Team:Evry/Inverter

From 2013.igem.org

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<h1>Fur Inverter System</h1>
<h1>Fur Inverter System</h1>
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<div align="center"><img width="100%" src="https://static.igem.org/mediawiki/2013/6/69/InverterwithIron.png"/></div>
 
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<div align="center"><img src="https://static.igem.org/mediawiki/2013/d/d9/Iron-processing.png"></div>
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The second plasmid carries the RFP reporter gene under the control of a lac promoter. We used the already existing PL-LacO-RFP biobrick from the registry (<a href="http://parts.igem.org/Part:BBa_J04450">BBa_J04450</a>).
The second plasmid carries the RFP reporter gene under the control of a lac promoter. We used the already existing PL-LacO-RFP biobrick from the registry (<a href="http://parts.igem.org/Part:BBa_J04450">BBa_J04450</a>).
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With that construct, when Fur binds iron, it represses expression of the LacI repressor which, in turn, permits expression of the reporter gene - as shown in Fig 1. Thus, reporter expression is positively correlated with iron concentration.
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With that construct, when Fur binds iron, it represses expression of the LacI repressor which, in turn, permits expression of the reporter gene. Thus, reporter expression is positively correlated with iron concentration.
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<div align='center'><img src="https://static.igem.org/mediawiki/2013/a/a2/FurInverter.png" width="75%"/></div>
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<h3>Inverter characterisation</h3>
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<b>Fig 1.</b> Iron-responsive genetic inverter. The iron-Fur complex binds to the Fur site, here in the aceB promoter, to repress transcription of the lacI gene. In the absence of LacI, the RFP reporter is expressed.
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<div align="center"><img width="100%" src="https://static.igem.org/mediawiki/2013/6/69/InverterwithIron.png"/></div>
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<h3>Inverter characterisation</h3>
 
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The iron-Fur complex binds to the Fur site, here in the aceB promoter, to repress transcription of the lacI gene. In the absence of LacI, the RFP reporter is expressed.
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Revision as of 22:01, 28 October 2013

Iron coli project

Fur Inverter System



Normally, the Ferric Uptake Regulator (Fur) binds iron to repress transcription of its target genes. However, we needed a system that activates gene expression in response to iron. We thus constructed a "genetic invertor" system that reverses the Fur-regulatory system so that it indirectly activates gene expression in response to iron. This genetic invertor basically consists of a Fur-regulated lacI gene and a lacI regulated gene of interest. For our project, the goal is to cloned as a lacI regulated gene, the enterobactin operon.

Inverter construction

Our inverter system is based on the interaction of two different plasmids. To create a fur inverter that activates expression in response to iron, we first cloned by golden gate assembly the lacI gene under the control of our AceB promoter that we have proved to repress expression of the downstream gene in response of iron (BBa_K1163103).

NAME FIGURE Description

Promoter

Fur-regulated aceB promoter

LacI LVA

LacI repressor

Terminator

transcription stop signal

Plasmid

Backbone with ampicillin resistance

Table 1. Genetic elements used to make an invertor system reversing the Fur-regulatory mecanism to activate gene expression in response to iron

The second plasmid carries the RFP reporter gene under the control of a lac promoter. We used the already existing PL-LacO-RFP biobrick from the registry (BBa_J04450). With that construct, when Fur binds iron, it represses expression of the LacI repressor which, in turn, permits expression of the reporter gene. Thus, reporter expression is positively correlated with iron concentration.

Inverter characterisation

The iron-Fur complex binds to the Fur site, here in the aceB promoter, to repress transcription of the lacI gene. In the absence of LacI, the RFP reporter is expressed.