Team:DTU-Denmark

From 2010.igem.org

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<b>DTU DENMARK</b><br><br>
<b>DTU DENMARK</b><br><br>
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<p align="justify">The aim of this project is to engineer a genetic bi-stable switch that produces two different, mutually exclusive outputs when given two different inputs. The switch is based on the repressor-anti-repressor system of the salmonella phages Gifsy1 and Gifsy2 and the λ-phage anti-termination system. The latest induced output will remain stable through generations, even once the input ceases, due to the phage regulatory systems.</p>
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<p align="justify">The aim of this project is to engineer a genetic bistable switch that produces two different, mutually exclusive outputs when given two different inputs. The switch is based on the repressor-anti-repressor system of the Salmonella phages Gifsy1 and Gifsy2 and the λ-phage anti-termination system. The latest induced output will remain stable through generations, even once the input ceases, due to the phage regulatory systems.</p>
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<p align="justify">We present the framework for this development and characterize the regulatory mechanisms by using fluorescent proteins as outputs. The dynamics of the system will be modeled and we will also attempt to characterize and submit the promoters, repressors and anti-repressors from the salmonella phages, as well as the two anti-terminator proteins from the lambda phage, as BioBricks.</p>
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<p align="justify">We present the framework for this development and we characterize the regulatory mechanisms by using fluorescent proteins as outputs. The dynamics of the system will be modeled and we will also attempt to characterize and submit the promoters, repressors and anti-repressors from the Salmonella phages, as well as the two anti-terminator proteins from the lambda phage, as BioBricks.</p>
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<p align="justify">There are multiple potential applications for biological "switches" such as this one in the world of biotechnology i.e. within the medical and environmental field.</p>
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<p align="justify">There are multiple potential applications for a biological "switch" like ours in the world of biotechnology i.e. within the medical and environmental field.</p>
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<h3>Basic Concept</h3>
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  <caption align="bottom"><p align="justify"><b>Figure 1</b>: The basic concept of our project is illustrated:<br><i>Inducer 1</i> will activate <i>Promoter 1</i> thereby start up the production of <i>Repressor 1</i>, switching off the other part of our switch by repressing <i>Promoter 2</i>. This will essentially make the cells change from <font color="#990000">red</font color> to <font color="#006600">green</font color>! This means that when the cells are exposed to <i>Inducer 2</i>, the cell culture will turn from <font color="#006600">green</font color> to <font color="#990000">red</font color>.</font></p></caption>
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  <caption align="bottom"><p align="justify"><b>Figure 1</b> Fun in the lab!!</p></caption>
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Latest revision as of 01:52, 28 October 2010

Welcome to the DTU iGEM wiki!


Sponsors and acknowledgements



Also check out our Danish website



Also check us out on:



Our Galllery:


DTU DENMARK

The aim of this project is to engineer a genetic bistable switch that produces two different, mutually exclusive outputs when given two different inputs. The switch is based on the repressor-anti-repressor system of the Salmonella phages Gifsy1 and Gifsy2 and the λ-phage anti-termination system. The latest induced output will remain stable through generations, even once the input ceases, due to the phage regulatory systems.

We present the framework for this development and we characterize the regulatory mechanisms by using fluorescent proteins as outputs. The dynamics of the system will be modeled and we will also attempt to characterize and submit the promoters, repressors and anti-repressors from the Salmonella phages, as well as the two anti-terminator proteins from the lambda phage, as BioBricks.

There are multiple potential applications for a biological "switch" like ours in the world of biotechnology i.e. within the medical and environmental field.

Figure 1 Fun in the lab!!






Quick Update

October 24th, 2010

The structure of our wiki has been changed slightly... Our Modeling section can now be found under The Project.

October 15th, 2010

Maya, Thomas and Juliet took the BioLector for a ride! And it was cool way to spend our Friday evening ;D

October 7th, 2010

The DTU-iGEM team will be meeting up with the SDU-iGEM team this Saturday (9th Oct) give each other feedback on our projects and to have a social event!

October 1st, 2010

Check out our active blog: now with picture of the day!

August 14th, 2010

Pictures have been posted so check out our picture gallery!

Comments or questions to the team? Please