Difference between revisions of "Team:Newcastle/InterLab"

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Growth was affected significantly by changes in pH, which can be seen in figure 3. In SOC media, a distinct increase is seen in max OD as pH increases. In LB media the opposite is seen, where as pH increases, max growth decreases (figure 4). </p> <br />
 
Growth was affected significantly by changes in pH, which can be seen in figure 3. In SOC media, a distinct increase is seen in max OD as pH increases. In LB media the opposite is seen, where as pH increases, max growth decreases (figure 4). </p> <br />
  
<div style="text-align: center;"><img style="width:80%" src=https://static.igem.org/mediawiki/2017/8/84/T--Newcastle--SOCmaxODpH.jpeg></div><br />
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<div style="text-align: center;"><img style="width:80%" src=https://static.igem.org/mediawiki/2017/7/7b/T--Newcastle--SOCmaxODcorrect.jpeg></div><br />
 
<b>Figure 3</b> max OD reached by (A) Test 6, (B) Test 5 and (C) Test 2 in SOC media over 24 h at 31C, 37C and 43C.<br />
 
<b>Figure 3</b> max OD reached by (A) Test 6, (B) Test 5 and (C) Test 2 in SOC media over 24 h at 31C, 37C and 43C.<br />
 
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<div style="text-align: center;"><img style="width:80%" src=https://static.igem.org/mediawiki/2017/5/51/T--Newcastle--maxODtest5LB.jpeg</div><br />
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<div style="text-align: center;"><img style="width:25%" src=https://static.igem.org/mediawiki/2017/c/c4/T--Newcastle--maxODtest5LBcorrect.jpeg></div><br />
<b>Figure 4</b> max OD reached by Test 5 in LB media over 24 h
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<b>Figure 4</b> max OD reached by Test 5 in LB media over 24 h<br />
  
 
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Fluorescence was affected by pH particularly in SOC where an increase was seen with an increase in pH (figure 5). In LB there was little change in fluorescence until an alkaline pH was reached at 43C, where there was a substantial decrease (figure 6).<br />
 
Fluorescence was affected by pH particularly in SOC where an increase was seen with an increase in pH (figure 5). In LB there was little change in fluorescence until an alkaline pH was reached at 43C, where there was a substantial decrease (figure 6).<br />
  
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<b>Figure 5</b> max FL reached by Test 2 in (A) SOC and (B) LB media over 24 h<br />
  
  

Revision as of 16:30, 25 October 2017

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Interlab Study Results

Interlab Study: The Results

BioBricks used: BBa_I20270, BBa_R0040, BBa_J36000, BBa_J36001, BBa_J36002, BBa_J36003, BBa_J36004, BBa_J36005

Diagrammatic Overview: This is a caption. This is a caption. This is a caption. This is a caption. This is a caption. This is a caption.

Overview

The iGEM InterLab Study is the currently the largest interlaboratory study in synthetic biology [refs]. The interlab study investigates the replicability of data by providing all participating iGEM teams with protocols for measuring the fluorescence output of a set of genetic devices that have been designed to provide varying levels of Green Fluorescent Protein (GFP) expression. Team Newcastle 2017 followed the Interlab plate reader protocol, which can be found here (link protocol document).


InterLab Measurement Kit

This year, teams were provided with the InterLab Measurement Kit containing fluorescein and LUDOX stocks, along with the devices stored in the Distribution kits. The devices are:
- A positive control: BBa_I20270
- A negative control: BBa_R0040
- Test Device 1: BBa_J36000 (J23101.BCD2.E0040.B0015)
- Test Device 2: BBa_J36001 (J23106.BCD2.E0040.B0015)
- Test Device 3: BBa_J36002 (J23117.BCD2.E0040.B0015)
- Test Device 4: BBa_J36003 (J23101+I13504)
- Test Device 5: BBa_J36004 (J23106+I13504)
- Test Device 6: BBa_J36005 (J23117+I13504)


Protocols
OD600 Reference Point

LUDOX-HS40 was used as a single point reference to obtain a radiometric conversion factor to convert absorbance data into a standard OD600 measurement. The Reference OD600 divided by the Abs600 from four replicates of LUDOX was used to obtain a correction factor for use against the cell based assays.

