Team:Penn/MethylaseOverview

From 2013.igem.org

(Difference between revisions)
Line 29: Line 29:
</br>
</br>
</br>
</br>
-
Now that the MaGellin assay was validated for non-specific methylases, we were ready to test site-specific methylases. These are fusion proteins, a DNA binding domain linked to a methylase by a serine glycine chain. We used the prokaryotic methylase M.SssI for all of our studies (BBa_K1128000).  
+
Now that the MaGellin assay was validated for non-specific methylases, we were ready to test site-specific methylases. Our MaGellin assay is ideal for high-throughput construction and testing of these enzymes. Site-specific methylases are fusion proteins, a DNA binding domain linked to a methylase by a serine glycine chain. They can direct DNA methylation to specific sequences, likely promoter regions for use as a transcriptional silencer. We used the prokaryotic methylase M.SssI for all of our studies (BBa_K1128000).  
<p>We wanted to first recapitulate published results with a zinc finger binding domain, and then characterize our two novel site-specific methylases: using the TALE and CRISPR/Cas binding domains.
<p>We wanted to first recapitulate published results with a zinc finger binding domain, and then characterize our two novel site-specific methylases: using the TALE and CRISPR/Cas binding domains.
</br></br></br>
</br></br></br>

Revision as of 06:11, 28 October 2013

Penn iGEM

Site-Specific Methylases



Now that the MaGellin assay was validated for non-specific methylases, we were ready to test site-specific methylases. Our MaGellin assay is ideal for high-throughput construction and testing of these enzymes. Site-specific methylases are fusion proteins, a DNA binding domain linked to a methylase by a serine glycine chain. They can direct DNA methylation to specific sequences, likely promoter regions for use as a transcriptional silencer. We used the prokaryotic methylase M.SssI for all of our studies (BBa_K1128000).

We wanted to first recapitulate published results with a zinc finger binding domain, and then characterize our two novel site-specific methylases: using the TALE and CRISPR/Cas binding domains.


INSERT TABLE COMPARISON HERE


Retrieved from "http://2013.igem.org/Team:Penn/MethylaseOverview"