Difference between revisions of "Team:Paris Bettencourt/Results"
| Line 25: | Line 25: | ||
<div class="textbody" > | <div class="textbody" > | ||
<h1>Optogenetic</h1> | <h1>Optogenetic</h1> | ||
| − | <div class=text2><div class=text2left><h4>Membrane photosensor</h4></div> | + | <div class=text2><div class=text2left><h4>Membrane photosensor</h4><ul><li></li></li></div> |
| − | <div class=text2right><h4> | + | <div class=text2right><h4>Optics</h4><ul><li> Results confirm the feasibility of achieving a high targeting resolution at significant length within the gel medium.</li></ul></div></div> |
<h1>Biomaterial</h1> | <h1>Biomaterial</h1> | ||
<div class=text2><div class=text2left><h4>Calcium Carbonate</h4><ul><li> Coral acid-rich proteins(CARP1-CARP4) were implemented into the expression vector and transformed into Escherichia coli BL21.</li><li> Right size proteins were expressed and checked for calcium carbonate precipitation ability.</li></ul><h4>Polysilicate</h4><ul><li> Characterized a biobrick from iGEM Pasteur</li></ul></div> | <div class=text2><div class=text2left><h4>Calcium Carbonate</h4><ul><li> Coral acid-rich proteins(CARP1-CARP4) were implemented into the expression vector and transformed into Escherichia coli BL21.</li><li> Right size proteins were expressed and checked for calcium carbonate precipitation ability.</li></ul><h4>Polysilicate</h4><ul><li> Characterized a biobrick from iGEM Pasteur</li></ul></div> | ||
| Line 32: | Line 32: | ||
<h1>RNA organelle</h1> | <h1>RNA organelle</h1> | ||
<div class=text1><ul><li> RNA organelle was shown to decrease background expression of GFP, giving evidence to our model.</li><li> The RNA organelle was long-living, as it was observed to irreversible and stable in culture 20h after induction.</li><ul></div> | <div class=text1><ul><li> RNA organelle was shown to decrease background expression of GFP, giving evidence to our model.</li><li> The RNA organelle was long-living, as it was observed to irreversible and stable in culture 20h after induction.</li><ul></div> | ||
| − | <h1>Logic Gate</h1> | + | <h1>Logic Gate & Photo-Caging</h1> |
| − | <div class=text1></div> | + | <div class=text1><ul><li> Successful testing in cell-free system with Dronpa.</li><li> Found evidence that Dronpa "sticks" the repressors to DNA.</li></ul></div> |
<h1>Human Practice</h1> | <h1>Human Practice</h1> | ||
<div class=text2><div class=text2left></div> | <div class=text2><div class=text2left></div> | ||
Revision as of 02:08, 2 November 2017
RESULTS
Optogenetic
Membrane photosensor
Optics
- Results confirm the feasibility of achieving a high targeting resolution at significant length within the gel medium.
Biomaterial
Calcium Carbonate
- Coral acid-rich proteins(CARP1-CARP4) were implemented into the expression vector and transformed into Escherichia coli BL21.
- Right size proteins were expressed and checked for calcium carbonate precipitation ability.
Polysilicate
- Characterized a biobrick from iGEM Pasteur
PHA
- Improved the characterization of part BBa_K1149051 using flow cytometry to better quantify P3HB production in E. coli.
RNA organelle
- RNA organelle was shown to decrease background expression of GFP, giving evidence to our model.
- The RNA organelle was long-living, as it was observed to irreversible and stable in culture 20h after induction.
Logic Gate & Photo-Caging
- Successful testing in cell-free system with Dronpa.
- Found evidence that Dronpa "sticks" the repressors to DNA.
Human Practice
Centre for Research and Interdisciplinarity (CRI)
Faculty of Medicine Cochin Port-Royal, South wing, 2nd floor
Paris Descartes University
24, rue du Faubourg Saint Jacques
75014 Paris, France
bettencourt.igem2017@gmail.com
bettencourt.igem2017@gmail.com 
