Team:SJTU-BioX-Shanghai/Results/Test/Overall

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Revision as of 03:16, 29 October 2013 by Wuhongyi (Talk | contribs)


Verified Components


So far we have evaluated the function of all three components in our Box, with all of them exhibiting favaroble performances:

  • [http://igem.bio-x.cn/Team:SJTU-BioX-Shanghai/Results/Test/Luminous_System Verification of Luminous System]
  • [http://igem.bio-x.cn/Team:SJTU-BioX-Shanghai/Results/Test/Theory Empirical Support of Light Sensors]
  • [http://igem.bio-x.cn/Team:SJTU-BioX-Shanghai/Results/Test/Verification Verification of CRISPRi]

Now it is the very time to test the whole system!! :)

Overall System


Blue System

File:Bluelight.gif
As described in our [http://igem.bio-x.cn/Team:SJTU-BioX-Shanghai/Project/Light_sensor/Blue Project page], we have placed a gRNA that targets mRFP under control of blue light sensor.

After careful discussion, we decide to take up a three-step manner:

First Test

GOAL: To discover a coarse range of adjustable region.

We set up a relatively sparse gradient of electric intensities on the User Interface. And corresponding blue lights would be produced into culture tubes, inside which there are 5mL culture of E. coli cells bearing above mentioned plasmids.

We check the result at regular intervals.

After a series of careful experiments and data collections, we successfully confirmed that:

  • when electrical intensities are under 40, these electrical intensities are in a nice positive relationship with the mRFP amount.
  • And when electric intensities exceeds 50, the system becomes saturated.

As soon as we have acquired this suitable range of UI inputs, we immediately continue to our Second Test, in which we would like to further verify this range, deriving a detailed relation curve in this region.

Second Test

GOAL: To further verify this adjustable range, deriving a more accurate relation curve in this region. According to results from our first test, we set up a finer gradients:
from 0 to 35, with an interval of 5. The whole operation is the same with the first one except the input parameters. We expect there will be a very good positive relationship between the input parameters and the output amount of mRFP, and in fact we get the following result.

Blueblueblue111.jpg

Second test of overall sjtu.png

The result is very interesting and it is a little bit unexpected since there is not a strict linear relationship in this range. But we still get the wanted results that are the suitable region for our system. The best result appears between 15 and 35, and the linear relationship between input parameters and mRFP amounts is perfect for us to use.

In addition, we perform another control group to prove that it is not the light intensity that affect the final result. From the result of this control group we can see there is no obvious difference among different light intensities, which strongly proves it is our light-controlled CRISPRi system's correct function that leads to all these results.

Qwqwqwqw.jpg

Second control group of overall sjtu.png

Such linear relationship demonstrates a bright future of the application of our system, but this range is a little bit narrow. Holding the wish of widening the linear relation range, we test for the third time. Also it will be more persuasive to say that our system is reliable due to all the repeat tests give the right results.

Third Test

Based on the previous tests and results we change the testing region to 15 to 45, and we hope to get the linear relationship. Data collecting work shows a good result again.

Third group of overall sjtu.png

Up to now we have proved that the overall system can function well and we have already found out the range in which there will be a linear relationship between input parameters and the targeted gene amount, i.e. between the light intensities and mRFP amount. Based on our versatile and easy-to-use system, further test related to new application on genomic level about metabolic regulation is going to be performed.

Red System