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Team:Lyon-INSA-ENS/Project/Ethics
From 2011.igem.org
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<p style="line-height:1.5em; margin-right : 5%"> | <p style="line-height:1.5em; margin-right : 5%"> | ||
| - | + | To achieve the first option consisting in the creation of a single independent curli | |
| - | + | operon, we tried two methods in parallel: a completely synthetic approach, and a | |
| - | + | classic method involving mutagenesis to get rid of three disturbing restriction sites, | |
| - | involving PCR steps followed by ligations. <br/> | + | and PCR steps followed by ligations.<br/> |
</p> | </p> | ||
<ul style="list-style-type:circle;margin-left:30%;"> | <ul style="list-style-type:circle;margin-left:30%;"> | ||
| - | <li style="line-height : 1.5em; margin-right : 5%"> <b>The first approach</b> consist in ordering the whole part at a private company (Genecust) | + | <li style="line-height : 1.5em; margin-right : 5%"> <b>The first approach</b> consist to carefully design the part from in silico data, and ordering the whole part at a private company (Genecust).</li> |
<br/> | <br/> | ||
<li style="line-height : 1.5em; margin-right : 5%"> <b>The second approach</b> was to made it directly at the bench, this approach included three | <li style="line-height : 1.5em; margin-right : 5%"> <b>The second approach</b> was to made it directly at the bench, this approach included three | ||
| - | steps: first the amplification by PCR of each of the sub parts, second a mutagenesis | + | steps: first the amplification by PCR of each of the sub parts, second a mutagenesis step |
| - | step to remove all the natural internal EcoRI sites located in the sub parts, and finally | + | to remove all the natural internal EcoRI or PstI sites located in the sub parts, and finally |
the ligation of these parts.</li> | the ligation of these parts.</li> | ||
<br/> | <br/> | ||
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<p style="line-height:1.5em; margin-right : 5%"> | <p style="line-height:1.5em; margin-right : 5%"> | ||
| - | Both approches were initiated at the same time, and if the second one allowed us to obtain | + | Both approches were initiated at the same time, and if the |
| - | PCR amplifications of the correct size and a complete | + | second one allowed us to obtain PCR amplifications of the correct size and a complete |
| - | construction, unfortunately sequencing analysis revealed unexpected mutations that were not | + | <i>Prcn-csgBAEFG</i> construction, unfortunately sequencing analysis revealed unexpected |
| - | removed before reception of the whole part made by Genecust. <b> | + | mutations that were not removed before reception of the whole part made by Genecust.</b> |
| - | strategy wins the race !</b> | + | </p> |
| + | <p style="line-height:1.5em; margin-right : 5%"> | ||
| + | <b>The "Design, click and order" strategy wins the race !</b> | ||
</p> | </p> | ||
| - | + | <p style="line-height:1.5em; margin-right : 5%"> | |
| - | + | <b>In the second option</b>, we used two available biobricks to activate the curli pathway via | |
| + | the top of the regulatory cascade: cloning of the superactivator ompR234 gene under | ||
| + | control of the constitutive promoter BBa_J23119 should allow to activate the main curli | ||
| + | activator CsgD (see diagram). | ||
| + | </p> | ||
</div> | </div> | ||
Revision as of 11:59, 21 September 2011
A race between two strategies to obtain the Prcn-csgBAEFG
In E. coli the curli-producing system is organized in two divergent operons with the
structural genes csgA, csgB and csgC on one side and csgD (regulation), csgE, csgF and
csgG (secretion) on the other one. The sought-after property, adherence via curli, can
be boosted by two different way: creating an independent curli synthesis pathway (first
option), or activating the existent cryptic curli synthetis pathway which can be found in
most laboratory E. coli strains (second option).
To achieve the first option consisting in the creation of a single independent curli
operon, we tried two methods in parallel: a completely synthetic approach, and a
classic method involving mutagenesis to get rid of three disturbing restriction sites,
and PCR steps followed by ligations.
- The first approach consist to carefully design the part from in silico data, and ordering the whole part at a private company (Genecust).
- The second approach was to made it directly at the bench, this approach included three steps: first the amplification by PCR of each of the sub parts, second a mutagenesis step to remove all the natural internal EcoRI or PstI sites located in the sub parts, and finally the ligation of these parts.
Both approches were initiated at the same time, and if the second one allowed us to obtain PCR amplifications of the correct size and a complete Prcn-csgBAEFG construction, unfortunately sequencing analysis revealed unexpected mutations that were not removed before reception of the whole part made by Genecust.
The "Design, click and order" strategy wins the race !
In the second option, we used two available biobricks to activate the curli pathway via the top of the regulatory cascade: cloning of the superactivator ompR234 gene under control of the constitutive promoter BBa_J23119 should allow to activate the main curli activator CsgD (see diagram).
