Imperial/Wet Lab/Lab Notebook/2007-09-03

From 2007.igem.org

3 September 2007

Construction of pT7-GFP

  1. Minipreped the 5 overnight cultures

Protocols can be found at [http://www.openwetware.org/wiki/IGEM:IMPERIAL/2007/Notebook/General_Protocols#S30.2FS12_Cell_Extract#Miniprep| Miniprep] in the general protocols page

  1. Digested 5μl of DNA with Nde1 and BamH1
  2. Checked the digestion on 1% agarose gel
    • 1. Colony 1
    • 2. Colony 1 digested
    • 3. Colony 2
    • 4. Colony 2 digested
    • 5. Colony 3
    • 6. Colony 3 digested
    • 7. Colony 4
    • 8. Colony 4 digested
    • 9. Colony 5
    • 10. Colony 5 digested
  3. Colonies 1 and 4 show the correct-size insert upon digestion

ICGEMS T7GEL4.PNG

Protocols can be found at [http://www.openwetware.org/wiki/IGEM:IMPERIAL/2007/Notebook/General_Protocols#Electroporation| Electroporation] in the general protocols page

  1. Transformed recombinant plasmid DNA into BL21
  2. Plated transformed cells onto LB + Kan plates
  3. Left plates at 37°C overnight

Protocols can be found at [http://www.openwetware.org/wiki/IGEM:IMPERIAL/2007/Notebook/General_Protocols#S30.2FS12_Cell_Extract#Transformation| Transformation] in the general protocols page

Maxiprep of Biobricks

  1. Maxipreped 2 Biobricks

  • 2. BBa_I13422 [ptet-GFP]
  • 18. BBa_T9002 [plux-GFP]

Protocols can be found at [http://www.openwetware.org/wiki/IGEM:IMPERIAL/2007/Notebook/General_Protocols#S30.2FS12_Cell_Extract#Maxiprep| Maxiprep] in the general protocols page

ICGEMS Gel 3 9.png

Conclusions:

  • Part 2 is very concentrated!
  • Part 27 and 29 are not cloned properly

Vesicles

Formation of Vesicles

For both the POPC/dodecane 10ml and DOPC/dodecane 10ml suspensions prepared today - without overnight incubation - the following steps were taken:

  • 2ml of suspension was taken to prepare an interface according to protocol.
  • 25μl of 100x diluted GFP solution was used to prepare the emulsion; stirred gently with magnetic stirrer.

NOTE: There was a mistake in labelling the containers for the two suspensions - both were mistakenly labelled as DOPC. When the mistake was spotted, it was impossible to distinguish between the POPC and DOPC containers. The labels used then were a best guess, and have been carried through the remainder of these results. So, please bear in mind that the results given could either be POPC or DOPC.

4 samples prepared:

  • Sample 1: 1ml of POPC/dodecane/GFP emulsion added over interface prepared with 2ml of POPC/dodecane suspension.
  • Sample 2: 1ml of DOPC/dodecane/GFP emulsion added over interface prepared with 2ml of DOPC/dodecane suspension.
  • Sample 3: 2ml of POPC/dodecane/GFP emulsion, with no previously prepared interface.
  • Sample 4: 2ml of DOPC/dodecane/GFP emulsion, with no previously prepared interface.

Samples 1 and 2 were centrifuged at 120x g. Samples 3 and 4 have been left overnight for sedimentation to occur.


Results Samples 1 and 2 were collected for observation under the microscope. The following results were obtained:

  • Sample 1: Vesicles observed, but not photographed.
  • Sample 2: Vesicles observed.
IC07 image137.jpg IC07 image136.jpg
Vesicles found in Sample 2. Above left: Several vesicles under white light. Above right: The same objects (not visible), under fluorescence. The fluorescence was present and visible, but VERY faint. The camera was unable to register the fluorescence - even with 4 seconds of exposure. Gamma and saturation corrections did not reveal any colour. Below left: Another pair of vesicles. Below right: Again, the fluorescence inside these vesicles was too faint to be captured by the camera, but it was visible.
IC07 image139.jpg IC07 image138.jpg

IC07 image141.jpg IC07 image140.jpg IC07 image140b.jpg
A strange object seen in Sample 1. Left: A very large object, containing a membrane and a large GFP aggregate. The texture outside the object is rough, while smooth inside. The circular boundary is actually in aqueous solution, but it is not clear if the inside is GFP in water, air, or oil. Centre: The same object, under fluorescence. Right: The picture in the centre, but with gamma correction and full saturation. Note the grey circular object enclosing the bright GFP clump. The grey area is actually an effect from the gamma correction, enhancing a very faint fluorescence. In fact, when looked at in the microscope, the whole circular object emitted a very faint green fluorescence (besides the GFP aggregates), with a very clear boundary along the circular border seen under white light. This indicates that there was some GFP dissolved inside the object, suggesting that it may have been aqueous GFP solution.

IC07 image132.jpg IC07 image133.jpg
Typical GFP aggregates, this time found in Sample 2. Aggregates like these have been, so far, the most abundant source of fluorescence in our samples. They range from tiny sub-1μm specs (all over the place) to gigantic blobs more than 1mm across (rare). Left: The aggregate under white light. Right: The same aggregate, with fluorescence.

IC07 image135.jpg IC07 image134.jpg IC07 image134b.jpg
Another strange object, this time seen in Sample 2. Left: The object under white light. Centre: The same object, with fluorescence. Right: The picture in the centre, but with gamma correction and full saturation. Note the grey circular object in the enhanced image. As with the strange object seen in Sample 1, the grey pixels actually correspond to very faint fluorescence, enhanced by gamma correction. This shows how the rough circular object was in fact enclosing a few GFP aggregates as well as a diluted GFP solution. Could this be a very large vesicle? It is about 30μm across. Why would it have such a rough surface?


Preparations

Three experiments were set up for tomorrow:

  1. One 100ml beaker with 250μl of POPC and 50ml of dodecane
  2. One 50mm by 25mm cylinder with 50μl of POPC and 10ml of dodecane
  3. One 50mm by 25mm cylinder with 50μl of DOPC and 10ml of dodecane

All desiccated and sonicated, and left on the bench overnight (not the incubator).