Team:NYMU-Taipei/Project/Time Regulation/Results of Reloxilator

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Only the Oscillator, Tuner, and Reporter was successfully ligated together, so we performed a few Reporting Assays on it.

Contents

Reporting Assay 1

This was done having little knowledge of what we were actually trying to look for. We just needed some data to get a feel for what kind of information we were looking for, and we also used this experiment as an indicator to how much time the experiment would take and what we could improve upon next time (e.g. how to take the samples from the tubes and put it back in the incubator in the shortest amount of time in order not to affect the experiment too much).

Method

Diluted all samples by a 1:100 ratio and let them grow. Measured the OD and fluorescence every hour.

Results

  1. Found that doing technical replicates actually makes a lot of difference if you didn't pipette properly.
  2. If starting with and OD600 of around 0.0325, the fast growth period where we see the most activity lies between 2 to 6 hours. From the next experiment on, we decided to dilute all samples to start off with an OD around 0.0325.
  3. Other than that, at first we had thought that the fluorescence values were too close to the blank (LB medium), and some even lower than it, so we did not analyse the data. It wasn't until after the third reporting assay we noticed that the measured points did indeed have a sinusoidal shape.

Reporting Assay 2

Method

Diluted the samples to start off with an OD600 of 0.0325. Measured the OD600 and a few different excitation/emission wavelengths.

Reporting Assay 3

Hogged the fluorescence measuring machine for 4 hours to let it grow in the machine. Doing this we could measure the fluorescence every five minutes. However, we couldn't measure the OD600.

Method

Samples consisted of:

  • LB
    • 0uM IPTG
    • 50uM IPTG
  • Oscillator + Reporter
    • 0uM IPTG
    • 50uM IPTG
  • Oscillator + Tuner + Reporter
    • 0uM IPTG
    • 50uM IPTG
    • 500uM IPTG
    • 1000uM IPTG

We measured the samples every 5 minutes during the time period between 2 to 6 hours from the time of dilution.

Results

By this point, we were thinking about what we should do about getting "no results" every time since everytime we saw that the fluoresence of the blank sample was higher or similar to the fluoresence of the other samples. Then we plotted of of the samples by itself without the blank and alas! we saw a sinusoidal shape.

NYMU RA3 sine.png

And our hope was revived! We grouped similar samples together and plotted them.

NYMU RA3 osc.png

This is the plot of the oscillators + reporter. (each timestep is 5 minutes)

  • Red: 0 IPTG
  • Orange: 50 IPTG

NYMU RA3 osctun.png

This is the plot of the oscillators + tuner + reporter. (each timestep is 5 minutes)

  • Red: 0uM IPTG
  • Orange: 50uM IPTG
  • Yellow: 500uM IPTG
  • Green: 1000uM IPTG

Some of us say that the oscillations can be seen in that plot since the time period is around 46 minutes, however, some of us disagree.

Reporting Assay 4

Started doing reporting assay of the Oscillator+Tuner+Synchronizer+Reporter construct, until we found out halfway that the construct had actually failed (we were using the time between measurement assay points to validate the length of the part from plasmid extraction->digestion->gel electrophoresis.

Reporting Assay 5

  • Aim
    • purely wanted to see the relationship that different amounts of IPTG has upon the fluorescence of the Oscillator+Tuner+Reporter construct. So OD600 was not measured except at the start.
  • IPTG concentrations: 0,50,100,200,300,500,1000,2000,4000 uM.
  • Measurement: every 5 minutes at the wavelengths (ex/em):
    • 488/533
    • 488/525
    • 475/515
    • 470/530

Results

There was no significant difference between the wavelengths used. The shape looks the same to the human eye. But there was a very very weird trough between 0 to 2 hours for all samples.