Difference between revisions of "Team:BostonU/Part Collection"
| (5 intermediate revisions by 2 users not shown) | |||
| Line 7: | Line 7: | ||
| − | <div style = "font-size:300%; padding:75px 50px 3px 50px; text-align:center; color:#0071A7;">Part Collection</div> | + | <div style = "font-size:300%; padding:75px 50px 3px 50px; text-align:center; color:#0071A7;">Best Part Collection</div> |
<br><center><hr style= "width:60%; height: 3px; background-color:#0071A7"></center><br> | <br><center><hr style= "width:60%; height: 3px; background-color:#0071A7"></center><br> | ||
| + | <p style = "font-size:200%; font-family:Trebuchet MS; padding:5px 200px 15px 200px; color:#760E18;">The 2016 BostonU iGEM team was a nominee for the Best Part Collection Award.</p> | ||
| − | + | <p style = "font-size:150%; padding:5px 150px 15px 150px; color:#0071A7;"> | |
| + | The BostonU 2016 iGEM team created Gemini, a design space that combines digital and analog expression systems to easily modulate exogenous gene expression levels in human cells. The system relies on three components: a genome-orthogonal gRNA, a corresponding DNA operator with a minimal promoter, and a dCas9-VPR to transactivate the output gene. We developed a set of mutually-orthogonal gRNAs to enable multiplexed gene regulation without cross-talk, and a set of gRNA-operator plasmids to achieve varied expression levels. Our submitted parts collection has 2 gRNA expression devices (<a href = "http://parts.igem.org/Part:BBa_K1875011" style = "color:blue;">BBa_K1875011</a>-<a href = "http://parts.igem.org/Part:BBa_K1875012" style = "color:blue;">BBa_K1875012</a>) and 7 gRNA-operator devices (<a href = "http://parts.igem.org/Part:BBa_K1875013" style = "color:blue;">BBa_K1875013</a>-<a href = "http://parts.igem.org/Part:BBa_K1875019" style = "color:blue;">BBa_K1875019</a>). We validated these parts using flow cytometry. We demonstrated “digital” expression when comparing output gene activation with or without gRNAs, and “analog” expression when comparing different gRNA-operator architectures (single, multimerized, and mutated sequences). </p> | ||
<p style = "font-size:150%; padding:5px 150px 15px 150px; color:#0071A7;"> | <p style = "font-size:150%; padding:5px 150px 15px 150px; color:#0071A7;"> | ||
| − | The team created pages for parts | + | The team created pages for parts BBa_K1875000 - BBa_K1875019 and submitted parts BBa_K1875011 - BBa_K1875019.</p> |
Latest revision as of 03:36, 2 December 2016
The 2016 BostonU iGEM team was a nominee for the Best Part Collection Award.
The BostonU 2016 iGEM team created Gemini, a design space that combines digital and analog expression systems to easily modulate exogenous gene expression levels in human cells. The system relies on three components: a genome-orthogonal gRNA, a corresponding DNA operator with a minimal promoter, and a dCas9-VPR to transactivate the output gene. We developed a set of mutually-orthogonal gRNAs to enable multiplexed gene regulation without cross-talk, and a set of gRNA-operator plasmids to achieve varied expression levels. Our submitted parts collection has 2 gRNA expression devices (BBa_K1875011-BBa_K1875012) and 7 gRNA-operator devices (BBa_K1875013-BBa_K1875019). We validated these parts using flow cytometry. We demonstrated “digital” expression when comparing output gene activation with or without gRNAs, and “analog” expression when comparing different gRNA-operator architectures (single, multimerized, and mutated sequences).
The team created pages for parts BBa_K1875000 - BBa_K1875019 and submitted parts BBa_K1875011 - BBa_K1875019.
