# Team:Carnegie Mellon/Hum-Software

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The software consists of two parts: model implementation and GUI, both written in Matlab. | The software consists of two parts: model implementation and GUI, both written in Matlab. | ||

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- | <h1 id="section1-1"> Model</h1> | + | <h1 id="section1-1"> Physical Model</h1> |

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We implemented the model described <a href="https://2012.igem.org/Team:Carnegie_Mellon/Mod-Matlab"> here</a>. | We implemented the model described <a href="https://2012.igem.org/Team:Carnegie_Mellon/Mod-Matlab"> here</a>. |

## Revision as of 17:34, 2 October 2012

The software consists of two parts: model implementation and GUI, both written in Matlab.

# Physical Model

We implemented the model described here.

# BioBrick Circuit GUI

The interface allows users to enter time-step data (e.g., at what time points should images be captured), which populates two tables, displayed in the GUI. When the user starts the time lapse, a full sweep of measured vs. actual fluorescence is plotted for both mRNA and protein. The GUI then iterates through each time-step, plotting a horizontal line with each sweep plot corresponding to the measured fluorescence at that particular time step. The GUI also populates both tables with the actual values as it moves to each next time step.

Furthermore, the GUI successfully displays a relevant image of the cells at every timestep. Illuminated fields above the plots indicate which type of fluorescence (mRNA or protein) is currently being populated. When the time lapse is finished, a push-button becomes available which, when clicked, opens a dialog-box displaying and transcriptional strength (Ts) and translational efficiency (Tl). This component calls the computational function that implements the model, which computes Ts and Tl.

Finally, a File-Menu dropdown option ('Export') serves to export the table data for both mRNA and protein, as well as the computed values for transcriptional strength and translational efficiency to the local Matlab workspace.