Team:INSA-Lyon/Results
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- | <div><p align="justify"> | + | <div><p align="justify"><br/>Five complementary tests were performed to evaluate the ability of the modified cells to assemble functional curli: 1) determination of the percentage of adherent cells to polystyrene in 24 wells-plates, 2) crystal violet staining of biofilm formed on polystyrene in 24 wells-plates, 3) ability to bind the congo red, 4) biofilm maximum thickness measurement and biovolumes quantification of GFP-tagged biofilm observed with a confocal microscopy and 5) curli structure observation using Transcription Electron Microscopy (MET).</p> |
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+ | <h6> Transmission Electron Microscopy | ||
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+ | <img src="https://static.igem.org/mediawiki/2014/4/4f/Insa_labo.jpg" alt="les filles au labo" | ||
+ | width="500px"/> | ||
+ | <p><b>Figure 5: Engineered bacteria curli structure observation using Transmission Electron Microscopy</b></p> | ||
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+ | <p>For the Transmission Electron Microscopy, all the strains were cultivated in conditions that allow the formation of the curli : 48h (for a 50 mL culture), 28⁰C temperature and low agitation. The ammonium molybdate was used as a negative colorant (Microscope: MET PHILIPS CM120). </p> | ||
+ | <p>The bacteria cultures we used are a csgA- strain as negative control, the strain that naturally does the curli and the two engineered csgA constructions, the His-Tag and His2-Tag. </p> | ||
+ | <p>The images show that there is no significant difference between our positive control and our constructions. Thus, we can conclude that our parts insertions don’t affect the structure of the amyloid fibers and the configuration of the curli formation. </p> | ||
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<p><br/><br/>We can conclude that <b>expression of CsgA derivatives</b> from the p70 <i>csg</i> promoter carried by the psb1c3 plasmid leads to <b>functional CsgA</b>, and allows <i>E. coli</i> to <b>stick and form biofilm</b>. Moreover, our results show that the <b>addition of one or two His-Tag on C-term of CsgA doesn’t disturb the normal properties of curli</b> (sturdiness, adhesion and folding of CsgA).</p></div></li> | <p><br/><br/>We can conclude that <b>expression of CsgA derivatives</b> from the p70 <i>csg</i> promoter carried by the psb1c3 plasmid leads to <b>functional CsgA</b>, and allows <i>E. coli</i> to <b>stick and form biofilm</b>. Moreover, our results show that the <b>addition of one or two His-Tag on C-term of CsgA doesn’t disturb the normal properties of curli</b> (sturdiness, adhesion and folding of CsgA).</p></div></li> |
Revision as of 19:50, 17 October 2014