Team:Valencia/Modeling

From 2010.igem.org

(Difference between revisions)
(Overview)
(Overview)
Line 11: Line 11:
== Overview ==
== Overview ==
Our aim in this part of the Project is the development of a model which describes how the different phenotypes of yeasts interact with the prion switch dynamics. We have considered very interesting to take advantage of the model proposer by Watson and Lovelock (1983) ''Daisyworld'', and improve the modeling incorporating the dinaric of the prion switch, in order to see how the system behaves and finally how the stabilization of the planetary temperature is made when the system reaches a steady state.
Our aim in this part of the Project is the development of a model which describes how the different phenotypes of yeasts interact with the prion switch dynamics. We have considered very interesting to take advantage of the model proposer by Watson and Lovelock (1983) ''Daisyworld'', and improve the modeling incorporating the dinaric of the prion switch, in order to see how the system behaves and finally how the stabilization of the planetary temperature is made when the system reaches a steady state.
 +
 +
Also we will incorporate in this section, some modeling we had to perform in the previous stage of constructing our Testing Technologies: The Red House, and the Microbial Albedo Recorder.
 +
Because they uses similar temperature sensors and acquisition systems, we are going try to make some modeling concerning those systems.
== Yeastworld ==
== Yeastworld ==

Revision as of 16:03, 25 October 2010


Time goes by... (El tiempo pasa...)

Follow us:
Valencia iGEM Team Facebook Valencia iGEM Team Twitter

Our main sponsors:


Our institutions:


Visitor location:

Mathematical Modeling

Overview

Our aim in this part of the Project is the development of a model which describes how the different phenotypes of yeasts interact with the prion switch dynamics. We have considered very interesting to take advantage of the model proposer by Watson and Lovelock (1983) Daisyworld, and improve the modeling incorporating the dinaric of the prion switch, in order to see how the system behaves and finally how the stabilization of the planetary temperature is made when the system reaches a steady state.

Also we will incorporate in this section, some modeling we had to perform in the previous stage of constructing our Testing Technologies: The Red House, and the Microbial Albedo Recorder. Because they uses similar temperature sensors and acquisition systems, we are going try to make some modeling concerning those systems.

Yeastworld

Red House and White-blue screening models