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| | Our goal was to enable epigenetic engineering. We believe synthetic biological systems should be as subtle and robust as natural organisms. </b><br/> | | Our goal was to enable epigenetic engineering. We believe synthetic biological systems should be as subtle and robust as natural organisms. </b><br/> |
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| - | <ul> | + | <ol> |
| | <li>Designed a functional fusion protein to facilitate epigenetic engineering</li> | | <li>Designed a functional fusion protein to facilitate epigenetic engineering</li> |
| | <li>Validated a novel methylation assay, MaGellin, to accelerate development of epigenetic engineering tools</li> | | <li>Validated a novel methylation assay, MaGellin, to accelerate development of epigenetic engineering tools</li> |
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| | <li> | | <li> |
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| - | </ul> | + | </ol> |
| | </p> | | </p> |
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Accomplishments:
Our goal was to enable epigenetic engineering. We believe synthetic biological systems should be as subtle and robust as natural organisms.
- Designed a functional fusion protein to facilitate epigenetic engineering
- Validated a novel methylation assay, MaGellin, to accelerate development of epigenetic engineering tools
- Built a complementary MaGellin software package to automate experimental analysis
- BioBrick'ed our MaGellin plasmid so other iGEM teams can build off our work
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