IGEM:MIT/2007/Updated Ideas: Difference between revisions
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[http://medgadget.com/archives/2006/04/bacterial_glue.html Bacterial Glue Could Become Medical Adhesive (Apr 2006)] | [http://medgadget.com/archives/2006/04/bacterial_glue.html Bacterial Glue Could Become Medical Adhesive (Apr 2006)] | ||
*Water is collected from a river (or other source) into a filtration setup | |||
*Bacteria is added to the water | |||
*The bacteria bind to or take in metals or other pollutants (input 1: detection/uptake of pollutant) | ==Water Decontamination Application Example (Smart Filtration System)== | ||
*Input causes bacteria to be able to bind to the filter material (output 1: stickiness to filter material) | |||
*The water is now pollutant-free | *Forrest: | ||
*The filter can be cleaned by rinsing/soaking it with water while shining light on it (input 2: light) | **Water is collected from a river (or other source) into a filtration setup | ||
*This second input causes the bacteria to unbind from the filter material (output 2: loss of stickiness to filter material) | **Bacteria is added to the water | ||
**The bacteria bind to or take in metals or other pollutants (input 1: detection/uptake of pollutant) | |||
**Input causes bacteria to be able to bind to the filter material (output 1: stickiness to filter material) | |||
**The water is now pollutant-free (can be put back into the river or otherwise used, etc) | |||
**The filter can be cleaned by rinsing/soaking it with water while shining light on it (input 2: light) | |||
**This second input causes the bacteria to unbind from the filter material (output 2: loss of stickiness to filter material) | |||
*Bernice: | |||
**Bacteria lights up when on filter material (perhaps at a certain concentration) | |||
**When filter glows to a certain extent, we know it's time to change the filter | |||
**Forrest: could we just add dye to the bacteria to stain it a certain color? | |||
[http://www.osha.gov/SLTC/metalsheavy/index.html Toxic Metals: Arsenic, Beryllium, Cadmium, Hexavalent Chronium, Lead, Mercury] | [http://www.osha.gov/SLTC/metalsheavy/index.html Toxic Metals: Arsenic, Beryllium, Cadmium, Hexavalent Chronium, Lead, Mercury] | ||
[http://pages.prodigy.net/naturedoctor/metals.html Toxic Metal Exposure] | |||
[http://www.epa.qld.gov.au/environmental_management/air/air_quality_monitoring/air_pollutants/organic_pollutants/ Organic pollutants: Benzene, toluene, xylene, formaldehyde] | |||
[http://en.wikipedia.org/wiki/Persistent_organic_pollutant Persistent organic pollutants (POPs)] | |||
[http://en.wikipedia.org/wiki/Charles_River#Pollution_and_remediation_efforts Charles River remediation efforts] | [http://en.wikipedia.org/wiki/Charles_River#Pollution_and_remediation_efforts Charles River remediation efforts] | ||
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*[http://microbewiki.kenyon.edu/index.php/Geobacter Geobacter bacterium has environmental restorative capabilities] | *[http://microbewiki.kenyon.edu/index.php/Geobacter Geobacter bacterium has environmental restorative capabilities] | ||
== Photoreceptor Bacteria== | |||
*[http://www.technologyreview.com/Biotech/18436/ E. Coli that derive their energy from light] | |||
*[[Media:liphardt.pdf]] |
Latest revision as of 09:32, 22 June 2007
Estrogen Biosensor
- some articles:
sticky project:
input:
- temperature (cold shock / heat shock promoters)
- light (either via light sensitive transcription/translation or photo-induced chemistry)
- cell growth (stationary phase, log phase)
- cell type (if growing different strains)
- metal ion (metal sensitive promoter)
- estrogen (ER binding domain)
- cre/lox recombination
parts:
- mussel peptide fused to circularly permuted OmpX (surface display protein, see Rice07)
- need tyrosine hydroxylase to convert tyrosine to L-DOPA (hydroxylation)? can also occur non-enzymatically (reversible)
- need tyrosinase to convert L-DOPA to DOPA-quinone (oxidation)? can also occur non-enzymatically (reversible) -- heavy metal ions (like copper) can catalyze...
- polystyrene peptide fused to OmpX
output:
- stick to specific surface (plastic, polystyrene, etc)
- stick nonspecifically (noncovalently) to surface (mussel peptide in reduced DOPA form)
- crosslink and stick (covalently) to surface and each other (mussel peptide in oxidized quinone form)
output apps:
- microbial biofilms/membranes
- bacterial photo-lithography (light-induced glueing)
- population separations
- sensor readout
- "Enhanced Bioaccumulation of Heavy Metal Ions by Bacterial Cells Due to Surface Display of Short Metal Binding Peptides"[4] Check out refs about bacteria that "bioprecipitate" heavy metal ions
articles on heavy metal adhesion:
- Some applications of bacterial glue (from news)
Fiber-Hungry Bacteria Could Form Natural "Bond" With Wood Industry (Jul 2004)
Bacterial Glue Could Become Medical Adhesive (Apr 2006)
Water Decontamination Application Example (Smart Filtration System)
- Forrest:
- Water is collected from a river (or other source) into a filtration setup
- Bacteria is added to the water
- The bacteria bind to or take in metals or other pollutants (input 1: detection/uptake of pollutant)
- Input causes bacteria to be able to bind to the filter material (output 1: stickiness to filter material)
- The water is now pollutant-free (can be put back into the river or otherwise used, etc)
- The filter can be cleaned by rinsing/soaking it with water while shining light on it (input 2: light)
- This second input causes the bacteria to unbind from the filter material (output 2: loss of stickiness to filter material)
- Bernice:
- Bacteria lights up when on filter material (perhaps at a certain concentration)
- When filter glows to a certain extent, we know it's time to change the filter
- Forrest: could we just add dye to the bacteria to stain it a certain color?
Toxic Metals: Arsenic, Beryllium, Cadmium, Hexavalent Chronium, Lead, Mercury
Organic pollutants: Benzene, toluene, xylene, formaldehyde
Persistent organic pollutants (POPs)
Charles River remediation efforts
Group eyes lawsuit over Charles River pollution
Organic Compounds in the Charles River