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Team:Imperial College London/M3/Genetic
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==Elaboration== | ==Elaboration== | ||
| - | This is the genetic circuit for genome deletion (Module 3). | + | This is the genetic circuit for thermally induced genome deletion (Module 3). |
| - | + | This construct has two components. The first component involves genes controlling the production of restriction enzymes DpnII and TaqI. Furthermore, protein cI would also be produced. The second component will ensure the production of Dam methylase. | |
| + | |||
| + | Protein production and encapsulation occurs 28°C. In addition, protein cI is produced constitutively at 28°C. It represses the lambda cI promoter, hence only basal amounts restriction enzymes will be produced. At the same time, the production of Dam methylase will protect the E. coli DNA by methylation, and hence prevent cell death. Genome deletion would not occur. | ||
| + | |||
| + | When sufficient protein is being produced and encapsulation is complete, temperatures will be increased to 42°C. This results in the de-repression of the pLambda promoter and restriction enzymes DpnII and TaqI will be produced. Dam methylase will not be able to protect the E. coli DNA from being cut and genome deletion would occur. This causes cell death and destruction of possible pathogenicity from E. coli. | ||
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Revision as of 16:31, 10 September 2009
Contents |
M3 Genetic Circuit
Video
Genetic Circuit
Elaboration
This is the genetic circuit for thermally induced genome deletion (Module 3).
This construct has two components. The first component involves genes controlling the production of restriction enzymes DpnII and TaqI. Furthermore, protein cI would also be produced. The second component will ensure the production of Dam methylase.
Protein production and encapsulation occurs 28°C. In addition, protein cI is produced constitutively at 28°C. It represses the lambda cI promoter, hence only basal amounts restriction enzymes will be produced. At the same time, the production of Dam methylase will protect the E. coli DNA by methylation, and hence prevent cell death. Genome deletion would not occur.
When sufficient protein is being produced and encapsulation is complete, temperatures will be increased to 42°C. This results in the de-repression of the pLambda promoter and restriction enzymes DpnII and TaqI will be produced. Dam methylase will not be able to protect the E. coli DNA from being cut and genome deletion would occur. This causes cell death and destruction of possible pathogenicity from E. coli.
