Team:UPO-Sevilla/Project/Epigenetic Flip Flop/Designing

From 2011.igem.org

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  <img width="550px" src="https://static.igem.org/mediawiki/2011/b/bc/UPOSevilla_tetRtable.TIF" alt="tetR table" />
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<p class="center"><strong>[Table 1].</strong> Relevant information of TetR protein from Uniprot protein database entry <a href="http://www.uniprot.org/uniprot/D8E9H0" target="_blank" title="D8E9H0">D8E9H0</a> and TetR Pfam database.</p>
<p class="center"><strong>[Table 1].</strong> Relevant information of TetR protein from Uniprot protein database entry <a href="http://www.uniprot.org/uniprot/D8E9H0" target="_blank" title="D8E9H0">D8E9H0</a> and TetR Pfam database.</p>
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  <img width="500px" src="https://static.igem.org/mediawiki/2011/9/92/UPOSevilla-tetR_model.TIF" alt="tetR model" />
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  <img width="500px" src="https://static.igem.org/mediawiki/2011/9/92/UPOSevilla-tetR_model.TIF">
<p class="center"><strong>[Figure 3].</strong> TetR structure predicted by <a href="http://swissmodel.expasy.org/Swiss-Model " target="_blank" title="Swiss-Model "> Swiss-Model </a>homology modelling server. Pfam domain annotation performed by using the <a href="http://jmol.sourceforge.net/" target="_blank" title="Jmol">Jmol</a> viewer.</p>
<p class="center"><strong>[Figure 3].</strong> TetR structure predicted by <a href="http://swissmodel.expasy.org/Swiss-Model " target="_blank" title="Swiss-Model "> Swiss-Model </a>homology modelling server. Pfam domain annotation performed by using the <a href="http://jmol.sourceforge.net/" target="_blank" title="Jmol">Jmol</a> viewer.</p>
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  <img width="550px" src="https://static.igem.org/mediawiki/2011/0/09/UPOSevilla_Swi6table.TIF" alt="Swi6 table" />
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  <img width="550px" src="https://static.igem.org/mediawiki/2011/0/09/UPOSevilla_Swi6table.TIF">
<p class="center"><strong>[Table 2].</strong> Relevant information of Swi6 protein from Uniprot protein database entry <a href="http://www.uniprot.org/uniprot/P40381" target="_blank" title="P40381">P40381</a> and Swi6 Pfam database entry <a href="http://pfam.sanger.ac.uk/protein/P40381" target="_blank" title="Swi6 Pfam">Swi6 Pfam</a>.</p>
<p class="center"><strong>[Table 2].</strong> Relevant information of Swi6 protein from Uniprot protein database entry <a href="http://www.uniprot.org/uniprot/P40381" target="_blank" title="P40381">P40381</a> and Swi6 Pfam database entry <a href="http://pfam.sanger.ac.uk/protein/P40381" target="_blank" title="Swi6 Pfam">Swi6 Pfam</a>.</p>
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  <img width="500px" src="https://static.igem.org/mediawiki/2011/9/9b/UPOSevilla_CSDmodel.TIF" alt="Swi6 CSD model" />
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  <img width="500px" src="https://static.igem.org/mediawiki/2011/9/9b/UPOSevilla_CSDmodel.TIF">
<p class="center"><strong>[Figure 4].</strong> Swi6 CSD domain structure. <a href="http://www.rcsb.org/pdb/home/home.do" target="_blank" title="Protein Data Bank (PDB)">Protein Data Bank (PDB)</a> entry <a href="http://www.ebi.ac.uk/pdbe-srv/view/entry/1e0b/summary.html" target="_blank" title="1e0b">1e0b</a>.</p>
<p class="center"><strong>[Figure 4].</strong> Swi6 CSD domain structure. <a href="http://www.rcsb.org/pdb/home/home.do" target="_blank" title="Protein Data Bank (PDB)">Protein Data Bank (PDB)</a> entry <a href="http://www.ebi.ac.uk/pdbe-srv/view/entry/1e0b/summary.html" target="_blank" title="1e0b">1e0b</a>.</p>
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  <img width="550px" src="https://static.igem.org/mediawiki/2011/9/9c/UPOSevilla_Sir3table.TIF" alt="Sir3 table" />
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  <img width="550px" src="https://static.igem.org/mediawiki/2011/9/9c/UPOSevilla_Sir3table.TIF">
<p class="center"><strong>[Table 3].</strong> Relevant information of Sir3 protein from Uniprot protein database entry <a href="http://www.uniprot.org/uniprot/P06701" target="_blank" title="P0670">P0670</a> and Sir3 Pfam database entry <a href="http://pfam.sanger.ac.uk/protein/P06701" target="_blank" title="Sir3 Pfam">Sir3 Pfam</a>.</p>
<p class="center"><strong>[Table 3].</strong> Relevant information of Sir3 protein from Uniprot protein database entry <a href="http://www.uniprot.org/uniprot/P06701" target="_blank" title="P0670">P0670</a> and Sir3 Pfam database entry <a href="http://pfam.sanger.ac.uk/protein/P06701" target="_blank" title="Sir3 Pfam">Sir3 Pfam</a>.</p>
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  <img width="500px" src="https://static.igem.org/mediawiki/2011/c/c5/UPOSevilla_Sir3.TIF" alt="Sir3 BAH model" />
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  <img width="500px" src="https://static.igem.org/mediawiki/2011/c/c5/UPOSevilla_Sir3.TIF">
<p class="center"><strong>[Figure 5].</strong> Sir3 BAM domain structure predicted by Swiss-Model homology modelling server.</p>
<p class="center"><strong>[Figure 5].</strong> Sir3 BAM domain structure predicted by Swiss-Model homology modelling server.</p>
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Revision as of 21:46, 20 September 2011

