<center><b>COBRA confirms on and off target methylation</center></b>
<center><b>COBRA confirms on and off target methylation</center></b>
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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/thumb/9/95/FinalCOBRATaleInd.png/514px-FinalCOBRATaleInd.png" alt="Workflow" width="600" ><figcaption><i>Figure 3: COBRA on induced TALE-M.SssI. The plasmid was bisulfite treated and the target and off target sites were amplified with our standard bisulfite sequencing primers. The amplicons were digested with TaqαI, which only cuts methylated sites, and BamHI, which only cuts untreated DNA.</i></figcaption></figure></div>
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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/thumb/9/95/FinalCOBRATaleInd.png/514px-FinalCOBRATaleInd.png" alt="Workflow" ><figcaption><i>Figure 3: COBRA on induced TALE-M.SssI. The plasmid was bisulfite treated and the target and off target sites were amplified with our standard bisulfite sequencing primers. The amplicons were digested with TaqαI, which only cuts methylated sites, and BamHI, which only cuts untreated DNA.</i></figcaption></figure></div>
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Revision as of 11:47, 27 October 2013
Penn iGEM
Methylase Characterization
Zinc Finger-M.SssI Fusion. The zinc finger is a small DNA binding domain, with limited sequence specificity. Previous studies showed it was prone to off-target methylation, which we verified. This was also validation that the MaGellin assay accurately reports the site-specificity of methylation, effectively demonstrating our assay does everything we need it to do.
SHOW ZINC FINGER DATA
Figure 1: The ZF-M.SssI was cloned into MaGellin with and without its binding site present. We ran the standard MaGellin assay on both plasmids, using methylation sensitive restriction enzymes to report the methylase activity.
To be sure of the targeting specificity, we cloned the MaGellin plasmid with and without the zinc finger’s binding site present at the target cut site. This demonstrated how the presence of a zinc finger binding site shifts the methylation pattern (Figure 1).
TALE-M.SssI Fusion. TALEs have a greater sequence specificity than zinc fingers, and are easier to customize and less expensive to construct. They have already been validated for use in genome engineering and are quickly replacing zinc fingers. We performed a similar experiment with our TALE-M.SssI fusion, with and without the binding site present at the target cut site. We ran the gel and saw a significant effect on the methylation pattern but it was not in agreement with our software’s predicted experimental outcome.
TALE-M.SssI actively methylates DNA
Our TALE-M.SssI was actively methylating DNA at both the target site and off-target site. We expected a certain degree of off target methylation simply because the TALEs could occupy all the target sites on our low copy plasmid; the molar ratio is one of the problems in developing site-specific methylases that the inducible MaGellin system is designed to address. However, it was unexpected to see methylation skewed in favor of the off target site so we carried out more characterization experiments.
COBRA confirms on and off target methylation
We bisulfite converted the plasmid and used our validated bisulfite sequencing primers (LINK) on both the target and off target site, then used the COBRA assay (SEE DESCRIPTION HERE). The controls recapitulated that our primers are biased for only bisulfite converted DNA, as desired. Unconverted DNA would have been digested by the control enzyme. TaqαI digested both the on and off target sites, confirming that the TALE was partially methylating both sites (Figure 3). This validated our assay further, as it reports the same biological outcome as the published COBRA method, but at a fraction of the cost, time, and technical difficulty.