Team:Penn/MaGellinToolbox

From 2013.igem.org

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<li>Open Source – we BioBrick’ed the full plasmid and the methylases</li>
<li>Open Source – we BioBrick’ed the full plasmid and the methylases</li>
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<div style="margin-left:auto;margin-right:auto;text-align:center"><figure><img border="0" src="https://static.igem.org/mediawiki/2013/4/4b/Penn_Toolbox.png" alt="Toolbox" width="700" height="395"><figcaption><i>Toolbox with the three essential components.</i></figcaption></figure></div>
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Revision as of 08:58, 27 October 2013

Penn iGEM

Toolbox




Constructing a ToolboxOur goal was to create a toolbox for developing customized site-specific methylases. Like any good toolbox, it includes three components: the tool, the assay, and the automation.
  1. The Tool: a fusion between a DNA binding domain and a methylase enzyme
  2. The Assay: a digestion based assay, called MaGellin, to measure both methylase activity and sequence specificity
  3. The Automation: a unique software package that predicts experimental outcomes and analyzes gel electrophoresis images to measure methylase functionality
Our toolbox satisfies 6 requirements:
  1. Robust – includes functional fusion proteins for comparison
  2. Standardized – all inclusive in one-plasmid with simple multiple cloning sites, standard bisulfite sequencing primers, and a digestion based methylation assay built in
  3. Easy to Use – we programmed a software package to predict experimental outcomes and automate gel electrophoresis analysis
  4. Inexpensive – methylase activity and specificity can be screened by simply digesting and running a gel
  5. Noiseless – the bacterial chassis has no background CpG methylation
  6. Open Source – we BioBrick’ed the full plasmid and the methylases


Toolbox
Toolbox with the three essential components.