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Team:Imperial College London/M3
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Removal of genetic material by the use of restriction enzymes is important to prevent DNA transfer to unintended targets, creating bacteria for instance with higher survivability or more toxicity. This module is a highly reusable module for any chassis system where the chassis is no longer required and there is a need to remove genetic materials after genes are expressed.<br> | Removal of genetic material by the use of restriction enzymes is important to prevent DNA transfer to unintended targets, creating bacteria for instance with higher survivability or more toxicity. This module is a highly reusable module for any chassis system where the chassis is no longer required and there is a need to remove genetic materials after genes are expressed.<br> | ||
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Under control of a thermoinducible promoter, when the temperature is raised to 42°C, the restriction enzymes DpnII and TaqI are produced. These restriction enzymes cut frequently in the genome, digesting the entirity of the genetic material. Without its genetic material, cell death is also naturally induced. However, restriction enzymes are highly toxic to the cell, where even minute amounts can induce destruction of the genome. Therefore, the native Dam methylation system is used to prevent leaky levels of restriction enzymes from killing the cell prematurely. <br> | Under control of a thermoinducible promoter, when the temperature is raised to 42°C, the restriction enzymes DpnII and TaqI are produced. These restriction enzymes cut frequently in the genome, digesting the entirity of the genetic material. Without its genetic material, cell death is also naturally induced. However, restriction enzymes are highly toxic to the cell, where even minute amounts can induce destruction of the genome. Therefore, the native Dam methylation system is used to prevent leaky levels of restriction enzymes from killing the cell prematurely. <br> | ||
Revision as of 12:19, 16 October 2009
Contents |
Module 3: Genome Deletion
Overview
Module 3 is the final module of the system. The E.ncapsulator has successfully completed its job of drug production and drug packaging. Now, it needs to be prepared to be converted into a safe pill carrying the drug of interest. This is done by inducing cell death and removing all the potentially harmful genetic material.
Reusable module for removal of genetic material
Removal of genetic material by the use of restriction enzymes is important to prevent DNA transfer to unintended targets, creating bacteria for instance with higher survivability or more toxicity. This module is a highly reusable module for any chassis system where the chassis is no longer required and there is a need to remove genetic materials after genes are expressed.
The system
Under control of a thermoinducible promoter, when the temperature is raised to 42°C, the restriction enzymes DpnII and TaqI are produced. These restriction enzymes cut frequently in the genome, digesting the entirity of the genetic material. Without its genetic material, cell death is also naturally induced. However, restriction enzymes are highly toxic to the cell, where even minute amounts can induce destruction of the genome. Therefore, the native Dam methylation system is used to prevent leaky levels of restriction enzymes from killing the cell prematurely.
Project Tour
Module 3 Contents
