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| - | <b>MaGellin Workflow.</b> The workflow for screening new fusion proteins with the one plasmid MaGellin bacterial system is as follows:<br><ol>
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| - | <b>Assemble</b> the MaGellin backbone together with a DNA-binding protein and target sequence of your choosing.<ol>
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| - | <li>Digest BBa_K1128001 (the MaGellin backbone) and BBa_K1128002 (the linker-M.ssI construct) with EcoRI and PstI.</li>
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| - | <li>Ligate K1128002 into the K1128001 backbone. </li>
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| - | <li>PCR amplify your DNA-binding protein of choice. In order to keep everything in frame, use the following 5’ extensions on the PCR primers:<ol>
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| - | <li type="disc"> Forward: CAGGAGGAATTC[ATG] (add start codon only if not included in gene).</li>
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| - | <li type="disc"> Reverse: CTCTAGAAGCGGC (make sure to remove the stop codon). </li> </ol>
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| - | <li> Use EcoRI and XbaI to ligate the DNA-binding protein into the MaGellin backbone, fusing it in frame to the linker-M.sssI construct.</li>
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| - | <li> Clone in your target sequence using BamHI and XhoI.</li> </ol>
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| - | <b>Methylate</b> the MaGellin plasmid <i>in vivo</i>.<ol>
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| - | <li>Transform the completed MaGellin plasmid into T7 Express. </li>
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| - | <li>Induce culture with 1 mM IPTG.</li>
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| - | <li>Incubate in a shaker at 37C for 5 hours.</li>
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| - | <li>Miniprep to isolate the plasmid.</li></ol>
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| - | <b>Digest</b> the methylated plasmid.<ol>
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| - | <li> Digest 600 ng of miniprep DNA in a 15 uL reaction with 10 U of both XbaI and AvaI.</li>
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| - | <li> Incubate reaction for 1 hour at 37C.</li></ol>
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| - | <b>Analyze</b> the data using the MaGellin Software Package.<ol>
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| - | <li>Run the entire digestion reaction on a 1% agarose gel.</li>
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| - | <li>Take a photo of the gel.</li>
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| - | <li>Upload and analyze the gel photo using the MaGellin Software Package. </li><ol>
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| - | <li type="disc">Look for 3 distinct band patterns that correspond to specific and interpretable methylation outcomes.</li><ol>
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| - | <li>The presence of large one band corresponds to non-site-specific DNA methylation (AvaI was blocked at both the target and off target sites, and thus only XbaI cut the plasmid)</li>
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| - | <li>The presence of two bands corresponds to site-specific DNA methylation (AvaI was only blocked at the target site, thus AvaI cut in the off target site and XbaI cut the plasmid)</li>
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| - | <li>The presence of three bands corresponds to no DNA methylation – or an inactive fusion protein (AvaI was not blocked at either the target or off target sites and XbaI cut the plasmid) </li></ol>
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| - | <header><h1><b><center>Assay Validation</center></b></h1></header>
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| - | For a detailed, graphical explanation of the MaGellin work flow, please download the <a href="https://dl.dropboxusercontent.com/u/11828463/MaGellin%20Spec%20Sheet.pdf">MaGellin Workflow Specifications Sheet</a>, which includes all of the steps in the MaGellin workflow.
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| - | <b>Our Team’s Solution.</b> In order to address the challenges associated with developing new site-specific methylase proteins, our team proposed several different strategies. First, we proposed a migration away from mammalian systems and into E. coli. E. coli does not have a native cytosine methyltransferase, and therefore offers a noise-free environment for methylation studies. Any methylation of CpG sites in E Coli would be a product of a candidate engineered protein rather than the native organism. Second, we envisioned a modular one-plasmid system that can be employed for quickly and cheaply screening the activity and specificity of any DNA binding domain – methyltransferase fusion protein. This plasmid-based methylation assay is called MaGellin.
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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/2013/9/9d/Plasmid-Schematic-Updated.png" alt="MaGellin" width="700" height="395"><figcaption><i>MaGellin Plasmid Schematic</i></figcaption></figure></div>
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| - | <b>Plasmid Features.</b> To accommodate the MaGellin assay, our team designed a plasmid with several key features:
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| - | <li>CpG Methyltransferase (M.SssI) with a generic linker sequence in the cloning site. For a working fusion protein and assay, only a DNA binding domain must be cloned into the plasmid. This inherently standardizes MaGellin and lessens the time a user of the assay must spend cloning.</li>
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| - | <li>Multiple cloning site downstream of T7 promoter for orthogonal expression of fusion protein in T7 Express competent E. coli.</li>
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| - | <li>Cloning site for a smaller DNA sequence, specific to the fusion protein being screened – named the “target site”, where the protein will bind. This can be the binding site for a CRISPR-Cas, TALE, Zinc Finger, or transcription factor</li>
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| - | <li>AvaI restriction site 4 bases downstream of the target site – the AvaI restriction enzyme is blocked by methylated CpG sites, thus screening for site specific methylation becomes equivalent to screening for AvaI digestion</li>
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| - | <li>AvaI restriction site sufficiently further downstream of the target site – named the off-target site. This site screens for non-specific DNA methylation as it is spatially removed from where the fusion protein binds to the plasmid.</li>
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| - | <li>XbaI site for linearization of the plasmid. Linearizing the plasmid simplifies analysis of the AvaI digestion by gel electrophoresis.</li>
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| - | <li>Validated bisulfite conversion primer binding sites, so users do not need to go through the time-consuming primer design process if they choose to fortify MaGellin’s results with bisulfite sequencing results</li>
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| - | <li>sgRNA cloning site for users who want to target a CRISPR-Cas binding domain. The sgRNA is constitutively expressed and can be swapped by restriction digest.</li>
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| - | <li>Validated bisulfite conversion primers for users who choose to advance to bisulfite sequencing, for even higher resolution in detecting methylation, after proving their enzyme’s efficacy with our MaGellin assay.</li>
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| - | <li>Kanamycin resistance as a selection marker</li>
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