IGEM:IMPERIAL/2007/Projects/In-Veso/Implementation: Difference between revisions
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|align="center" style="font-size:100%;" | '''Status''' | |align="center" style="font-size:100%;" | '''Status''' | ||
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|style="font-style:Bold;" align="center" | POPC / Dodecane <br> Noireaux protocol | | width= 50% style="font-style:Bold;" align="center" | POPC / Dodecane <br> Noireaux protocol | ||
|style="color:Black; font-style:Bold; font-size:110%;" align="center" | No vesicles found. <br> [[IGEM:IMPERIAL/2007/Notebook/2007-9-4 |04/09/2007]] | |style="color:Black; font-style:Bold; font-size:110%;" align="center" | No vesicles found. <br> [[IGEM:IMPERIAL/2007/Notebook/2007-9-4 |04/09/2007]] | ||
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|style="font-style:Bold;" align="center" | POPC / Dodecane <br> 50ml suspension | | width= 50% style="font-style:Bold;" align="center" | POPC / Dodecane <br> 50ml suspension | ||
|style="color:Black; font-style:Bold; font-size:110%;" align="center" | Vesicles produced. Very good results <br> [[IGEM:IMPERIAL/2007/Notebook/2007-9-4 |04/09/2007]] | |style="color:Black; font-style:Bold; font-size:110%;" align="center" | Vesicles produced. Very good results <br> [[IGEM:IMPERIAL/2007/Notebook/2007-9-4 |04/09/2007]] | ||
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|style="font-style:Bold;" align="center" | DOPC / Dodecane <br> 10ml suspension | | width= 50% style="font-style:Bold;" align="center" | DOPC / Dodecane <br> 10ml suspension | ||
|style="color:Black; font-style:Bold; font-size:110%;" align="center" | Vesicles only without interface prepared. <br> [[IGEM:IMPERIAL/2007/Notebook/2007-9-4 |04/09/2007]] | |style="color:Black; font-style:Bold; font-size:110%;" align="center" | Vesicles only without interface prepared. <br> [[IGEM:IMPERIAL/2007/Notebook/2007-9-4 |04/09/2007]] | ||
|- | |- | ||
|style="font-style:Bold;" align="center"| POPC / Dodecane <br> 10ml suspension | | width= 50% style="font-style:Bold;" align="center"| POPC / Dodecane <br> 10ml suspension | ||
|style="color:Black; font-style:Bold; font-size:110%;" align="center" | Vesicles both with and without interface. <br> [[IGEM:IMPERIAL/2007/Notebook/2007-9-4 |04/09/2007]] | |style="color:Black; font-style:Bold; font-size:110%;" align="center" | Vesicles both with and without interface. <br> [[IGEM:IMPERIAL/2007/Notebook/2007-9-4 |04/09/2007]] | ||
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|style="font-style:Bold;" align="center"| | | width= 50% style="font-style:Bold;" align="center"| POPC / Dodecane<br>10ml suspension<br>50μl Promega S30<br>NO DNA | ||
|style="color:Red; font-style:Bold; font-size:110%;" align="center" | Planned <br> [[IGEM:IMPERIAL/2007/Notebook/2007-9- | |style="color:Red; font-style:Bold; font-size:110%;" align="center" | Planned <br> [[IGEM:IMPERIAL/2007/Notebook/2007-9-11 |11/09/2007]] | ||
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|style="font-style:Bold;" align="center"| POPC | | width= 50% style="font-style:Bold;" align="center"| POPC / Dodecane<br>10ml suspension<br>50μl Promega S30<br>P<sub>lux</sub> GFP Construct | ||
|style="color:Red; font-style:Bold; font-size:110%;" align="center" | Planned <br> [[IGEM:IMPERIAL/2007/Notebook/2007-9-11 |11/09/2007]] | |||
|style="color:Red; font-style:Bold; font-size:110%;" align="center" | Planned <br> [[IGEM:IMPERIAL/2007/Notebook/2007-9- | |||
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Revision as of 03:53, 11 September 2007
In-Veso Gene Expression: Implementation
Phase 1. Vesicle Formation
1.1 Forming Vesicles
Overall Status | |
Results available | |
Construct | Status |
DOPC / Mineral Oil | Prepped - 14/08/07 |
DOPC / Mineral Oil | We have vesicles! - 15/08/07 |
Constructs:
- DOPC (1,2-Oleoyl-sn-Glycero-3-phosphocholine) / Mineral Oil
- POPC (1-Palmitoyl,2-oleoyl-sn-Glycero 3-phosphocholine) / Dodecane / Span 80
Based on our specifications, we have decided to use the 'Mineral Oil' method to build our in-veso chassis. This will allow us greater flexibility with the size of vesicles formed, as with the number of vesicles we can produce. We have also decided on using different materials to construct our vesicles - one that is recommended by researchers at Imperial College, and the other that is most frequently used in literature.
