Team:SUSTC-Shenzhen-A/Project

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=== results ===
=== results ===
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=== references ===
<p>We chose four biobricks to detect after search . They are xylose、KNO<sub>3</sub>、glucose and 12HSL.</p>
<p>We chose four biobricks to detect after search . They are xylose、KNO<sub>3</sub>、glucose and 12HSL.</p>

Revision as of 09:32, 27 September 2013

Prisonersdilemma.jpg

Home Team Official Team Profile Project Parts Submitted to the Registry Modeling Protocol and notes Safety Attributions Human Practice



Contents

Overall project

Abstract

There are many applications of the game theory in some aspects of our life. Each individual has two kinds of choices--to betray or stay silent, and the choice you make would determine your fate. To betray the other side, you may risk being revenged. While staying silent, companion's betrayal may hurt you deeply. As for our project, we work out a new way to imitate the game theory by constructing a community of two E. Coli bacteria. Here we use the growth rate of each species to represent its fate. The effect of one's silent or betrayal on the other species' fate is acted through intercellular signal molecules of two quorum sensing systems. Each signal molecule regulates the expression of toxic genes in the other species and reduces its growth rate. We characterize the consequence of each strategy by quantitatively measure the growth rates of each species in the community

Background


Project Details

our design

Designsustc.png

Parts:

Communication: quorum sensing

LuxI produces 6HSL, 6HSL cross membrane, 6HSL binds to LuxR, LuxR activate promoter Plux

LasI produces 12HSL, 12HSL cross membrane, 12HSL binds to LasR, LasR activate promoter Plas

Poissonness genes:

tetA: import Nickel into cell, which kills cell

Zeo-r: Zeocin damage DNA and kills cell, Zeo-r binds and neutralize Zeocin

Truth Table

Tablesustc.jpg

Tuning gene expression: repressor and inducer

lacI repress gene expression (LuxI); IPTG binds to tetR and release the repression

araC repress gene expression (LasI or LuxI); arabinose binds to araC and release the repression

Designasustc.jpg Designbsustc.jpg Cell A: Constant expressions: LuxR(with C6HSL, activate pLux, express Zeo-r): promoter J23100 and rbs B0034</p>

araC(with arabinose, activate LasI, tetA): promoter J23100 and rbs B0034

mCherry (red fluorescent protein labeled cell A): promoter pCon, rbs

Adjustable expressions:

Zeo-r, adjusted by C6HSL, produced by LuxI from cell B, depends on cell B density and IPTG concentration

LasI: adjusted by arabinose, LasI produces C12HSL, control cell B

tetA: adjusted by arabinose

Arabinose, Zeocin, Nickel concentration are controlled by you

C12SHL concentration: controlled by cell A concentration and arabinose

Nickel either kill cell or slow cell growth: tetA increase sensitivity of cell B to Nickel:

zeocin either kill cell or slow cell growth:Zeo-r decreases sensitivity of cell B to zeocin

-asv: amino acid sequence that increase response time of LuxI, tetA and Zeo-r to regulation

pMB1 and p15A: control plasmid replication in E coli</p>

Kan and Cam(r): with antibiotics Kanamycin and chloramphenicol, prevent lost of plasmids

Experiment process

Results

project results

What we have done are the plasmid construction and the early experiments ,because of the time limite. Here are some results of our project

Projectresult.jpg

modeling results

Biobricks checking

process

results

references

We chose four biobricks to detect after search . They are xylose、KNO3、glucose and 12HSL.

xylose xylose

Compared with the results of the efficiency of the xylose inducible promoter detected by the HKT, our consequence differed from them in some aspects, or better. We had used the FCM to detect it. There was an obvious tendency that the efficiency of the promoter increased as the xylose concentration gathered up. What was amazing was that the fluorescence we got was 10 times brighter than the result the HKT got, which appeared to be great.

But when the concentration of the xylose was 0.03% and 0.3%, we got an unexpected result that the expression of the GFP fell after rise. What’s more. While the concentration of the xylose was 10%, the expression of the GFP decreased, which corresponded with the result of the HKT.

KNO3

KNO3

BBa_K774007 KNO3: This part we got a similar beginning, but have a different ending. With the increasing of nitrate of potash, the fluorescence produced by single cell increases slowly at the beginning but rapidly later. However, according to the data from NRP-UEA-Norwich, the fluorescence starts to decrease at the 20mM nitrate of potash.

glucose

BBa_K741002 glucose: Compared with testing result from USTC_China, we’ve got a better data. According to the data from USTC_China, after adding glucose, the fluorescence reduces only about 10% in the most obvious one. However, we got a clear reduce in the production of fluorescence. In about 10-2.4M glucose, the fluorescence has left only a half in one cell. With the increasing of glucose, the fluorescence/OD continuously decreases, and at about 10-1M glucose, the fluorescence/OD remains very low.

12HSL

lalala

=== References===

Click the Reference to get more information.