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<h4 style="text-align: left;">Fluorescence reading experiments</h4><br><br> | <h4 style="text-align: left;">Fluorescence reading experiments</h4><br><br> | ||
− | <p>Since RIP is only a seven-aminoacid peptide, we were not able to check its production by classic SDS-PAGE. Thus, we tried to check its expression by <b>observing its effect</b> on <i>Staphylococcus aureus</i> growth and adhesion. We grew a <i>S. aureus</i> strain expressing GFP (Green Fluorescent Protein), | + | <p>Since RIP is only a seven-aminoacid peptide, we were not able to check its production by classic SDS-PAGE. Thus, we tried to check its expression by <b>observing its effect</b> on <i>Staphylococcus aureus</i> growth and adhesion. We grew a <i>S. aureus</i> strain expressing GFP (Green Fluorescent Protein), (kindly provided by Dr. Jean-Marc Ghigo) on 96-well microtiter plates with different fractions of supernatant or pellet of our BL21(DE3) pLysS bacterial cultures containing BBa_K26160001.<br><br></p> |
<p>After 48h or more incubation, we washed the plates in order to discard planktonic bacteria, and read fluorescence (excitation at 485 nm and measuring emission at 510 nm).<br><br></p> | <p>After 48h or more incubation, we washed the plates in order to discard planktonic bacteria, and read fluorescence (excitation at 485 nm and measuring emission at 510 nm).<br><br></p> | ||
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Revision as of 17:24, 17 October 2018
RECONNECT NERVES
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Summary
Achievements:
- Successfully cloned a biobrick coding for secretion of NGF in pET43.1a and iGEM plasmid backbone pSB1C3, creating a new part BBa_K2616000.
- Successfully sequenced BBa_K2616000 in pSB1C3 and sent to iGEM registry.
- Successfully co-transformed E. coli with plasmid secreting proNGF and plasmid expressing the secretion system, creating bacteria capable of secreting NGF in the medium.
- Successfully characterized production of proNGF thanks to mass spectrometry and western blot.
- Successfully observed axon growth in microfluidic chip in presence of commercial NGF.
Next steps:
- Purify secreted proNGF, and characterize its effects on neuron growth thanks to our microfluidic device.
- Global proof of concept in a microfluidic device containing neurons in one of the chamber, and our engineered bacteria in the other.
FIGHT INFECTIONS
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Summary
Achievements:
- Successfully cloned a biobrick coding for RIP secretion in pBR322 and in pSB1C3, creating a new part Bba_K2616001 .
- Successfully sequenced Bba_K2616001 in pSB1C3 and sent to iGEM registry.
- Successfully cultivated S. aureus biofilms in 96 well plates with different supernatants.
Next steps:
- Clone the sensor device with inducible RIP production upon S. aureus detection.
- Improve the characterization of RIP effect on biofilm formation.
KILL SWITCH
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Summary
Achievements:
- Successfully cloned a biobrick coding for toxin/antitoxin (CcdB/CcdA) system in iGEM plasmid backbone, creating a new part.
- Successfully observed survival of our engineered bacteria at 25°C and 37°C and absence of growth at 18°C and 20°C, showing the efficiency of the kill switch.
Next steps:
- Find a system that kills bacteria when released in the environment rather than just stopping their growth.