Team:UC Chile2/Bactomithril

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== Overview ==
== Overview ==
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Spider dragline silk is an exceptionally strong and elastic fiber and is an ideal material for numerous biomedical and industrial applications. In this secondary project we developed a novel secretion system that allows to export proteins to the extracellular medium and added the first spider-silk biobrick to the Registry. This biobrick contains the synthetic silk gene ADF-3 from the orb weaving spider Araneus diadematus.</p>
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Spider dragline silk is an exceptionally strong and elastic fiber and is an ideal material for numerous biomedical and industrial applications. In this secondary project we developed a novel secretion system that allows to export proteins to the extracellular medium and tried to add the first spider-silk biobrick to the Registry. This biobrick would have the synthetic silk gene ADF-3 from the orb weaving spider Araneus diadematus. Nevertheless, due to the repetitive nature of the spider silk monomer we could not finish this biobrick for de Regional Jamboree (despite of several intents and strategies).  </p>
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== Construct: a novel secretion system ==
== Construct: a novel secretion system ==
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<big> Working Plasmid </big>
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<big>           Working Plasmid </big>
[[File:UC_Chile-OmpA+HIV.png|center]]
[[File:UC_Chile-OmpA+HIV.png|center]]
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<center>This is an intermediate plasmid that we used to build the GFP Reporter Plasmid an the Protease Producer Plasmid.</center>
<center>This is an intermediate plasmid that we used to build the GFP Reporter Plasmid an the Protease Producer Plasmid.</center>
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      <big> GFP Reporter Plasmid </big>
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<big> GFP Reporter Plasmid </big>
[[File:UC_Chile_OmpA+HIV+GFP.png|center]]
[[File:UC_Chile_OmpA+HIV+GFP.png|center]]
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Additionally, we analyzed 4 UV micrographs of each sample (n=4) with the software ImageJ
Additionally, we analyzed 4 UV micrographs of each sample (n=4) with the software ImageJ
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[[File:UC_Chile-15_junio_max_2012_UV,_light,_superpuestas,_4xlow.jpg|center]]
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[[File:UC_Chile-15_junio_max_2012_UV,_light,_superpuestas,_4xlow.jpg|center|962px]]
The results were quite different compared to the ones of our previous experiment. Remarkable is that, as expected, B2- and B2+ present the lowest and highest fluorescence intensity. Additionally, (B2+ & B3+) and (B2+ & Protease K) present very similar fluorescence. However, for second time we obtained a weird result: (B2+ & B3+) and (B2+ & B3-) present the same amount of fluorescence.  
The results were quite different compared to the ones of our previous experiment. Remarkable is that, as expected, B2- and B2+ present the lowest and highest fluorescence intensity. Additionally, (B2+ & B3+) and (B2+ & Protease K) present very similar fluorescence. However, for second time we obtained a weird result: (B2+ & B3+) and (B2+ & B3-) present the same amount of fluorescence.  

Latest revision as of 10:53, 24 September 2012

Project: Luxilla - Pontificia Universidad Católica de Chile, iGEM 2012