Protocol | |
Results |
Aims:
- To form vesicles
- Visualize them under light microscope and be able to differentiate them from air bubbles
- Note the range of size of vesicles and lifespan
[+] Constant Conditions
[+] Variables
[+] Sampling
1.2 Adding GFP into Vesicles
Overall Status | |
Results Available | |
Construct | Status |
DOPC / Mineral Oil | Prepped - 15/08/07 |
DOPC / Mineral Oil | No fluorescence - 16/08/07 |
DOPC / Mineral Oil | Fluorescence at membrane - 17/08/07 |
DOPC / Mineral Oil | Inconclusive - 20/08/07 |
DOPC / Mineral Oil | Glowing vesicles, but still inconclusive - 22/08/07 |
POPC / Dodecane | Glowing vesicles, but still inconclusive - 24/08/07 |
DOPC / Dodecane (No overnight) | Vesicles oserved 03/09/2007 |
POPC / Dodecane (No overnight) | Vesicles observed 03/09/2007 |
Constructs:
- DOPC (1,2-Oleoyl-sn-Glycero-3-phosphocholine) / Mineral Oil
- POPC (1-Palmitoyl,2-oleoyl-sn-Glycero 3-phosphocholine) / Dodecane / Span 80
The next step in building our chassis is to ensure that we are able to control what we want inside our chassis. As a means of proof of feasibility, diluted GFP standard solution was added to the emulsion instead, and the results seen using fluorescence mircrosopy.
Aims:
- To compensate for osmolarity and form vesicles with GFP inside
- Visualize them under fluorescence microscope
- Note the range of size of vesicles and lifespan
[+] Constant Conditions
[+] Variables
[+] Sampling
[+] Controls
Protocol | |
Results |
Main Conclusions:
- GFP was successfully enclosed inside vesicles.
- It is possible to make vesicles with GFP without the overnight incubation step.
- It is possible to make vesicles with GFP with 10ml instead of 50ml of lipid-oil suspension.
- Dodecane seems to work better than mineral oil with both DOPC and POPC.
Outstanding Questions
- It is still not clear whether the external GFP aggregates entered the solution encapsulated in vesicles or not. Hence, there is no distinction between encapsulation efficiency and stability. Control experiments should be carried out.
- The emulsions produced are still not very stable - they tend to coalesce and precipitate fairly quickly. This is probably due to the low adsorption rate of phospholipids. There are two possible solutions - either adding Span-80, which has a higher adsorption rate and better stabilising properties, or stir the emulsion for a longer period at a slower rate (giving more time for phospholipid adsorption to occur).
1.3 Adding Cell Extract into Vesicles
Overall Status | |
INCOMPLETE | |
Construct | Status |
POPC / Dodecane Noireaux protocol |
No vesicles found. 04/09/2007 |
POPC / Dodecane 50ml suspension |
Vesicles produced. Very good results 04/09/2007 |
DOPC / Dodecane 10ml suspension |
Vesicles only without interface prepared. 04/09/2007 |
POPC / Dodecane 10ml suspension |
Vesicles both with and without interface. 04/09/2007 |
POPC / Dodecane 10ml suspension 50μl Promega S30 NO DNA |
Planned 11/09/2007 |
POPC / Dodecane 10ml suspension 50μl Promega S30 Plux GFP Construct |
Planned 11/09/2007 |
Constructs:
- DOPC (1,2-Oleoyl-sn-Glycero-3-phosphocholine) / Dodecane
- POPC (1-Palmitoyl,2-oleoyl-sn-Glycero 3-phosphocholine) / Dodecane
- DOPC / Span80 / Dodecane
- POPC / Span80 / Dodecane
- POPC / DOPC / Span80 / Dodecane
- POPC / DOPC / Dodecane
Aims:
- To compensate for osmolarity and form vesicles with Cell Extract inside
- Visualize them under fluorescence microscope
- Note the range of size of vesicles and lifespan
[+] Constant Conditions
[+] Variables
[+] Sampling
[+] Controls
Protocol | |
Results |
Main Conclusions:
Outstanding Questions
- Osmotic pressure is still an issue that has not been addressed properly. Calculations and hypotheses should be made and tested through experiment. Osmotic pressure affects the stability of vesicles, and therefore a better understanding of this aspect would help explain why components that are expected to be found inside vesicles are being found outside.
- Gene expression inside vesicles has not yet been tested. Control experiments must be designed in order to properly verify the reaching of this milestone.
Phase 2. Vesicle Permeabilisation
Phase 3. Process Optimisation and Reproducibility
Phase 4. Application Experiments
Lab Notebook
- Week 5 (6 Aug): Pilot Experimentation of Vesicles
- Week 6 (13 Aug): Pilot Experimentation of Vesicles
- Week 7 (20 Aug): Pilot Experimentation of Vesicles
- Week 8 (27 Aug): Enclosing GFP inside Vesicles
- Week 9 (3 Sep): Enclosing cell extract inside Vesicles
- Week 10 (10 Sep):
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