Glasgow/DryResources
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- | + | !align=center|[https://2007.igem.org/Glasgow https://static.igem.org/mediawiki/2007/thumb/c/cc/Uog.jpg/50px-Uog.jpg] || [[Glasgow|<font face=georgia color=#3366CC size=4>Back To <br> Glasgow's <br> Main Page</font>]] || [[Glasgow/Wetlab|<font face=georgia color=#99CCFF size=4>Back To <br> Glasgow's <br> Wetlab Log</font>]] || [[Glasgow/Drylab_full|<font face=georgia color=#3366CC size=4>Back To <br> Glasgow's <br>Drylab Log</font>]] | |
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+ | == '''Minicap Sensitivity Analysis Program Package Abstract'''== | ||
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+ | <br> | ||
+ | The Multi-Parametric and Initial Concentration Sensitivity analysis (Minicap) package is a Matlab function which executes a chosen Dynamic or Stochastic ''System Function'' for a defined number of different variable values across any desired range. The ''subject'' of analysis can either be constants in the user's system eg. parameters in a biological system (MPSA) or initial values of the variables in the user's system eg. initial substrate concentrations (ISCSA). The program will output a plot for each variable showing a comparison of ''acceptable'' and ''unacceptable'' samples across the subject's range with 3 calculated quantitative comparison figures: the ''Correlation Coefficient'', the ''Area'' between acceptable and unacceptable curves, and the ''Standard Deviation of the gradient'' of the acceptable plot. The comparative and intrinsic sensitivity of each chosen subject is thus highlighted. A plot showing the trend of the ''Substrate of Interest'' over time is also displayed. | ||
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+ | As well as this report, the Minicap package contains a User Manual in html, a number of example codes and all the novel (i.e not ode15s) function and text files required to run Minicap. | ||
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+ | To see the full PDF report on Minicap [[https://static.igem.org/mediawiki/2007/f/fb/Minicap.pdf click here]].<br> | ||
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+ | == '''BioBrick library''' == | ||
+ | [http://compbio.dcs.gla.ac.uk/iGEM2007/BioBricklibrary.zip BioBrickLibrary.zip] | ||
+ | An add on Library to Simulink for modelling dynamical biological systems at Brick (Gene) level. Simulink is a program dedicated for dynamical system simulation, however in depth knowledge of dynamics is needed if one is to simulate system mentioned above. The BioBrick® library has all the blocks as well as GUI (Graphical User Interface) needed to do the job without understanding how Simulink works. It uses drag and drop system and shares all constants in Matlab’s m file, so it is easy to store and update them.<br> | ||
+ | BioBrick® library’s main aim is to tell whether and how different topology will influence the output of the system. If actual rate constants are known it can be used instead or as complimentary to ODE modelling. However it must be noted that ODE rate constants ARE NOT TRANFERABLE to BioBrick ® library. | ||
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+ | More information can be found in :[[Media:ElectrEcoBluSimulinkManual.pdf|ElectrEcoBluSimulinkManual]] |
Latest revision as of 14:26, 2 October 2007
https://static.igem.org/mediawiki/2007/thumb/c/cc/Uog.jpg/50px-Uog.jpg | Back To Glasgow's Main Page | Back To Glasgow's Wetlab Log | Back To Glasgow's Drylab Log |
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Minicap Sensitivity Analysis Program Package Abstract
The Multi-Parametric and Initial Concentration Sensitivity analysis (Minicap) package is a Matlab function which executes a chosen Dynamic or Stochastic System Function for a defined number of different variable values across any desired range. The subject of analysis can either be constants in the user's system eg. parameters in a biological system (MPSA) or initial values of the variables in the user's system eg. initial substrate concentrations (ISCSA). The program will output a plot for each variable showing a comparison of acceptable and unacceptable samples across the subject's range with 3 calculated quantitative comparison figures: the Correlation Coefficient, the Area between acceptable and unacceptable curves, and the Standard Deviation of the gradient of the acceptable plot. The comparative and intrinsic sensitivity of each chosen subject is thus highlighted. A plot showing the trend of the Substrate of Interest over time is also displayed.
As well as this report, the Minicap package contains a User Manual in html, a number of example codes and all the novel (i.e not ode15s) function and text files required to run Minicap.
To see the full PDF report on Minicap [click here].
BioBrick library
[http://compbio.dcs.gla.ac.uk/iGEM2007/BioBricklibrary.zip BioBrickLibrary.zip]
An add on Library to Simulink for modelling dynamical biological systems at Brick (Gene) level. Simulink is a program dedicated for dynamical system simulation, however in depth knowledge of dynamics is needed if one is to simulate system mentioned above. The BioBrick® library has all the blocks as well as GUI (Graphical User Interface) needed to do the job without understanding how Simulink works. It uses drag and drop system and shares all constants in Matlab’s m file, so it is easy to store and update them.
BioBrick® library’s main aim is to tell whether and how different topology will influence the output of the system. If actual rate constants are known it can be used instead or as complimentary to ODE modelling. However it must be noted that ODE rate constants ARE NOT TRANFERABLE to BioBrick ® library.
More information can be found in :ElectrEcoBluSimulinkManual