Tokyo/Genetic circuit

From 2007.igem.org

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[[Image:B status.JPG|thumb|350px| '''Fig.3: '''Idlers (State-B)]]
[[Image:B status.JPG|thumb|350px| '''Fig.3: '''Idlers (State-B)]]
[[Image:OnlyB.JPG|thumb|350px| '''Fig.4: '''If Workers are removed...]]
[[Image:OnlyB.JPG|thumb|350px| '''Fig.4: '''If Workers are removed...]]
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==Hybrid promoter==
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これを実装するためにPbはハイブリッドプロモータである必要がある。
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⇒ハイブリッドプロモーターとは?Workのページへ[[Tokyo/Works/Hybrid promoter|Hybrid promoter]]

Revision as of 18:00, 23 October 2007


Abstract  Concept & Model  Requirements  Genetic_circuit  Works  About_our_team

Genetic Circuit

Fig1 is an outline of our genetic circuit, designed for realizing our Concept&Model.

All the cells (Wokers and Idlers) have the same genetic circuit. (Just as the 'society' members have practically the same genetic backgrounds)

Fig.1: Genetic Circuit

Workers (State-A)

(Fig2) In the A-state cell, promoter Pa is "on", and the cell expresses repressor Ra, luxI, and RFP. Repressor Ra put the promoter Pb into "off", and prohibits to change the state. This cell also expresses luxI, which makes AHL (cell-cell communication molecule). And in the downstream of these genes, there is an RFP gene. So we can detect state A cell using FACS.

Fig.2: Workers (State-A)

Idlers (State-B)

(Fig3) In the B-state cell, with the exsistence of AHL, promoter Pb is "on". And repressor Rb and GFP are expressed. Repressor Rb inhibits the expression of promoter Pa, and GFP is used to detect state-B cells.

If Workers are removed...

(Fig 4)If A-state cells are removed, B-state cells recognizes the absense of A-cells. That is, they respond to the decrease of AHL, not to produce repressor Rb. In this condition, repressions of Pa by Rb, and Pb by Ra are declined. This puts the toggle-like circuit into "reset".

Fig.3: Idlers (State-B)
Fig.4: If Workers are removed...

Hybrid promoter

これを実装するためにPbはハイブリッドプロモータである必要がある。 ⇒ハイブリッドプロモーターとは?WorkのページへHybrid promoter