Team:UNIK Copenhagen/Safety

From 2014.igem.org

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<div class="description">
<div class="description">
<p><br><b>Touch</b> the lego bricks to see what sequences the gene consist of and <b>click</b> on the sequences to read more about their function.</p>
<p><br><b>Touch</b> the lego bricks to see what sequences the gene consist of and <b>click</b> on the sequences to read more about their function.</p>
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<p>Gene construct 1: HeavyChain-GFP10</p>
 
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<img src="https://static.igem.org/mediawiki/2014/4/4e/Team_UNIK_Copenhagen_Gene_Construct1.png"  usemap="#MapGENE1" border="0">
 
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<p>Gene construct 2: HeavyChain-GFP11</p>
 
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<img src="https://static.igem.org/mediawiki/2014/4/4e/Team_UNIK_Copenhagen_Gene_Construct1.png"  usemap="#MapGENE2" border="0">
 
<p>Gene construct 3: LightChain</p>
<p>Gene construct 3: LightChain</p>
<img src="https://static.igem.org/mediawiki/2014/6/67/Team_UNIK_Copenhagen_GFP_construct3.PNG"  usemap="#MapGENE3" border="0">
<img src="https://static.igem.org/mediawiki/2014/6/67/Team_UNIK_Copenhagen_GFP_construct3.PNG"  usemap="#MapGENE3" border="0">
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<p>Gene construct 4: GFP1-9</p>
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<img src="https://static.igem.org/mediawiki/2014/4/43/Team_UNIK_Copenhagen_Gene_Construct4.png"  usemap="#MapGENE4" border="0">
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<p>Gene construct 5: Antigen</p>
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<img src="https://static.igem.org/mediawiki/2014/e/e6/Team_UNIK_Copenhagen_GFP_construct5.png"  usemap="#MapGENE5" border="0">
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<map name="MapGENE1">
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  <area shape="rect" coords="2,2,48,77" title="Flanking side: CAN1" type="button" onclick="can1Function();">
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  <area shape="rect" coords="50,2,92,77" title="Signal peptide" onclick="sigpepFunction();">
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  <area shape="rect" coords="94,2,214,77" title="Variable domain of the heavy chain" onclick="hcvFunction();">
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  <area shape="rect" coords="216,2,345,77" title="Conserved domain of the heavy chain" onclick="hccFunction();">
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  <area shape="rect" coords="347,2,418,77" title="Linker" onclick="linkFunction();">
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  <area shape="rect" coords="420,2,495,77" title="Split-GFP 10" onclick="gfp10Function();">
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  <area shape="rect" coords="497,2,548,77" title="Flanking side: CAN1" onclick="can1Function();">
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</map>
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<map name="MapGENE2">
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  <area shape="rect" coords="2,2,48,77" title="Flanking side: CAN1" type="button" onclick="can1Function();">
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  <area shape="rect" coords="50,2,92,77" title="Signal peptide" onclick="sigpepFunction();">
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  <area shape="rect" coords="94,2,214,77" title="Variable domain of the heavy chain" onclick="hcvFunction();">
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  <area shape="rect" coords="216,2,345,77" title="Conserved domain of the heavy chain" onclick="hccFunction();">
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  <area shape="rect" coords="347,2,418,77" title="Linker" onclick="linkFunction();">
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  <area shape="rect" coords="420,2,495,77" title="Split-GFP 11" onclick="gfp11Function();">
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  <area shape="rect" coords="497,2,548,77" title="Flanking side: CAN1" onclick="can1Function();">
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</map>
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<map name="MapGENE3">
<map name="MapGENE3">
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</map>
</map>
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<map name="MapGENE4">
 
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  <area shape="rect" coords="2,2,48,77" title="Flanking side: CAN1" type="button" onclick="can1Function();">
 
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  <area shape="rect" coords="50,2,92,77" title="Signal peptide" onclick="sigpepFunction();">
 
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  <area shape="rect" coords="94,2,345,77" title="GFP 1-9" onclick="gfp19Function();">
 
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  <area shape="rect" coords="347,2,398,77" title="Flanking side: CAN1" onclick="can1Function();">
 
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</map>
 
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<map name="MapGENE5">
 
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  <area shape="rect" coords="2,2,48,77" title="Flanking side: CAN1" type="button" onclick="can1Function();">
 
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  <area shape="rect" coords="50,2,301,77" title="Tobacco Mosaic Virus coating protein" onclick="TMVFunction();">
 
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  <area shape="rect" coords="303,2,355,77" title="Flanking side: CAN1" onclick="can1Function();">
 
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</map>
 
<table class="sequence_description" id="about_gene"></table></div>
<table class="sequence_description" id="about_gene"></table></div>

Revision as of 13:22, 14 August 2014




TRIPARTITE SPLIT GFP

In our split-GFP project we utilize tripartite split GFP fused to FAB (fragment antigen-binding) fragments so that when two FAB fragments with GFP β-strand 10 and 11 bind to the same antigen, both β-strands will always be close together and fuse with any passing GFP fragments containing β-strand 1-9 with a high affinity. This system could in theory be applied to any molecule or protein containing multiple close-proximity binding sites with known antibodies. The capsid proteins of viruses are repetitive structures assembled from a large amount of monomeric units. Therefore antibodies targeting these monomeric units should be able to bind in a large quantity in close proximity.

To achieve this system we found a suitable antigen in the Tobacco Mosaic Virus (TMV), a plant pathogen, and an associated compatible antibody. In our project we construct FAB fragments from this antibody fused with a GFP β-strand 10 or 11 using a flexible linker. By transforming this construct together with a preceding signal peptide, into one line of yeast cells, and the remaining β-strand 1-9 GFP fragment with a preceding signal peptide into another line to avoid GFP fusing within the cells, a mix of these two lines will secrete both types of FAB fragments and the free split GFP 1-9 into their media. When a sample is added to this media, an increase in fluorescence will be indicative of the presence of TMV capsid protein.

Once a yeast strain with a FAB fragment compatible to a desired pathogen is established, production costs of the system should be very low. And due to the low-tech of the finished product, we imagine being able to ship out bags containing dry-yeast and media powder for easy diagnostic field tests in any remote part of the world, with only water, sample of interest and a UV light being needed.

GENE CONSTRUCTS


Touch the lego bricks to see what sequences the gene consist of and click on the sequences to read more about their function.

Gene construct 3: LightChain