Difference between revisions of "Team:Austin UTexas/Improve"
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<p style="font-family: verdana">Chromoproteins are known to be unstable, meaning that they create a high metabolic burden on the cell that they are in. In order to combat this metabolic burden, a technique called codon optimization was used. Codon optimization involves exchanging certain codons for ones that have known to be more translationally efficient in a certain species while retaining the same sequence of amino acids. Making translation more efficient, in turn, lowers the metabolic burden on the E.coli that the gene is present in. Therefore codon optimization greatly improves the function of the original blue chromoprotein (<a href="http://parts.igem.org/Part:BBa_K592009">BBa_K592009</a></b>). | <p style="font-family: verdana">Chromoproteins are known to be unstable, meaning that they create a high metabolic burden on the cell that they are in. In order to combat this metabolic burden, a technique called codon optimization was used. Codon optimization involves exchanging certain codons for ones that have known to be more translationally efficient in a certain species while retaining the same sequence of amino acids. Making translation more efficient, in turn, lowers the metabolic burden on the E.coli that the gene is present in. Therefore codon optimization greatly improves the function of the original blue chromoprotein (<a href="http://parts.igem.org/Part:BBa_K592009">BBa_K592009</a></b>). | ||
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<h4 style="font-family: verdana">Experimental Methods</h4> | <h4 style="font-family: verdana">Experimental Methods</h4> | ||
| − | The codon optimized sequence has been transformed into a plasmid with the pSB1C3 backbone (with the K608002 promoter and RBS sequence) and | + | <p style="font-family: verdana">The codon optimized sequence has been transformed into a plasmid with the pSB1C3 backbone (with the K608002 promoter and RBS sequence) via electroporation. Figures 1 and 2 show the transformation plate with the phenotypically blue colony expected and the overnight culture inoculated from that same colony, respectively. The codon optimized sequenced has been sequence verified to be the correct nucleotide sequence, as it contains minimal point mutations. |
<h4 style="font-family: verdana">Improvements</h4> | <h4 style="font-family: verdana">Improvements</h4> | ||
| − | + | <p style="font-family: verdana">Apart from having much less mutations within the sequence, another improvement of this part is that the miniprepped sequence now has the promoter and RBS sequence attached to it, which can be taken and transformed immediately instead of having to go restart the process of digestion and ligation in order to add different parts to it.</p> | |
<p style="font-family: verdana">The codon optimized blue chromoprotein basic part can be found on the iGEM registry as: <a href="http://parts.igem.org/Part:BBa_K2253002">BBa_K2253002</a></b>. | <p style="font-family: verdana">The codon optimized blue chromoprotein basic part can be found on the iGEM registry as: <a href="http://parts.igem.org/Part:BBa_K2253002">BBa_K2253002</a></b>. | ||
</p> | </p> | ||
Revision as of 03:51, 1 November 2017
Austin_UTexas
The Improved Blue Chromoprotein
Chromoproteins are known to be unstable, meaning that they create a high metabolic burden on the cell that they are in. In order to combat this metabolic burden, a technique called codon optimization was used. Codon optimization involves exchanging certain codons for ones that have known to be more translationally efficient in a certain species while retaining the same sequence of amino acids. Making translation more efficient, in turn, lowers the metabolic burden on the E.coli that the gene is present in. Therefore codon optimization greatly improves the function of the original blue chromoprotein (BBa_K592009).
Experimental Methods
The codon optimized sequence has been transformed into a plasmid with the pSB1C3 backbone (with the K608002 promoter and RBS sequence) via electroporation. Figures 1 and 2 show the transformation plate with the phenotypically blue colony expected and the overnight culture inoculated from that same colony, respectively. The codon optimized sequenced has been sequence verified to be the correct nucleotide sequence, as it contains minimal point mutations.
Improvements
Apart from having much less mutations within the sequence, another improvement of this part is that the miniprepped sequence now has the promoter and RBS sequence attached to it, which can be taken and transformed immediately instead of having to go restart the process of digestion and ligation in order to add different parts to it.
The codon optimized blue chromoprotein basic part can be found on the iGEM registry as: BBa_K2253002.
