Team:Tokyo Tech
From 2008.igem.org
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+ | !align="center"|[[Team:Tokyo_Tech|Home]] | ||
+ | !align="center"|[[Team:Tokyo_Tech/Team|The Team]] | ||
+ | !align="center"|[[Team:Tokyo_Tech/Project|The Project]] | ||
+ | !align="center"|[[Team:Tokyo_Tech/Parts|Parts Submitted to the Registry]] | ||
+ | !align="center"|[[Team:Tokyo_Tech/Modeling|Modeling]] | ||
+ | !align="center"|[[Team:Tokyo_Tech/Notebook|Notebook]] | ||
+ | !align="center"|[[Team:Tokyo_Tech/Japanese|Japanese]] | ||
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Revision as of 22:33, 21 October 2008
Home | The Team | The Project | Parts Submitted to the Registry | Modeling | Notebook | Japanese |
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Our project
We want to make a Coli Touch!!
→We try to construct a bacterial ‘touch panel’ which is colored by the pressure.
We name it Coli touch.
Until iGEM2007, input style was only heat, small molecule and light. These input style have problems. For example, Heat input occur thermal gradient, small molecule input occur concentration gradient, light input depend on location of a container. So, we thought input style except these. That is “press”. Press input has an advantage that input signal travel uniformly in a container. |
Why pressure?
Example of input style to genetic circuit
- Heat: thermal gradient
- Small molecule: concentration gradient
- Light: strength depend on location of container
Difficulty in uniform introduction
Press! Confirmatory experiment
Prospect of technological application!!
Pressure
inducible promoter - Plac
The affinity of LacI for the lac operator is known to decrease due to a tetramer to dimer transition of LacI
Strategy
Equipment. Instrument for pressure experiment
Fig 4: Fig4-1 is a pressure vessel. Fig4-4 is a pressurizing system. Fig4-2 show a inside of the vessel. The inside is filled with water and the withstand pressure container is put into the inside. Fig4-3 show a water bath placed some vessel.
Strategy
1.Construction
Confirmatory
experiment
Fig1:Pressure-response of Plac-GFP under several pressures measured by flow cytometer
Fig2-1:Plac-GFP under 30MPa Fig2-2:Plac-GFP under 0.1MPa Fig2-3:⊿-GFP under 30MPa
Stratagy 2. Basic device
Stratagy 3. Development of low pressure inducible
promoter
We performed random mutagenesis to lac promoter and tried to screen promoters with FACS.
Strategy for Isolation of promoters
Future
work
• try Step 2 and 3
• characterize isolated promoters
4.Genetic
toggle switch to implement rewritable function
・ genetic toggle switch
- Writable function
Plac is induced under 30 MPa pressure
(PL is not induced by 30 MPa pressure)
Express GFP, CI, and CI represses PL
→ bright !!
- Erasable function
PL is induced by heat
Express LacI, Plac represses GFP
→ go out little by little…
Future work
- Identify pressure model parameter from experimental data
- Simulate pressure induction by pressure model and estimate
promoter-RBS strength to implement rewritable function
Mathematical model