Team:TU-Eindhoven/Protocols

From 2012.igem.org

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<h3>BioBrick<sup>TM</sup> construction</h3>
<h3>BioBrick<sup>TM</sup> construction</h3>
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<p>Many protcols for assembling BioBricks<sup>TM</sup> are already available, like Standard Assembly and 3A-assembly. These are suited for the assembly of standardized bricks, however, we created our BioBricks<sup>TM</sup> out of non-standard material and when working with yeast we used non-standard vectors to carry the protein coding sequences. In other words, most of our cloning steps had to be done the old-fashioned way and consequently the yields were lower than with standard assembly. The solution was to use more DNA and longer incubation for digestion. This guaranteed a proper yield at the end of the process. The detail can be found in our [[File:BioBrick_construction|high-efficiency BioBrick<sup>TM</sup> assembly protocol]]. This includes digestion, ligation and transformation.</p>
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<p>Many protcols for assembling BioBricks<sup>TM</sup> are already available, like Standard Assembly and 3A-assembly. These are suited for the assembly of standardized bricks, however, we created our BioBricks<sup>TM</sup> out of non-standard material and when working with yeast we used non-standard vectors to carry the protein coding sequences. In other words, most of our cloning steps had to be done the old-fashioned way and consequently the yields were lower than with standard assembly. The solution was to use more DNA and longer incubation for digestion. This guaranteed a proper yield at the end of the process. The detail can be found in our <html><a href="https://static.igem.org/mediawiki/2012/d/dd/BioBrickprotocol.pdf">high-efficiency BioBrick<sup>TM</sup> assembly protocol</a></html>. This includes digestion, ligation and transformation.</p>

Revision as of 18:22, 26 September 2012