Team:INSA Toulouse
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- | <p>One major goal of Synthetic Biology is the transposition of electronic devices such as logic gates into genetic modules capables of | + | <p>One major goal of Synthetic Biology is the transposition of electronic devices such as logic gates into genetic modules capables of complex, autnomous decisions. Very recent publications described highly original logic gates utilizing serine recombinases, avoiding reversibility of the genetic switch and thus creating strong and robust genetic logical gates (AND, XOR, OR). |
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- | The <i>E. calculus</i> project exemplifies these genetic modules by creating a | + | The <i>E. calculus</i> project exemplifies these genetic modules by creating a binary full-adder using the AND and XOR gates. The proposed design could perform a n-bits counting with a carry. Our project also aimed at validating original properties of these new genetic switches: irreversibility and accurate genetic transmission of the swithed state to the offspring of the cell.</p> |
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<div class="imgnew"><a href="https://2013.igem.org/Team:INSA_Toulouse/contenu/team/students"><img src="https://static.igem.org/mediawiki/2013/5/59/Igem-toulouse.imgnews.jpg"/></a></div> | <div class="imgnew"><a href="https://2013.igem.org/Team:INSA_Toulouse/contenu/team/students"><img src="https://static.igem.org/mediawiki/2013/5/59/Igem-toulouse.imgnews.jpg"/></a></div> | ||
- | <div class="textnew"><a href="https://2013.igem.org/Team:INSA_Toulouse/contenu/team/students" style="color:grey;"><p>If you want to know a little bit more about the team, look at this! You may discover magic | + | <div class="textnew"><a href="https://2013.igem.org/Team:INSA_Toulouse/contenu/team/students" style="color:grey;"><p>If you want to know a little bit more about the team, look at this! You may discover magic pictures if you put your mouse over the picture...</p></a></div> |
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Revision as of 19:57, 27 September 2013
Project
One major goal of Synthetic Biology is the transposition of electronic devices such as logic gates into genetic modules capables of complex, autnomous decisions. Very recent publications described highly original logic gates utilizing serine recombinases, avoiding reversibility of the genetic switch and thus creating strong and robust genetic logical gates (AND, XOR, OR).
The E. calculus project exemplifies these genetic modules by creating a binary full-adder using the AND and XOR gates. The proposed design could perform a n-bits counting with a carry. Our project also aimed at validating original properties of these new genetic switches: irreversibility and accurate genetic transmission of the swithed state to the offspring of the cell.
Gallery Project