Team:Imperial College London/Temporal Control
From 2009.igem.org
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== Chemical induction == | == Chemical induction == | ||
- | + | From the [https://2009.igem.org/Team:Imperial_College_London/M1/Genetic Module 1 genetic circuit], in the absence of IPTG in the system, the LacI repressor inhibits production of the protein of interest. | |
+ | When IPTG is added in: | ||
+ | [[Image:II09_NoIPTG_yesIPTG.jpg|centre]] | ||
+ | |||
+ | [For more details of the system, click here- (bits of Charles' literature review), includes info on lac operon and how we have modified it] | ||
== Autoinduction == | == Autoinduction == |
Revision as of 20:40, 16 September 2009
Contents |
Introduction
In the E.ncapsulator, temporal control is an integral part of the design. The 3 modules can only perform their function in this system if they have a temporal mechanism triggering them in a sequential manner. We have achieved this using 3 types of control:
- [Chemical induction]: To kickstart protein drug production (Module1).
- [Autoinduction]: To kickstart Encapsulation (Module 2).
- [Thermoinduction]: To kickstart Genomic Deletion. (Module 3).
Chemical induction
From the Module 1 genetic circuit, in the absence of IPTG in the system, the LacI repressor inhibits production of the protein of interest. When IPTG is added in:
[For more details of the system, click here- (bits of Charles' literature review), includes info on lac operon and how we have modified it]
Autoinduction
b
Thermoinduction
c