Team:UNAM Genomics Mexico/Modeling/OR

From 2012.igem.org

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Ok, this is the good one. For the final step, we had two pretty AND gates that had a special response for certain states of their inputs, but we wanted more. So, how could we make a bigger circuit? The trivial answer, obviously, was to wire everything together under a NEW gate!  The new one makes an OR operation, where its inputs are the previous gates' outputs. Both outputs, P4 and LasR are reported activators for the promoters A3 and LasB. In that way, our OR consists of two independent promoters that have the same reporter protein downstream: GFP. <br />
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Ok, this is the good one. For the final step, we had two pretty AND gates that had a special response for certain states of their inputs, but we wanted more. So, how could we make a bigger circuit? The trivial answer, obviously, was to wire everything together under a NEW gate!  The new one makes an OR operation, where its inputs are the previous gates' outputs. Both outputs, P4 and LasR, are reported activators for promoters A3 and LasB respectively. In that way, our OR consists of two independent promoters that have the same reporter protein downstream: GFP. <br />
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According to both approaches, Stochastic and deterministic, the Or behaves as an OR. [https://static.igem.org/mediawiki/2012/a/a5/OR.txt Kappa OR File]<br />
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For the deterministic approach, we decided to use the Hill function designed for activators. Being additive events, the production of the reporter mRNA will be the sum of the productions by each promoter, as defined by their respective affinities and intracellular concentrations [2]. <br />
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For the deterministic approach, we decided to use the Hill function designed for activators. Being additive events, the production of reporter mRNA will be the sum of the productions by each promoter, as defined by their respective affinities and intracellular concentrations. Phi and Omega are the cooperative binding rate given by the activator [2]. <br />
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Now, about the behavior of this construction predicted by our model, assuming that both transcription factors had the same affinity, both the stochastic and the deterministic approach show us that its behavior is not dislike an Or gate. As seen from the perspective of the transcription factors, activation occurs when any of them is in high concentrations in the system. As the OR is activated by two different promoters, activation does seem to reach its summit when there are both activators in the system, while the genes are only basally expressed when no activator is present. <br />
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Now, about the behavior of this construction predicted by our model, assuming that both transcription factors had the same affinity, both the stochastic and the deterministic approach show us that its behavior is not unlike an Or gate. As seen from the perspective of the transcription factors, activation occurs when any of them is at high concentration in the system. As the OR is activated by two different promoters, activation does seem to reach its summit when there are both activators in the system, while the genes are only basally expressed when no activator is present. <br />
::::::::::::::::::::::::::::::::::::::[[File:UnamgenomcisUp.png|right | 120px |link=Team:UNAM_Genomics_Mexico/Modeling/OR#OR_Results]]
::::::::::::::::::::::::::::::::::::::[[File:UnamgenomcisUp.png|right | 120px |link=Team:UNAM_Genomics_Mexico/Modeling/OR#OR_Results]]

Latest revision as of 04:00, 27 October 2012


UNAM-Genomics_Mexico


OR Results


OR gate


Ok, this is the good one. For the final step, we had two pretty AND gates that had a special response for certain states of their inputs, but we wanted more. So, how could we make a bigger circuit? The trivial answer, obviously, was to wire everything together under a NEW gate! The new one makes an OR operation, where its inputs are the previous gates' outputs. Both outputs, P4 and LasR, are reported activators for promoters A3 and LasB respectively. In that way, our OR consists of two independent promoters that have the same reporter protein downstream: GFP.


UGM OR.png




UGM tv or.png




According to both approaches, Stochastic and deterministic, the Or behaves as an OR. Kappa OR File


P41000 las0.png


P410 las1000.png




Ep41000 las1000.png




UNAM GENOMICS MEXICO OR 3D 3D.png




For the deterministic approach, we decided to use the Hill function designed for activators. Being additive events, the production of reporter mRNA will be the sum of the productions by each promoter, as defined by their respective affinities and intracellular concentrations. Phi and Omega are the cooperative binding rate given by the activator [2].


UGM O10.png



Now, about the behavior of this construction predicted by our model, assuming that both transcription factors had the same affinity, both the stochastic and the deterministic approach show us that its behavior is not unlike an Or gate. As seen from the perspective of the transcription factors, activation occurs when any of them is at high concentration in the system. As the OR is activated by two different promoters, activation does seem to reach its summit when there are both activators in the system, while the genes are only basally expressed when no activator is present.

UnamgenomcisUp.png

References:
[1] Buchler et al. On schemes of combinatorial transcription logic print April 17, 2003, doi: 10.1073/pnas.0930314100 PNAS April 29, 2003 vol. 100 no. 9 5136-5141

[2]Bintu L, Buchler N, Garcia H G, Gerland U, Hwa T. Transcriptional regulation by the numbers: Models. Genetics & Development. Opinion. 2005. 15(2):116-124.DOI:10.1016