Team:TU Delft/Modeling

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==In Silico==
==In Silico==
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[[Image:TU_Delft_in_silico.png|right|400px]]
Seeing as our team consists of a number of members who know their way around computers, quite some in silico work has  
Seeing as our team consists of a number of members who know their way around computers, quite some in silico work has  
been perfomed. Before adding DNA to a micro organism, we designed the theoretical system to find out whether a system is viable or not. [[Team:TU_Delft/Modeling/MFA|Metabolic flux analyses]] were calculated to find the co-factor balance. In addition we made a model of the [[Team:TU_Delft/Modeling/HC_regulation|hydrocarbon regulated expression system]] to simulate this regulation mechanism.  
been perfomed. Before adding DNA to a micro organism, we designed the theoretical system to find out whether a system is viable or not. [[Team:TU_Delft/Modeling/MFA|Metabolic flux analyses]] were calculated to find the co-factor balance. In addition we made a model of the [[Team:TU_Delft/Modeling/HC_regulation|hydrocarbon regulated expression system]] to simulate this regulation mechanism.  

Revision as of 17:08, 19 October 2010

In Silico

TU Delft in silico.png

Seeing as our team consists of a number of members who know their way around computers, quite some in silico work has been perfomed. Before adding DNA to a micro organism, we designed the theoretical system to find out whether a system is viable or not. Metabolic flux analyses were calculated to find the co-factor balance. In addition we made a model of the hydrocarbon regulated expression system to simulate this regulation mechanism. To give some clues about how our BioBricks are working in their new E. coli proteome, we developed an application that maps interactions from native proteomes to E.coli proteome. This is not all we did with a computer. As you might have noticed, we had some fun designing our wiki, want to know how we did it? You can find out here

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