Team:Cambridge/Notebook/Week7

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Week 7

Monday

Wet Work

Threshold Device

Colony PCR of 8 colonies picked from 391 in pSB3K3 transformants, 8 colonies picked from 374 in pSB3K3 transformants, 8 colonies picked from 384 in pSB3K3, and 1 colony picked from 381 in pSB3K3 transformants confirmed to contain an insert of the right length. Overnight cultures of each of those colonies as well. No 374 constructs were found to contain inserts of the right length, however 4 384 constructs were of the correct length. The 381 construct was confirmed once again to be the correct length.

Overnight,

  • Restirction digests of pSB3K3, 380, 382, 385, and 390.
  • Colony PCR of 10 new 391 in pSB3K3 transformants, another 374 in pSB3K3 transformants

MelA BioBrick

PCR done of the original MelA and the first MelA intermediate (without the second PstI site), to create the DNA for a PstI restriction digest. After PCR the DNA was run on a CYBRsafe-stained gel and then extracted with the QuiGen kit. A Restriction digest was carried out using the fastdigest buffer and PstI and left for three hours.

We also tested the Primer C again, as it didn't work last time. Three PCR's were done:

  • Primer F and Primer C (same aliquot as used last time, to check it wasn't just an experimental error on my part)
  • Primer F and a new aliquot of Primer C
  • Primer F and revortexed and re-aliquoted primer C from the origonal vial

None of these produced any result - there is likely to be a problem with the primer.

Pyocyanin *NEW*

The following biobricks were transformed into TOP10 and plated out in preparation for pyocyanin biosynthesis:

  • I746910 (pSB1A2) - pBAD + B0034
  • I723024 (pSB3K3) - PhzM
  • I723025 (pSB1A2) - PhzS
  • B0015 (pSB1AK3) - double terminator
  • B0034 (pSB1A2) - RBS

Dry Work

We found the phzM and phzS pigments in the registry!

  • BBa_I723024 (phzM)
  • BBa_I723025 (phzS)

This means we can now start working on these pigments, connecting them to processing and logic systems.

Development of Matlab programs to automatically process plate reader data was continued.

Tuesday

Wet Work

Threshold Device

Colony PCR of 391 in pSB3K3 showed none had the correct insert. Ligations of 380, 382, 385, 390 into pSB3K3, transformed into Top10.

381 and 384 were tranformed into the arabinose strain in preparation for assaying using the plate reader.

Violcein

James has a plasmid that produces cuiR which when stimulated with C6-HSL acts activates the vioA promoter. We put the vio+ cells into the shaking incubator, preparing to make them competant tmorrow.

Pyocyanin

Transformations of I746910, I723025 and B0034 worked, and were put in overnight culture in preparation for miniprepping.

I723024 and B0015 were transformed again into TOP10.

Dry Work

Wednesday

Wet Work

Threshold Device

  • Overnight colony PCR of 380, 382, 385, 390 in pSB3K3.
  • Moved 375, 392, 394, 395 into pSB3K3, transformed into TOP10.
  • Overnight colonies of 381 in pSBK3K in arabinose strain and 384 in pSB3K3 in arabinose strain in preparation for plate reader run tomorrow, as well as the appropriate controls.

MelA BioBrick

In a final attempt to get Primer C to work, we tried touchdown PCR with the lowest temperatuire 45 degrees C. Primer C and Primer F were used with the origonal melA gene and the end product of the PCR was run on an ethidium bromide gel at 80V for 45 mins:

Igem 1 003.jpg

Product is shown starred in the above gel. The MelA protocol can now be completed.

Violacein

Made competent vio+ cells and transformed them with James's plasmid. Transformed cells were plated on trimethoprim/ampicillin plates and placed in the 37 degree incubator overnight.

Dry Work

Planned standard assemblies for the next month

Thursday

Wet Work

Threshold Device

  • Successfully moved 380, 382, 385, 390 into pSB3K3, cultured colonies overnight in preparation for miniprep tomorrow
  • Overnight colony PCR of 375, 392, 394, 395 into pSB3K3.
  • Overnight plate reader run of arabinose strain colonies transformed with 382 in pSB3K3 and arabinose strain colonies transformed with 384 in pSB3K3 exposed to varying concentrations of arabinose

Violacein

Observed the transformed cells. Violet pigment was seen, after only one night of growth!

Igem 1 001.jpg

In order to collect liquid culture colour for characterisation with the plate-reader, two cultures were grown. One contained 10mM of 3-oxo-C6-HSL in order to increase the level of pigment, hopefully such that it can be seen, and therefore characterised, in liquid culture.

MelA BioBrick

Two PCR's were run, using the MelA-biobrick intermediate created last week (minus one PstI site) as the template:

  • Primer C and Primer F
  • Primer A and Primer B

These two will remove the second PstI site.

After running the gel, the correct products were excised and purified using the QuiGen gel purification kit. The products were then used for a further PCR run (overnight) using primers A and F.

If the correct products were removed, then this final run should produce the MelA BioBrick.

Dry Work

Prepared iGEM-style practise presentation for the meeting on Friday.

Friday

Wet Work

Amplification

Successfully moved 375, 392, 394, 395 into pSB3K3.

Violacein

Observed the liquid cultures made yesterday:

Igem 2.jpg

The tube on the left contains the 3-oxo-C6-HSL while the one on the right just contains the vio bacteria. Violacein in liquid culture! This can now be used with the plate reader to characterise the pigment.

Dry Work

Practise Presentation

We prepared an iGEM-style presentation for the afternoon, and presented it for the faculty. The following comments and suggestions were made regarding it:

  • Pictures need to be close-up of the coloured colonies, with no satilites and with a control for comparison
  • Slide design should be looked at - in particular the coloured sidebar, which created dead space
  • Forward rather than a backward explanation (Sensor - threshold - colour) and with a navigation bar (perhaps at the side?) to show the audience where we are in the talk
  • Ways to characterise the different strains and their effects were discussed, such as using a bar graph with coloured pictures of the cells in the boxes - an effective way to show a large amount of information on one slide.
  • Testing the threshold. It was suggested that as well as attaching the different threshold levels to different colours, we first attach them all to the same colour as proof they respond to different input levels
  • The actual physical product should be constructed in a prototype form, such as by using 5-well microscope slides. We were also encouraged to think more about this final product and how we would practically produce it.
  • BioBrick numbers need to be included
  • The pigment production requires a little more science background

We also decided not too concentrate on the phzS and phzM pigments, as these have already been made into Biobricks. Instead, we will just concentrate on the proper characterisation of the carotenoid pigments, creating the MelA and Violacein biobricks, and attaching them too the threshold level amplifiers.

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