Team:TU-Delft/Timer
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- | A translational timer was added to the total circuit in order to | + | A translational timer was added to the total circuit in order to delay the peptide production, the production of Ulp and the kill switch components. Specifically, the timer gives the time for the peptide to build up in the cell non-toxically, before activation through cleavage, after the <i>S. aureus</i> has been detected. |
After the peptide has been produced, it is activated through the cleavage of the inactivating tag, and the kill switch is turned on in order to lyse the cell. | After the peptide has been produced, it is activated through the cleavage of the inactivating tag, and the kill switch is turned on in order to lyse the cell. |
Revision as of 13:31, 4 October 2013
Timer
A translational timer was added to the total circuit in order to delay the peptide production, the production of Ulp and the kill switch components. Specifically, the timer gives the time for the peptide to build up in the cell non-toxically, before activation through cleavage, after the S. aureus has been detected. After the peptide has been produced, it is activated through the cleavage of the inactivating tag, and the kill switch is turned on in order to lyse the cell.
The timer has two possible states: can be either on or off. In particular,timer is inactivated(off) when there is no S.aureus detected and activated(on) in the opposite case.Two are the main parts of the timer circuit: the pTet promoter and the pcI promoter(Figure 1).
As long as there is no S.aureus, the pTet promoter is on. If pTet promoter is on,then CI is produced and this represses the pcI promoter leading to the ulp activation which cleaves an inactivating tag leading to peptide production(Figure 1).
In case that S.aureus is detected, then the pTet promoter is repressed. The repression of pTet results in the inactivation of cI which then stops repressing pcI. In that way, ulp is activated, the inactivated tag is cleaved and the peptide is produced(Figure 1).
Figure 1: Schematic diagram of the timer(highlighted part)
Troubleshooting of TIMER construct
The Final construct was initially designed to be made by ligating ‘pcI Ulp Lysis device’ behind the construct of ‘pTet cI TT’. But after repeated failure to achieve the ‘pcI Ulp Lysis device’, we realised that the construct could never exists in a cell as the pcI promoter would always be ‘ON’ and the cells will always die, due to the fact that there is no terminator after ‘pcI Ulp’.
Figure 2: pcI Ulp Lysis construct and Final construct
Attempts to get the lysis device behind the above construct was also unsuccessful. This may be due to the promoter pTET being leaky and lysis of cells occurring.
Attempts to put a GFP behind the above construct are in progress, but due to time constraints out of the scope of this project. It may be considered as a future development to the project.