Team:TU Delft/Brainstorming
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Revision as of 13:26, 12 July 2010
Brainstorming
Brainstorming method
We have tried to set up our brainstorming sessions in such a way that creativity was stimulated and no important areas where missed:
- First we enumerated problems which might be solvable by synthetic biology, then we gathered as many ways to solve them as possible. It's important to allow any idea to be mentioned here, without any cricital judging of team members yet.
- In later rounds, we voted on which ideas to work out, split up in teams and assessed the ideas in terms of feasibility, cost, coolness and how useful they could be for synthetic biology.
- We ended with 3 detailed project ideas and voted on them, and oil degradation was chosen!
Ideas
This is still work in progress...
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Bacterial buffers
Yeast/bacteria that resist change in their environment (such as pH, temperature, pressure; looking at extremophiles) Possibilities:
- Temperature could be difficult, because we would have to change the temperature externally. Cooling down of an organism can have allot of problems.
- Metabolite production for endothermic reactions extracellular
- Antifreeze proteins (bind to ice)
- pH; this has never been done before
- Metal sequestering
- Many different biobricks; differentiation into different possible effects.
- Using characteristics of extremophiles
Bacterial eye
Motility in yeast
- Would mean that you have to stir less hard in a fermentor (less cell death)
- Maybe yeast cell could move towards food when it has a flagellum, or would it just randomly move around?
Plastic soup in ocean
Substrate level measurement
Bacterial solar clock
Circadian clock/rhythm
Biofims / clusters / granules of bacteria
Yeast mating factors
Strain wars
Biological random generator
Bacterial battery
Riboswitches
Calcium removal from water
Algae bloom
Sea water desalination
Polymer production
Cloning tool
Hydrogen sulfide removal
Removal of Indool (toilet odor)
Bacteria that can melt ice on roads/ train rails
Trash color coding
Biological filter
Lamp of bacteria
Diagnostic Gas detection
Remove/detect medicines in (waste) water
Fire retarders
Asbestos
Sensor for allergens
Mutagenic compounds/radiation detection
Detect different wavelengths
Parasites/mosquitoes
Mold detection (indoor) /prevention
Skin tanner/pigment producer
Hair growth
Bodily odors
Cortisol (stress hormone) sensor
Heart attack prediction
Teeth plaque
Vaccination
Bacteria that can form blood clots
Delivery mechanism for MOs to your gut
Blood group detection
Appetite inhibitor
Polymer production
Biomass concentration sensor
Cell differentiation
Hugo's Risk Scale
Our own standard for project risk assessment. Risk is represented with a value from 0 (no risk) to 10 (very risky)
- 0: Lac operon (or other piece of cake) + our biobrick
- 1: Less than 5 genes or biobricks (copy-paste) + our biobrick
- 2: Less than 10 genes or biobricks (copy-paste) + our biobrick
- 3: Biobrick engineering <5, improvement of things already done
- 4: Multi biobrick engineering >5, improvement of things already done
- 5: Site directed mutagenesis of several genes, results unknown a priori
- 6: Evolutionary engineering involved = sequencing
- 7: Protein engineering involved, results unknown a priori
- 8: A lot of genes and/or biobricks (>20), known genes in other species and characterized. Stress, social friction
- 9: A lot of genes and/or biobricks (>20), Known genes in other species, not fully characterized. Start a project one-eyed = stress, social friction, high chances of collapse
- 10: A lot of genes (>20), Unknown genes= characterization + sequencing + cloning. Start a project from nothing or partially blind, team-member losses + obituraries. Good side: paper in Nature or Nobel