Team:UQ-Australia/Modeling
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|At the completion of the experimental work, we should expect a working clock BioBrick, which should exhibit oscillatory behaviour. We wish to characterise how our clock BioBrick oscillates. | |At the completion of the experimental work, we should expect a working clock BioBrick, which should exhibit oscillatory behaviour. We wish to characterise how our clock BioBrick oscillates. | ||
Of interest is the frequency and regularity at which it oscillates and whether multiple cells containing our BioBrick oscillate in time with each other. | Of interest is the frequency and regularity at which it oscillates and whether multiple cells containing our BioBrick oscillate in time with each other. | ||
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|The modelling will involve the mathematical characterisation of the kinetics and synchronisation of the oscillation of our bacteria. | |The modelling will involve the mathematical characterisation of the kinetics and synchronisation of the oscillation of our bacteria. | ||
The kinetics involve modelling how fast our bacteria cells will oscillate and the shape of their oscillation pattern. | The kinetics involve modelling how fast our bacteria cells will oscillate and the shape of their oscillation pattern. | ||
The synchronisation is to characterise how quickly nearby cells would couple any synchronise their oscillation. | The synchronisation is to characterise how quickly nearby cells would couple any synchronise their oscillation. | ||
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|To give a rough idea of how our cells should be oscillating, mathematical models were described from literature. These would ideally be compared with experimental characterisation of the oscillation. | |To give a rough idea of how our cells should be oscillating, mathematical models were described from literature. These would ideally be compared with experimental characterisation of the oscillation. | ||
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== <span style="color:#558822">Kinetics</span> == | == <span style="color:#558822">Kinetics</span> == | ||
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- | + | |width="125" |[[File:Synchronisation viewpdf UQ.png|125x125px|link=https://static.igem.org/mediawiki/2011/f/f4/UQ-Auatralia-Modelling.pdf]] | |
- | + | | A mathematical investigation into the behaviour of a genetic circuit can give predictions into the behaviour the circuit. Each reaction within a genetic circuit can be modelled as a first order kinetic law. Here we analyse the proposed circuit replicating the behaviour of a biological clock for the UQ-Australia iGEM 2011 entry. Open-source software [http://www.celldesigner.org CellDesigner] was used to perform the simulation of the kinetic laws over time. Although it was expected that there would be some oscillation behaviour, our simulations have shown that there would be no oscillations. However, if the physical genetic circuit did display oscillatory behaviour, then literature values taken would then need to be revised for the model. | |
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+ | [https://static.igem.org/mediawiki/2011/f/f4/UQ-Auatralia-Modelling.pdf '''Modelling of kinetics for circuit'''] | ||
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+ | [https://static.igem.org/mediawiki/2011/2/2d/UQ-Australia-circuit.zip '''Download our CellDesigner file to play with our circuit!'''] | ||
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+ | [http://www.celldesigner.org/ Here is the CellDesigner webpage] | ||
+ | |} | ||
== <span style="color:#558822">Synchronisation</span> == | == <span style="color:#558822">Synchronisation</span> == | ||
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| Many teams have been using microscopy during their experiments. Although these (thankfully!) may not directly be any of the submitted BioBricks, microscopy has become important in experimental biology. [https://static.igem.org/mediawiki/2011/a/a9/JamBen42013532_FormattedPopSciArticle_forUQ-iGEM.pdf '''Here'''] we shall present an enlightening introduction the microscopy, tangible for old and new iGEMers! | | Many teams have been using microscopy during their experiments. Although these (thankfully!) may not directly be any of the submitted BioBricks, microscopy has become important in experimental biology. [https://static.igem.org/mediawiki/2011/a/a9/JamBen42013532_FormattedPopSciArticle_forUQ-iGEM.pdf '''Here'''] we shall present an enlightening introduction the microscopy, tangible for old and new iGEMers! | ||
- | [https://static.igem.org/mediawiki/2011/4/4f/Fields_report_for_UQ_iGEM.pdf '''Putting the | + | [https://static.igem.org/mediawiki/2011/4/4f/Fields_report_for_UQ_iGEM.pdf '''Putting the lumen in luminescence'''] |
|width="125" |[[File:Microscopy viewpdf UQ.png|125x125px|link=https://static.igem.org/mediawiki/2011/a/a9/JamBen42013532_FormattedPopSciArticle_forUQ-iGEM.pdf]] | |width="125" |[[File:Microscopy viewpdf UQ.png|125x125px|link=https://static.igem.org/mediawiki/2011/a/a9/JamBen42013532_FormattedPopSciArticle_forUQ-iGEM.pdf]] | ||
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[https://static.igem.org/mediawiki/2011/4/4f/Fields_report_for_UQ_iGEM.pdf '''Resolving power in microscopy'''] | [https://static.igem.org/mediawiki/2011/4/4f/Fields_report_for_UQ_iGEM.pdf '''Resolving power in microscopy'''] | ||
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+ | For your enjoyment, MATLAB code used in this discussion is included in the appendix of the report. | ||
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Although these articles do not directly contribute towards a new BioBrick part (yet!), we hope this investigation settles any curiosities regarding focused light in microscopes and perhaps inspires iGEMers to further consider the inner working of the apparatus on which they can depend quite heavily. | Although these articles do not directly contribute towards a new BioBrick part (yet!), we hope this investigation settles any curiosities regarding focused light in microscopes and perhaps inspires iGEMers to further consider the inner working of the apparatus on which they can depend quite heavily. |
Latest revision as of 01:26, 6 October 2011