGEM facilities.
Results
Download our InterLab data by clicking on this link.
Here are the graphs that show our InterLab data:
Here are the graphs that show our InterLab data: