Team:Imperial College London/Temporal Control
From 2009.igem.org
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== Autoinduction == | == Autoinduction == | ||
The CRP glucose repressible promoter <!--add in a link of some sort--> triggers the encapuslation phase. | The CRP glucose repressible promoter <!--add in a link of some sort--> triggers the encapuslation phase. | ||
- | *When levels of <b>glucose</b> in the medium are <b>high</b>, encapsulation is <b>repressed</b> | + | *When levels of <b>glucose</b> in the medium are <b>high</b>, <b>cAMP</b> levels are <b>low</b> and encapsulation is <b>repressed</b> |
- | *When the levels of <b>glucose</b> in the medium are <b> | + | *When the levels of <b>glucose</b> in the medium are <b>low</b>, <b>cAMP</b> levels are <b>high</b> and encapsulation is <b>induced</b>. |
[[Image:II09_encapsulate_noencapsulate.jpg|400px|centre]] | [[Image:II09_encapsulate_noencapsulate.jpg|400px|centre]] |
Revision as of 09:46, 17 September 2009
Contents |
Temporal Control
The figure above depicts temporal control in relation to Module 1, Module 2, and Module 3 with expected changes in OD, carbon source concentration, RFP and GFP (LINK TO ASSAYS/TESTING CONSTRUCTS).
In The E.ncapsulator, temporal control is an integral part of the design. The 3 modules can only perform their function successfully in the system if they have a temporal mechanism triggering them in a sequential manner. We have achieved this using 3 types of control:
- Chemical induction starts protein drug production.
- Autoinduction starts encapsulation.
- Thermoinduction starts genomic deletion.
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 we start the production of the drug of interest:
Autoinduction
The CRP glucose repressible promoter triggers the encapuslation phase.
- When levels of glucose in the medium are high, cAMP levels are low and encapsulation is repressed
- When the levels of glucose in the medium are low, cAMP levels are high and encapsulation is induced.
Starting the encapsulation and maintaining expression of colanic acid requires energy in the form of carbon sources. Bacteria use up a primary source to grow and trigger encapsulation and a secondary source to maintain the system once the primary source is used up. This phenomenon of switching from a primary source to a secondary source is known as a diauxie.
Encapsulation is induced automatically at point where bacteria switch from the primary source to the secondary source. This is known as autoinduction.
[link to more details]
Thermoinduction
c