Team:Newcastle University/Notebook

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Newcastle University

GOLD MEDAL WINNER 2008

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Introduction

Our construct:

Figure 1: Newcastle's iGEM team construct.

Fig 1 shows the construct which contains:

  • spaRK promotor
  • rrnB - rRNA binding site
  • spaR (subtilin peptide antibiotic Regulation) - the 220 amino acid product of this gene usually regulates the downstream production of subtilin antibiotic. It has an N-terminal domain that can be phosphorylated and a C-terminal domian that has DNA binding properties [1]
  • spaK (subtilin peptide antibiotic Kinase) - this gene codes for a 325 amino acid histadine kinase peptide that phosphorylates the N-terminus of spaR [2]. This activates the DNA binding ability of the C-terminus of spaR, which in turn initiates transcription of the downstream gene. In the case of our construct, this gene is gfp.
  • gfp (green fluorescence protein) - the marker being used to show activation of the spaRK system and therefore diagnosis of gram-positive bacteria by B. Subtilis
  • spaS promotor - a strong promotor inducible by upstream activation of spaRK. It can be placed in front any gene to regulate its activity.

Aim 1: clone the spaRK system from pUC57 into pJWV021 and transform into DH5 alpha competent E. coli


Aim 1


Aim 2: clone the spaRK system from pUC57 into pGFP-rrnB and transform into TOP10 competent E. coli


Aim 2
  • The 2.2kb fragment (ncl08) contains the spaRK system and promotor-less gfp linked to this. This means that when spaR is activated, its positive regulatory effect on spaK will in turn activate gfp.

Aim 3: clone the agr system from the plasmid vector into pGFP-rrnB and transform into DH5 alpha competent E. coli


Aim 3
  • BBa_I647107 contains a partial agr operon, which includes agrC and A but has agrB and D deleted. This allows coding for the receptor (C/A) but not for production of the quorum peptides themselves (B/D). Eventually this will be linked to the spaRK system in a B. subtilis vector.

Results

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To analyse the results of the wet lab transformations of the inserts into B. subtilis, we used two methods: microscopy and flow cytometry.

Microscopy

Microscopy work from 08.09.08 showed a difference in the level of flourescence of the iGEMgfp fluorescent cells (higher in 10% subtilin-induced cells compared to 0% subtilin-induced cells). However, there was little difference in the number of cells that fluoresced between the two cultures.

There was no difference in the number of fluorecent cells or the level of fluorescence between the 10% subtilin-induced and the 0% subtilin-induced iGEMcherry cells.


Flow cytometry

Flow cytometry measures cell fluorescence and light scattering, cell-by-cell, allowing us to quantify our results and present them in graphical form. A sample of our cells engineered Bacillus subtilis cells were injected into the machine, which hydro-dynamically focusses the fluid. Lasers of a particular wavelength are directed onto the stream of fluid, and each particle which passes through the light beam will cause the laser to scatter in a different way. Cells which absorb and then re-emit the light, result in fluorescence (a higher energy state).

The detectors in the machine measure the scattering of light and any fluoresence which occurs, and the data is displayed as histograms and dot plots.

Induction by 0% v/v subtilin (i.e in the absence of subtilin): mean fluoresence = 7.70

Induction by 1% v/v subtilin: mean fluoresence = 14.77

Induction by 10% v/v subtilin: the mean fluoresence = 21.95

These results show that the higher the concentration of subtilin, the more GFP is expressed.

At 10% induction, the subtilin began to cause some of the cells to lyse - this can be seen by the two distinct populations of cells - one being the cells which have lysed, and the other being the remainder of intact cells. Since subtilin is an antibiotic, this was a good indication that the subtilin we had collected that day was of good quality.


Wet Lab Journal

This contains the day-to-day progress of our wet lab team.

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