IGEM:IMPERIAL/2008/New/Growth Curve
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Part of our dry lab team concentrated on modelling the growth curve of ''B. subtilis''. This is important to characterise the chassis; particularly, the growth of ''subtilis'' is a vital parameter for planning experiments for future projects. Characterisation increases the predictability of the growth of B. subtilis by determining, for example, its growth rate and the duration of its distinctive growth phases. In order to model the growth of ''B. subtilis'', the process was broken down into three main steps, where a separate submodel is produced in MATLAB for each step. Each submodel is an ODE model, which can be simulated using MATLAB. The variables in each submodel can be adjusted according to the boundary conditions (from experimental results).  Part of our dry lab team concentrated on modelling the growth curve of ''B. subtilis''. This is important to characterise the chassis; particularly, the growth of ''subtilis'' is a vital parameter for planning experiments for future projects. Characterisation increases the predictability of the growth of B. subtilis by determining, for example, its growth rate and the duration of its distinctive growth phases. In order to model the growth of ''B. subtilis'', the process was broken down into three main steps, where a separate submodel is produced in MATLAB for each step. Each submodel is an ODE model, which can be simulated using MATLAB. The variables in each submodel can be adjusted according to the boundary conditions (from experimental results).  
Revision as of 06:48, 30 September 2008
 
