User:ThomasU/main

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You are working in bacteria and never heard of U2-OS, SREBP or CYP1A1? Don't worry! Browse our Eukaryopedia  and enter the world of mammalian BioBricks.
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Our team worked on a computational approach for the rational design of promoter libraries. Similar to existing methods which predict spatial preferences of transcription factor binding sites (TFBS) by detecting statistically overrepresented motives we used Promotersweep to analyze and process the information of over 4000 human promoter sequences.
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Thirteen students and nine advisors are working on this four month project. We split up into several subgroups whose focus and results you can follow on the Notebook and Project pages. If you want to know more about the subgroups and the people involved, meet us on our Team page  and let's get to know each other better at the Jamboree in Boston.
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You are working in bacteria and never heard of U2-OS, SREBP or CYP1A1? Don't worry! Browse our Eukaryopedia  and enter the world of mammalian BioBricks.
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<div id="wrapperheadline">iGEM Heidelberg Mission 2010: miBricks</div><br><br>
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<div id="projectabstract">The key to successful gene therapy is integration of tissue specificity and fine-tuned target gene expression. iGEM Team Heidelberg 2010 unlocks the world of synthetic microRNAs. We engineered a toolkit for standardized measurements of interactions between artificial miRNAs and their binding sites. Thus, the expression level of any gene of choice could be arbitrarily adjusted by employing the corresponding binding site design. To produce tissue specific miRNA gene shuttles, we developed an evolution-based method for synthesis of new adeno associated viruses. In the future, miBricks could open the doors to new Synthetic Biology based medical approaches. </div><br><br>
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Thirteen students and nine advisors are working on this four month project. We split up into several subgroups whose focus and results you can follow on the Notebook and Project pages. If you want to know more about the subgroups and the people involved, meet us on our Team page  and let's get to know each other better at the Jamboree in Boston.
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Latest revision as of 17:08, 18 October 2010

iGEM Heidelberg Mission 2010: miBricks


The key to successful gene therapy is integration of tissue specificity and fine-tuned target gene expression. iGEM Team Heidelberg 2010 unlocks the world of synthetic microRNAs. We engineered a toolkit for standardized measurements of interactions between artificial miRNAs and their binding sites. Thus, the expression level of any gene of choice could be arbitrarily adjusted by employing the corresponding binding site design. To produce tissue specific miRNA gene shuttles, we developed an evolution-based method for synthesis of new adeno associated viruses. In the future, miBricks could open the doors to new Synthetic Biology based medical approaches.


Please click a Button to get more information!