Team:ETHZ Basel/Biology

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(Biology & Wet Lab: Overview)
(Biology & Wet Lab: Overview)
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The core idea of E. lemming is based on the '''spatial localization''' of one of the species of the chemotaxis network, so called '''Che proteins'''. Through localizing, the effective concentration of the Che protein is decreased at its site of action, affecting its activity on its downstream partners. Anchoring is achieved with the help of '''light-sensitive proteins (LSPs)''' that dimerize upon a light signal. The Che protein is fused to one of the LSPs, while the other LSP is fused to a so called '''anchor protein'''. Dimerization of the LSPs results in spatial re-localization of the Che protein, which, as a final measurable output, induces an altered ratio between tumbling and directed flagellar movement. Read more about the [[Team:ETHZ_Basel/Biology/Molecular_Mechanism|'''Molecular mechanism''']].
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The core idea of E. lemming is based on the '''spatial localization''' of one of the species of the chemotaxis network, so called ('''Che proteins'''. Through localizing (intracellular anchoring), the effective concentration of the free cytosolic CheY protein is decreased at its site of action, greatly affecting the activity on its downstream partners. Anchoring is achieved with the help of '''light-sensitive proteins (LSPs)''' that dimerize upon a light signal (photodimerization). The Che protein is fused to LSP1, while its binding partner LSP2 is itself fused to a so called '''anchor protein'''. Dimerization of the two LSPs into an LSP1/LSP2 complex, where LSP1 is still bound to CheY), results in spatial re-localization of the Che protein, which, as a final measurable output, induces a change in the ratio between tumbling and directed flagellar movement. Read more about the [[Team:ETHZ_Basel/Biology/Molecular_Mechanism|'''Molecular mechanism''']].
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In the section [[Team:ETHZ_Basel/Biology/Implementation|'''Implementation''']], you find details on the experimental design such as the ideal conditions for the observation of chemotaxis behavior (strain, media, growth temperature, growth phase etc.) and the functionality and expression level testing of the fusion proteins.
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In the section [[Team:ETHZ_Basel/Biology/Implementation|'''Implementation''']], you find details on the experimental design such as the ideal conditions for the observation of chemotaxis behavior (strain, media, growth temperature, growth phase etc.) and the functionality and expression level assays of the fusion proteins.
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For sure, we thought about [[Team:ETHZ_Basel/Biology/Safety|'''Human Practices and Safety''']] during our project. This section summarizes our findings on potential risk and safety issues.
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Of course, we also reflected a lot about [[Team:ETHZ_Basel/Biology/Safety|'''Human Practices and Safety''']] during our project, because knowledge also means responsibility. This section summarizes our findings on potential risks and safety issues and the measures we have taken in order to work as safely as possible..

Revision as of 14:27, 27 October 2010

Biology & Wet Lab: Overview

Molecular mechanism of E. lemming. A light-sensitive dimerizing complex fused to proteins of the chemotaxis pathway at a spatially fixed location is induced by light pulses and therefore localization of the two molecules can be manipulated.

The core idea of E. lemming is based on the spatial localization of one of the species of the chemotaxis network, so called (Che proteins. Through localizing (intracellular anchoring), the effective concentration of the free cytosolic CheY protein is decreased at its site of action, greatly affecting the activity on its downstream partners. Anchoring is achieved with the help of light-sensitive proteins (LSPs) that dimerize upon a light signal (photodimerization). The Che protein is fused to LSP1, while its binding partner LSP2 is itself fused to a so called anchor protein. Dimerization of the two LSPs into an LSP1/LSP2 complex, where LSP1 is still bound to CheY), results in spatial re-localization of the Che protein, which, as a final measurable output, induces a change in the ratio between tumbling and directed flagellar movement. Read more about the Molecular mechanism.


The fusion proteins were constructed according to the Cloning Strategy BBF RFC28, a method for the combinatorial multi-part assembly based on the type II restriction enzmye AarI.


In the section Implementation, you find details on the experimental design such as the ideal conditions for the observation of chemotaxis behavior (strain, media, growth temperature, growth phase etc.) and the functionality and expression level assays of the fusion proteins.


The Archeal Light Receptor is another approach to implement the light-inducible synthetic network via the fusion of archeal and eubactarial parts.


Of course, we also reflected a lot about Human Practices and Safety during our project, because knowledge also means responsibility. This section summarizes our findings on potential risks and safety issues and the measures we have taken in order to work as safely as possible..