Team:Bielefeld-Germany/Results
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In the third step ... screening device! | In the third step ... screening device! | ||
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+ | Another goal of our project was to have create a light signal that is visible to the human eye. So genetic amplifiers ([http://parts.mit.edu/igem07/index.php/Cambridge/Amplifier_project#Results Cambridge, iGEM 2007, amplifier project]) were added to our luciferase BioBrick. This amplified luciferase read-out was coupled with the VirA/G signaling system in order to visualize the induction behaviour. The amplifiers worked so far and gave a visible luciferase read-out but the basal expression of the ''vir'' promoter was also amplified so the induced status of the VirA/G system was not discriminable properly from the uninduced status. | ||
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We entered the following BioBricks to the partsregistry: | We entered the following BioBricks to the partsregistry: | ||
<groupparts>iGEM010 Bielefeld-Germany</groupparts> | <groupparts>iGEM010 Bielefeld-Germany</groupparts> |
Revision as of 19:04, 27 October 2010
Results
On the next pages we are going to present you our BioBrick work.
One approach of our project was to visualize a read-out by a light emitting system. So a luciferase BioBrick was build. This BioBrick is a highly sensitive reporter gene which was successfully applied in different devices with a PoPS output. The characterization of this BioBrick can be found here.
The second step was to establish a complete VirA/G signaling system from Agrobacterium tumefaciens in Escherichia coli. For this purpose three new BioBricks were created - virA, virG and a vir promoter. The VirA receptor recognizes the phenolic substance acetosyringone and transmits this information to the VirG response regulator - a bacterial transcription factor which activates vir promoters. This natural VirA/G signaling system works in E. coli and was measured and characterized by using the reporter genes mRFP and luciferase.
In the third step ... screening device!
Another goal of our project was to have create a light signal that is visible to the human eye. So genetic amplifiers ([http://parts.mit.edu/igem07/index.php/Cambridge/Amplifier_project#Results Cambridge, iGEM 2007, amplifier project]) were added to our luciferase BioBrick. This amplified luciferase read-out was coupled with the VirA/G signaling system in order to visualize the induction behaviour. The amplifiers worked so far and gave a visible luciferase read-out but the basal expression of the vir promoter was also amplified so the induced status of the VirA/G system was not discriminable properly from the uninduced status.
We entered the following BioBricks to the partsregistry:
<groupparts>iGEM010 Bielefeld-Germany</groupparts>