Team:INSA-Lyon/Parts

From 2014.igem.org

(Difference between revisions)

Revision as of 18:33, 16 October 2014

Curly'on - IGEM 2014 INSA-LYON

PARTS

5 biobricks have been constructed, three for Nickel chelation, three for promoter characterization.

Biobricks for nickel chelation

The principal of the construction is shown in the figure below.

On a pSB1C3 backbone, two essential part have been assembled: a promoter and a reporter coding for CsgA.The promoter in this case is always the same: P70.However, the reporter is different for each construction.

The first CsgA is called CsgA WT, the sequence is exactly the same as we found in a wild type CsgA protein except one mutation in order to eliminate one restriction site. The construction is also called CsgA.

The second CsgA is based on the same sequence but with a short sequence coding for a his tag(a peptide chain coding six histidines). This construction is called His1.

The last CsgA is almost the same but with 2 his tag. This construction is called His2.

5 biobricks have been constructed, three for Nickel chelation, three for promoter characterization.

Biobrick for promoter characterization

The principal of the construction is shown in the figure below.

On a pKK backbone, two essential parts have been assembled: a promoter and a reporter. The reporter in this case is always the same: gfp. However, the promoter is different for each construction.

The first promoter is P70, sequence found in the Resgistry. This construction is called p70::gfp

The second promoter is PCurli, obtained from a PCR, sequence coding for the inter-genic regulation for curli production. This construction is called pcurli::gfp.

@@ Line 26: / Line 26: @@
-<li><div align="center">
+<li><div align="justified">
-<p>5 biobricks have been constructed, three for Nickel chelation, three for promoter characterization.</p></br></br></br>
+<p>5 biobricks have been constructed, three for Nickel chelation, three for promoter characterization.</p></br></br></br><div>
 <b>Biobricks for nickel chelation</b></br></br>
 <p>The principal of the construction is shown in the figure below.</p></br></br></br>
+<li><div align="center">
 <img src= "https://static.igem.org/mediawiki/parts/6/63/1.JPG"></br>
-<li><div align="center">
+<li><div align="justified">
-<p>On a pSB1C3 backbone, two essential part have been assembled: a promoter and a rapporter coding for CsgA.The promoter in this case is always the same: P70.However, the rapporter is different for each construction.
+<p>On a pSB1C3 backbone, two essential part have been assembled: a promoter and a reporter coding for CsgA.The promoter in this case is always the same: P70.However, the reporter is different for each construction.<div>
-<li><div align="center">
+<li><div align="justified">
-<p>The first CsgA is called CsgA WT, the sequence is exactly the same as we found in a wild type CsgA protein except one mutation in order to eliminate one restriction site. The construction is also called CsgA.</p></br></br></br>
+<p>The first CsgA is called CsgA WT, the sequence is exactly the same as we found in a wild type CsgA protein except one mutation in order to eliminate one restriction site. The construction is also called CsgA.</p></br></br></br><div>
-<li><div align="center">
+<li><div align="justified">
-<p>The second CsgA is based on the same sequence but with a short sequence coding for a his tag(a peptide chain coding six histidines). This construction is called His1.</p></br></br></br>
+<p>The second CsgA is based on the same sequence but with a short sequence coding for a his tag(a peptide chain coding six histidines). This construction is called His1.</p></br></br></br><div>
-<li><div align="center">
+<li><div align="justified">
-<p>The last CsgA is almost the same but with 2 his tag. This construction is called His2.</p></br></br></br>
+<p>The last CsgA is almost the same but with 2 his tag. This construction is called His2.</p></br></br></br><div>
-<li><div align="center">
+<li><div align="justified">
-<p>5 biobricks have been constructed, three for Nickel chelation, three for promoter characterization.</p></br></br></br>
+<p>5 biobricks have been constructed, three for Nickel chelation, three for promoter characterization.</p></br></br></br><div>
 <b>Biobrick for promoter characterization</b></br></br>
 <p>The principal of the construction is shown in the figure below.</p></br></br></br>
+<li><div align="center">
 <img src= "https://static.igem.org/mediawiki/parts/f/fb/2.png"></br>
-<li><div align="center">
+<li><div align="justified">
 <p>On a pKK backbone, two essential parts have been assembled: a promoter and a reporter.
-The reporter in this case is always the same: gfp. However, the promoter is different for each construction.
+The reporter in this case is always the same: gfp. However, the promoter is different for each construction.<div>
-<li><div align="center">
+<li><div align="justified">
-<p>The first promoter is P70, sequence found in the Resgistry. This construction is called p70::gfp</p></br></br></br>
+<p>The first promoter is P70, sequence found in the Resgistry. This construction is called p70::gfp</p></br></br></br><div>
-<li><div align="center">
+<li><div align="justified">
-<p>The second promoter is PCurli, obtained from a PCR, sequence coding for the inter-genic regulation for curli production. This construction is called pcurli::gfp.</p></br></br></br>
+<p>The second promoter is PCurli, obtained from a PCR, sequence coding for the inter-genic regulation for curli production. This construction is called pcurli::gfp.</p></br></br></br><div>
 </div></li>