Team:KULeuven/Data

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<a href="http://partsregistry.org/wiki/index.php?title=Part:BBa_K584027" target="blank"><b>BBa_K584027</b></a> is a precursor of BBa_K584028 with a constitutive promoter.
<a href="http://partsregistry.org/wiki/index.php?title=Part:BBa_K584027" target="blank"><b>BBa_K584027</b></a> is a precursor of BBa_K584028 with a constitutive promoter.
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<b>Plasmid 2</b> can contain <a href="http://partsregistry.org/wiki/index.php?title=Part:BBa_K584026" target="blank"> <b>BBa_K584026</b> </a> to test the activity of AFP. Due to lack of time we could not construct a biobrick in which the pBAD promoter is linked to the AFP. <br>  
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<b>Plasmid 2</b> can contain <a href="http://partsregistry.org/wiki/index.php?title=Part:BBa_K584026" target="blank"> <b>BBa_K584026</b> </a> to test the activity of AFP. Due to lack of time we could not finish the AFP stimulating system. <br>
<b>Plasmid 3</b> contains <a href="http://partsregistry.org/wiki/index.php?title=Part:BBa_K584004" target="blank"><b>BBa_K584004</b></a>. This is is a GFP-construct to test the activity of the HybB promoter. Due to lack of time we could not test this biobrick. We wanted to engineer a biobrick in which the ribokey is controlled by the HybB promoter.
<b>Plasmid 3</b> contains <a href="http://partsregistry.org/wiki/index.php?title=Part:BBa_K584004" target="blank"><b>BBa_K584004</b></a>. This is is a GFP-construct to test the activity of the HybB promoter. Due to lack of time we could not test this biobrick. We wanted to engineer a biobrick in which the ribokey is controlled by the HybB promoter.

Revision as of 13:47, 21 September 2011

KULeuven iGEM 2011

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Data page

How does E.D. Frosti work?



The first illustration is a global overview of our project in which you can see how the plasmids (and the parts) function in our system. The next illustration shows the plasmids more in detail, with the favorite new parts and the characterized pre-existing parts.


Plasmid 1 contains BBa_K584028 that enables E.D. Frosti to immediately respond to lactose and produce INP. BBa_K584027 is a precursor of BBa_K584028 with a constitutive promoter.
Plasmid 2 can contain BBa_K584026 to test the activity of AFP. Due to lack of time we could not finish the AFP stimulating system.
Plasmid 3 contains BBa_K584004. This is is a GFP-construct to test the activity of the HybB promoter. Due to lack of time we could not test this biobrick. We wanted to engineer a biobrick in which the ribokey is controlled by the HybB promoter. BBa_K584027 was inserted in plasmid 1 to characterize INP.


Data for our favorite new parts

  • 1. BBa_K584020 - AFP extracellular protein generator (K.U.Leuven, iGEM 2011): This biobrick generates AFP that will be expressed extracellularly. We tested biobrick this by putting it behind a constitutive promoter (which yielded BBa_K584026 ).

  • 2. BBa_K584024 - INP generator (K.U.Leuven, iGEM 2011):This biobrick generates INP that is expressed extracellularly. We tested this biobrick by putting it behind a constitutive promoter (which yielded BBa_K584027).

    Data for pre-existing parts

  • 1. BBa_I13453 - pBAD promoter (Endy Lab, iGEM 2005): Fused a GFP reporter to this promoter (which created biobrick: BBa_K584000). The results can be found at the experience page of that promoter.

  • 2. BBa_J23119 - constitutive promoter (Berkeley, iGEM 2006): Fused a GFP reporter to this promoter (which created biobrick: BBa_K584001). The results can be found at the experience page of that promoter.

    We've also characterized the following parts

  • 1. BBa_K584004 - HybB promoter + GFP generator (K.U.Leuven, iGEM 2011): We created this biobrick but due to lack of time we could not test it.

  • 2. BBa_K584027, Constitutive promoter + INP (K.U.Leuven, iGEM 2011):

  • 3. BBa_K584026, Constitutive promoter + AFP (K.U.Leuven, iGEM 2011):