Team:ETH Zurich/Modeling/Download
From 2008.igem.org
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'''Third part code:''' [[Image:ETHZ-iGEM2008-GenomeScaleModel.zip|Genome scale model simulations]], | '''Third part code:''' [[Image:ETHZ-iGEM2008-GenomeScaleModel.zip|Genome scale model simulations]], | ||
- | [[Image:ETHZ-iGEM2008-GenomeStaticAnalysis.zip]] | + | [[Image:ETHZ-iGEM2008-GenomeStaticAnalysis.zip]]<br> and CobraToolbox |
'''Files and descriptions:''' | '''Files and descriptions:''' |
Revision as of 02:29, 30 October 2008
Restriction Enzymes AnalysisDownload file: File:ETHZ-iGEM2008-GenomeStaticAnalysis.zip Compute: This simulation downloads the genome annotation of E.Coli K12 MG1655 from GenBank and restriction enzymes informations from REBASE. For each restriction enzyme, calculates the fragments generated by digesting the chromosome of the strain. It calculates statistics on various aspects, such as probability of having an essential gene per fragment. Output: An array of records, each one containing statistical analysis for one of the restriction enzyme groups. Generates five plots that explain the statistical results. Softwared needed: MATLAB with BioInformatics Toolbox. Third part code: use of standard Bioinformatics Toolbox functions. Files and descriptions:
Author(s): Luca and Georg. Genome-scale ModelDownload file: File:ETHZ-iGEM2008-GenomeScaleModel.zip Compute: This package contains the code for reproducing Figure 2,3,4,5,6 and the code needed to create Figure 7. The package initially loads the genome of E.coli K12 MG1655 from GeneBank and then construct a data structure of gene infos taken from the annotation. It then loads two different genome scale models (included in the zip file) that represent the iAF1260 model thymidine auxotrophic, with an external uptake of thymidine, respectively in minimal and in rich medium. It then perform different simulations based on Flux Balance Analysis, such as testing the effect of thymidine feeding at different chromosomal size. It then simulate the cicles of reduction and selection by considering an in-silico chromosome containing only the gene represented in the genome scale model. For detail please refer to the Genome Scale Model page. Output: The figures reported in the corresponding section. Softwared needed: MATLAB (The Mathworks) with the Bioinformatics Toolbox, the Cobra ToolBox from [http://gcrg.ucsd.edu/| Palsson's Group at UCSD]. Third part code: the iAF1260 in-silico organism from [http://gcrg.ucsd.edu/| Palsson's Group at UCSD]. Files and descriptions:
Author(s): Luca. Chemostat SelectionDownload file: File:ChemostatANDFramework.zip Compute: Growth rate simulation of different genome-reduced mutants in the chemostat Output:
Softwared needed: MATLAB Third part code: File:ETHZ-iGEM2008-GenomeScaleModel.zip,
File:ETHZ-iGEM2008-GenomeStaticAnalysis.zip Files and descriptions:
Switch CircuitDownload file: File:ETHZ-iGEM2008-SwitchCircuitModel.zip Compute: This project-file contains the chemical reactions describing the switch circuit, together with all the kinetic parameters and initial concentrations. It converts the chemical reactions in a set of ordinary differential equations (ODEs) and solves them deterministically or stochastically depending on the selected ODE solver. It then plots the results. Furthermore the sensitivities of the equations can be computed. Output: Plots of the dynamic behavior in time of the switch circuit Softwared needed: MATLAB (The Mathworks) with the Simbiology Toolbox Third part code: uses the Sundials ODE solver and the SSA (standard stochastic algorithm) solver (both included in the Simbiology Toolbox) Files and descriptions:
Author(s): Julia and Nico |