Fluorescein Standard Curve

A dilution series of fluorescein in four replicates was prepared and measured in the plate reader to obtain a standard curve of fluorescence for fluorescein concentration. This was used to correct cell-based readings to an equivalent fluorescein concentration, and to then convert this to a GFP concentration.

Plate Reader

Competent E. coli DH5α cells were transformed with each of the devices and plated onto LB+Chl agar, and two colonies from each transformation plate were grown overnight in 10 ml LB + Chl in 50 ml Falcon tubes. Protocols for making competent cells and cell transformation can be found here (link to protocol). Fluorescence was measured as specified in the InterLab protocol on a Synergy H1 plate reader.


Results

Raw results can be found here.

Figure 1 InterLab results – (A) Growth, (B) fluorescence and (C) calculated µM fluorescein/OD600 of InterLab devices grown at 37°C in LB for 6 h. Measurements from 4 individual plate readings at 0, 2, 4 and 6 h.

Bacterial growth. We found that the negative control, Tests 3, 5 and 6 grew the most in the 6 h experiment, with the positive control and Test 2 growing less so. Test 1 had the least growth.

Fluorescence. Test 2 showed the most fluorescence after 6 h, with Test 4 showing slightly less, followed closely by the positive control, then Tests 1 and 5. Tests 3 and 6 showed very little fluorescence.

FL/OD. Test 1 gave a significantly higher overall uM fluorescein/OD600 ratio compared to all other devices with values of 0.91 and 0.94 from the separate isolates, compared to a range of <0.01 and 0.18 from all other devices.

Variability. As part of the Interlab study, we analysed two separate bacterial transformants in quadruplicate. This allows an examination of the variability between replicates and between colonies. Between replicates, variation was minimal. However, between colonies containing the same device we saw a degree of variability in growth and fluorescence, thus affecting FL:OD. Figure 2 shows high levels of variability between max OD and Abs measurements of Tests 2 and 4. Fluorescence and subsequently FL:OD are directly affected by growth, but factors including inaccuracies in growth set up and the user taking the samples could have also affected these. As plasmid copy number will not be equal, this will also manifest in readings over time.

Figure 2 Box and whisker plots of (A) max OD and (B) Absorbance values for fluorescence. Maximum values were obtained from all colonies and replicates for each device.

Conclusions and Future Work

After carrying out the InterLab Study we decided to take a high, medium and low expressing device and analyse their sensitivity to changes in environmental conditions. We also looked into how automation could reduce variation between results.


References
Interlab Study Improvements: The Results

BioBricks used: BBa_J36001, BBa_J36004
BBa_J36005

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Rationale and Aim


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Background Information


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Interlab Devices in Different Contexts


We looked at the impact of temperature, pH and media on how high, medium and low expressing devices performed. Tests 2, 5 and 6 were selected from the Interlab Study after initial results were analysed. Single colonies of each transformant were selected and grown in LB+Chl, then washed and diluted to an OD600 of 0.05 in 100 ul media. Transformants were analysed in quadruplicate, with bacteria and media pipetted onto the plate using a pipetting robot for maximum accuracy.

Temperature


pH
Growth was affected significantly by changes in pH, which can be seen in figure 3. In SOC media, a distinct increase is seen in max OD as pH increases. In LB media the opposite is seen, where as pH increases, max growth decreases (figure 4).



Figure 3 max OD reached by (A) Test 6, (B) Test 5 and (C) Test 2 in SOC media over 24 h at 31C, 37C and 43C.


Figure 4 max OD reached by Test 5 in LB media over 24 h

Fluorescence was affected by pH particularly in SOC where an increase was seen with an increase in pH (figure 5). In LB there was little change in fluorescence until an alkaline pH was reached at 43C, where there was a substantial decrease (figure 6).


Figure 5 max FL reached by Test 2 in (A) SOC and (B) LB media over 24 h


Temperature x pH
Temperature did not show a consistent difference, however it's possible there was a combined effect with pH.


Standard Assembly Methods


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Standard Measurement Methods


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Internal Controls


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Robust Promoter Characterisation


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Conclusions and Future Work


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References


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