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Designing

The epigenetic biestable has two main modules, based on Bahler's modules (Bähler et al, 1998; Watt et al, 2008):


Reporter module

Reporter Module contains a GFP inducible expression system, flanked by tet operator sequences. This module will be integrated and expressed from various regions of the S. pombe genome with different heterochromatin contexts, to test it effect on silencing. We expect that once the protein Sir3, Swi6 or CSD binds the targeting tetR operator sequences they will induce the compaction of the promoter, or at least, prevent its leaky activation, because of the spreading of the engineered silencing proteins and it cooperativity. Additionally, there have been introduce two boundaries or chromatin insulators each site of our system. They are transcriptional terminator that act as neutral transcriptionally elements that prevent negative or positive influence from extending across chromatin to a promoter (Fourel et al, 2001; Bushey et al, 2008).

Reporter Module

[Figure 1]. Reporter module:. Kan-MX6 (selectable cassette for integration in leu1), Adh1 terminator (upstream insulator ), tetO2 (upstream operator sites), urg1 promoter, GFP marker gene, Adh1 terminator, tetO4 (downstream operator sites), Act1 terminator (downstream insulator).


Compaction module

It is composed by nmt1 (no message in thiamine) repressible promoter, three alternative proteins (Sir3p, Swi6 and the Chromo-Shadow Domain of Swi6 “CSD” (Cowieson et al, 2000; Haldar et al, 2011), fused to the Tetracycline Repressor protein (tetR), and nmt Terminator. These modules will be expressed from a plasmid containing an independent inducible promoter, pREP41X (Forsburg, 1993; Moreno et al, 2000). These fusion proteins or kymeras will bind to specific tetR operator sequences placed upstream of an inducible promoter and downstream of the marker GFP gene, controlled by that promoter.

Compaction Modules

[Figure 2]. Alternative compaction modules, composed by Pnmt1 promoter, engineered silencing proteins (tetR+Swi6/CSD/Sir3) and nmt1 terminator. Swi6 belongs to S. pombe and Sir3 belongs to Saccharomyces cerevisiae.


Bioinformatics notes: Key proteins


1.TetR (Uniprot: D8E9H0)

[Table 1]. Relevant information of TetR protein from Uniprot protein database entry D8E9H0 and TetR Pfam database.


[Figure 3]. TetR structure predicted by Swiss-Model homology modelling server. Pfam domain annotation performed by using the Jmol viewer.


2.Swi6 (Uniprot: P40381)

[Table 2]. Relevant information of Swi6 protein from Uniprot protein database entry P40381 and Swi6 Pfam database entry Swi6 Pfam.


[Figure 4]. Swi6 CSD domain structure. Protein Data Bank (PDB) entry 1e0b.


3.Sir3 (Uniprot: P0670)

[Table 3]. Relevant information of Sir3 protein from Uniprot protein database entry P0670 and Sir3 Pfam database entry Sir3 Pfam.


[Figure 5]. Sir3 BAM domain structure predicted by Swiss-Model homology modelling server.