Team:Imperial College London/Drylab

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=[[Image:II09_DryLabThumb.png|80px]]<font size='5'><b>Dry Lab Hub</b></font>=
=[[Image:II09_DryLabThumb.png|80px]]<font size='5'><b>Dry Lab Hub</b></font>=
Welcome to the Dry Lab!
Welcome to the Dry Lab!
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The goal of the Dry Lab has been to support the Wet Lab by answering questions of interest. The primary function of the models is to instruct the data analysis once results are gathered from the lab.
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Conclusions from the models aim to provide the team with a functional understanding of the system as well as design considerations that should be addressed in the genetic constructs. We have implemented several  models, explaining the behaviour of different parts of the system. Below is a summary:<br>
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The goal of the Dry Lab has been to support the Wet Lab by answering questions of interest.
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--[[User:Mabult|Mabult]] 17:05, 17 October 2009 (UTC) Do not forget that your models instruct the data analysis- it is actually their primary function-->
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Conclusions from the models aim to provide the team with a functional understanding of the system as well as design considerations that should be addressed in the genetic constructs.We have implemented several  models, explaining the behaviour of different parts of the system. Below is a summary of the models:
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[[Image:II09_drylabhub2.png|720px]]
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*<b>Autoinduction:</b>  
*<b>Autoinduction:</b>  
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** Genome deletion is induced by an increase in temperature. Different temperatures relate to different restriction enzyme concentrations, so here we explore the possible effects of temperature on cell death.  
** Genome deletion is induced by an increase in temperature. Different temperatures relate to different restriction enzyme concentrations, so here we explore the possible effects of temperature on cell death.  
** The goal of the model is to explore a possible relationship between live cells and dead cells over time at different culture temperatures.  
** The goal of the model is to explore a possible relationship between live cells and dead cells over time at different culture temperatures.  
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Modelling in this project has been important in defining the "Engineering constraints" of the project, and in particular, we have focused in quantifiying the [https://2009.igem.org/Team:Imperial_College_London/Temporal_Control temporal control] aspects of our system. This page provides an overview of the models we have implemented.  
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Modelling in this project has been important in defining the "Engineering constraints" of the project, and in particular, we have focused on quantifiying the [https://2009.igem.org/Team:Imperial_College_London/Temporal_Control temporal control].
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Click on the links to find out more!
Click on the links to find out more!

Latest revision as of 02:58, 22 October 2009

II09 DryLabThumb.pngDry Lab Hub

Welcome to the Dry Lab!
The goal of the Dry Lab has been to support the Wet Lab by answering questions of interest. The primary function of the models is to instruct the data analysis once results are gathered from the lab. Conclusions from the models aim to provide the team with a functional understanding of the system as well as design considerations that should be addressed in the genetic constructs. We have implemented several models, explaining the behaviour of different parts of the system. Below is a summary:

II09 drylabhub2.png


Modelling in this project has been important in defining the "Engineering constraints" of the project, and in particular, we have focused on quantifiying the temporal control.



Click on the links to find out more!

 
Autoinduction
Protein Production
Drug Kinetics Genome Deletion



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