General Overview
A summarizing description of project ELECTRACE
Life Science
Scientific foundations and construction and characterization of BioBricks
Microfluidics
Design and use of microfluidics
Gadget
Working towards a portable biosensor
Parts
New BioBricks submitted to the Registry
Safety
Handling of GMOs and relevant chemicals
Brainstorming
Find out how our iGEM team picked the topic
Notebook
All details on the labwork
Modeling Overview
Discussion of what we did and our results
Curli Module
Modeling of the conductive curli module
EET Module
Modeling of the Extracellular Electron Transport module
Landmine Module
Modeling of the landmine detection module
Interaction with Life Science and Microfluidics
Discussion of the interactions we had with the Life Science and Microfluidics departments of our team
Modeling Methods
Discussion of several methods we used in the modeling of the modules
Code Repository
Here you can download the Matlab scripts we made
Overview
ELECTRACE
Application, potential, advantages and issues
Case study: Landmines
ELECTRACE applied to the detection of landmines
Interviews with stakeholders
Opinions about ELECTRACE and synthetic biology
Outlook
Synbio issues and possible solutions
Outreach
Interaction with the general public
Meet our team
Students and advisors
Attributions
Individual contributions
Acknowledgments
Individuals providing help & advice
Sponsors
Faculties, departments, companies etc. who funded our work
Collaborations
Support of other iGEM teams
Media
Public attention (newspapers, journals, interviews) of our project
Modeling Techniques
Deterministic Modeling Theory
Flux Balance Analysis Theory
Percolation and Graph Theory
Deterministic Model
Flux Balance Analysis
Extracellular Electron Transport in the E. Coli Core Model
Robustness Analysis of the EET Pathway
Phenotypic Phase Planes of the EET Pathway
Flux Variability Analysis
Extracellular Electron Transport in the iJO1366 Model
Conclusions
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