Team:Penn/AssayValidation

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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/2013/5/58/Methylation_timecourse.png" alt="Timecourse" height="395"><figcaption><i>Figure 3: Plasmid DNA treated in vitro with purified M.SssI. Each lane was treated for a different amount of time, this figure shows that MaGellin, alongside our software package, can report relative differences in the level of methylation.</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/2013/5/58/Methylation_timecourse.png" alt="Timecourse" height="395"><figcaption><i>Figure 3: Plasmid DNA treated in vitro with purified M.SssI. Each lane was treated for a different amount of time, this figure shows that MaGellin, alongside our <a href = "https://2013.igem.org/Team:Penn/Software">software package</a>, can report relative differences in the level of methylation.</i></figcaption></figure></div>
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Latest revision as of 02:53, 29 October 2013

Penn iGEM

Assay Validation




For a detailed, graphical explanation of the MaGellin work flow, please download the MaGellin Workflow Specifications Sheet, which includes all of the steps in the MaGellin workflow.

We have designed standardized bisulfite sequencing primers.

Bisulfite sequencing is a good next step after restriction digest to further characterize functional site-specific methylases, but it is inherently very difficult to design good primers. People use advanced algorithms for primer design that are still not guaranteed to successfully sequence some sequences. We went through 8 sets of primers, most of which did not show the proper bias to amplify only bisulfite converted DNA. Primer Set 2 was successful and is included with our MaGellin plasmid, much like VF and VR are included as standardized biobrick sequencing primers (Figure 1).



Workflow
Figure 1: Validating standardized bisulfite sequencing primers. Primer Set 2 successfully amplifies bisulfite converted DNA but not unconverted DNA, as desired.


MaGellin effectively detects methylation in vitro.

First, we tested MaGellin with a purified methylase in vitro. The results made it clear that MaGellin can detect methylation at both the “target” and “off-target” site (Figure 2). MaGellin is also sensitive to various degrees of methylation (Figure 3). These experiments helped us optimize the ideal amount of plasmid and restriction enzyme to use in any study moving forward.


InVitro
Figure 2: Plasmid DNA treated in vitro with purified M.SssI. The first three lanes were not treated and show zero methylation detection by our assay. The last three lanes were methylated and show 100% methylation. This figure validates that MaGellin is capable of clear input/output.



Timecourse
Figure 3: Plasmid DNA treated in vitro with purified M.SssI. Each lane was treated for a different amount of time, this figure shows that MaGellin, alongside our software package, can report relative differences in the level of methylation.



MaGellin detects methylation in vivo.

We expressed M.SssI in vivo and compared it with purified M.SssI used on the plasmid in vitro. In both cases, we saw similar full methylation of the plasmid, confirming that MaGellin can express methylases and report their activity in vivo (Figure 4).


InVivo
Figure 4: M.SssI expressed in vivo compared with in vitro methylation.



Summary

    We have created MaGellin, a new technology that facilitates screening novel DNA binding domain – methylase fusion proteins
  1. Our assay is less expensive and faster than existing methods
  2. We have eliminated noise associated with previous studies
  3. We have a system with clear input/output
  4. Our assay lends itself to high throughput screening of many different proteins
  5. We are releasing it alongside an open source data analysis software package which streamlines the entire screening process


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