IGEM:Melbourne/2008/BioClock/Feedback loops: Difference between revisions

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Screened Registry

1*. LuxI -> HSL -> LuxR -> R0062 -> LuxI

2. 3OC12 + LasR -> more 3OC12 HSL

3. C4 HSL + RHLR -> more C4 HSL

4. LuxPr + OHHL -> LuxR -> LuxR upregulates LuxPr

5. Amplifier, Don't quite know how it works yet

6. tetR constituitively -> LuxR -> (LuxR-AHL-LuxPr) -> LuxI -> AHL -> (LuxR-AHL-LuxPr) Note: AHL is also an inter-cellular signaling molecule

Paper

Interlinked Fast and Slow Positive Feedback Loops Drive Reliable Cell Decisions <-- A very nice paper, has many examples of +ve feedback loops, and testing for fast and slow loops' qualities.

Tetra-cycline responsive positive feedback <-- A Nice loop

Self-perpetuating states in signal transduction: positive feedback, double-negative feedback and bistability

Simon's proposal

Hi guys, I thought of an idea for a feedback loop that should effectively work in bacteria without the concern of its sloppy repression inadvertantly turning it on.

Here it is:

Basically, It is composed of two feedback loops. The purpose of having two loops is because each represents a state i.e. on or off. It is necessary to have these states because one state needs to repress the other state because of bacteria's inherent sloppiness.

For example. If we only had one loop for 'on' then it could easily turn on by itself. However, in this system, the off loop is constantly repressing the on loop therefore it doesnt turn on by itself. Also vica vera, the on loop represses the off loop.

As you can see from the diagram, the way to change the state is to express the activator for the next state with the repressor of the current state.

I hope you guys like it!

• I thought that's what we had in our binary model version 2 diagram. That's what the Tr0' and Off loops are doing to each other in the diagrams:

http://www.openwetware.org/images/0/00/BinaryClockV2.ppt