Team:UQ-Australia/Project

From 2011.igem.org

(Difference between revisions)
(Project Details)
Line 682: Line 682:
-
=== <span style="color:#883622">Experimental Work</span> ===
+
=== <span style="color:#D4A017">Experimental Work</span> ===
Outcomes of experimental work are to be recorded here.
Outcomes of experimental work are to be recorded here.
-
=== <span style="color:#883622">Modelling</span> ===
+
=== <span style="color:#D4A017">Modelling</span> ===
Details of this is on the [[Team:UQ-Australia/Modeling|Modelling]] page.
Details of this is on the [[Team:UQ-Australia/Modeling|Modelling]] page.
-
=== <span style="color:#883622">Safety</span> ===
+
=== <span style="color:#D4A017">Safety</span> ===
Details of this is on the [[Team:UQ-Australia/Safety|Safety]] page.
Details of this is on the [[Team:UQ-Australia/Safety|Safety]] page.
-
=== <span style="color:#883622">Human Practices </span>===
+
=== <span style="color:#D4A017">Human Practices </span>===
The Human Practices section is on the [[Team:UQ-Australia/Human_Practices|Human Practices]]
The Human Practices section is on the [[Team:UQ-Australia/Human_Practices|Human Practices]]

Revision as of 06:21, 1 September 2011






Inspired by the circadian clock in humans which regulates a number of very important processes, we are trying to replicate this biological clock in a bacterial system. We are aiming to construct a network of genes that oscillates in a similar fashion to the 24 hour system in humans. If we are successful, we will be able to put different genes into our system so that we can make the bacteria perform a particular process periodically – a simple example of this would be to make them flash on and off consistently.

To achieve this oscillatory behaviour we will utilise a gene network with a series of inducible promoters that generate the production of other activating proteins, all driven by a constitutively active promoter. This promoter features an engineered repression domain (the inhibitor of this promoter being the output of the final step in the network). If everything goes as planned, these linked activations and repression will produce fluctuating levels of the proteins in question, which could then be used to drive our output function (initially just GFP production and a timed fluorescence). Ultimately, we hope our system could be used to drive the timed release of drugs or other biological factors.

File:UQ-Australia team.png
Your team picture
Team Example


Project Details

The project has been split into categories:

  • Development of BioBricks
    • Experimental methods to be fully recorded in the Notebook
  • Modelling of the circuit
    • Modelling of the kinetics of the oscillating cells
    • Modelling of the synchronisation of oscillating cells
  • Thorough evaluation of the safety issues regarding UQ-Autralia's entry in iGEM
  • Human practices
    • Raising awareness of synthetic biology
    • Providing a solution to the patenting issue that iGEM is facing

Together, this forms the UQ-Australia project for the 2011 iGEM.



Experimental Work

Outcomes of experimental work are to be recorded here.

Modelling

Details of this is on the Modelling page.

Safety

Details of this is on the Safety page.


Human Practices

The Human Practices section is on the Human Practices