Team:Newcastle/ Stochastic Switch cloning strategy

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The stochastic brick fragment is to be cloned into the integration vector pGFP-rrnB. This is because plasmid DNA is very unstable in ''bacillus''. From pGFP-rrnb it will integrate into the 168 chromosome at amyE.  
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The stochastic brick fragment is to be cloned into the integration vector pGFP-rrnB. This is because plasmid DNA is very unstable in ''bacillus''. From pGFP-rrnb it will integrate into the 168 chromosome at amyE. We can clone the fragment by cutting pGFP-rrnB with EcoR1 and Nhe1, cutting the fragment with EcoR1 and Nhe1, and ligating.
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[[Image:Team-NewcastleGFP-rrnb.png|center|600px]]
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Revision as of 16:35, 21 October 2009


Stochastic Switch Cloning Strategy

We have the following cloning strategies for testing our construct.

Cloning strategies: Stochastic switch

The following is the clone manager file for our synthesised brick; using clone manager it is easy to simulate digests and ligation reactions, in order to make sure the enzymes you use in the will give the result you expect.

Team NewcastleClone manager Synthesised.png


The stochastic brick fragment is to be cloned into the integration vector pGFP-rrnB. This is because plasmid DNA is very unstable in bacillus. From pGFP-rrnb it will integrate into the 168 chromosome at amyE. We can clone the fragment by cutting pGFP-rrnB with EcoR1 and Nhe1, cutting the fragment with EcoR1 and Nhe1, and ligating.

Team-NewcastleGFP-rrnb.png



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