BYU iGEM/Notebook/12 January 2011: Difference between revisions
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== | ==<b>12 January 2011</b>== | ||
Continued Brainstorming | <div style="text-align:left"> | ||
===Continued Brainstorming=== | |||
*Caffeine synthesis (Starbacts :) | *Caffeine synthesis (Starbacts :) | ||
*Creating a | *Creating a psychrophile (cold-loving) E. coli (E. skimocoli :) using phychrophilic proteins, chaperonins and UCP1 | ||
*Pathogenic plasmid-sharing bacteria (shares lactase-encoding plasmid with other flora in gut) | *Pathogenic plasmid-sharing bacteria (shares lactase-encoding plasmid with other flora in gut) | ||
*Fabric (long bacteria that interlace ... create polymer within cell then allow to die ... when cell dies, long polymers are already interlaced) | *Fabric (long bacteria that interlace ... create polymer within cell then allow to die ... when cell dies, long polymers are already interlaced) | ||
*Paper (decompose plant matter and create pulp that can be made into paper) | *Paper (decompose plant matter and create pulp that can be made into paper) | ||
*Sound detection (TRP proteins, MSCL + MSCS proteins in bacteria) | |||
*Organic nanowires | |||
*Electron sharing between species | |||
*Cell migration | |||
We settled on Cancer detection, when all was said and done... | We settled on Cancer detection, when all was said and done... | ||
Line 23: | Line 28: | ||
Unique parts will include: ROS sensor (fine-tune those existing in nature), Riboswitch sensitive to specific temperature, and multi-input switch (creating our own). | Unique parts will include: ROS sensor (fine-tune those existing in nature), Riboswitch sensitive to specific temperature, and multi-input switch (creating our own). | ||
[http://partsregistry.org/wiki/index.php?title=Part:BBa_K228258 Sample AND switch] | |||
===Pamphlet Design=== | |||
<b>Trifold Pamphlet:</b> | |||
*Who we are | |||
*What is iGEM | |||
*Our Goals within iGEM | |||
*What we need | |||
*How you can help | |||
---- | |||
[[../10_January_2011|Previous]] [[../14_January_2011|Next]] |
Latest revision as of 14:45, 2 February 2011
|
12 January 2011
Continued Brainstorming
- Caffeine synthesis (Starbacts :)
- Creating a psychrophile (cold-loving) E. coli (E. skimocoli :) using phychrophilic proteins, chaperonins and UCP1
- Pathogenic plasmid-sharing bacteria (shares lactase-encoding plasmid with other flora in gut)
- Fabric (long bacteria that interlace ... create polymer within cell then allow to die ... when cell dies, long polymers are already interlaced)
- Paper (decompose plant matter and create pulp that can be made into paper)
- Sound detection (TRP proteins, MSCL + MSCS proteins in bacteria)
- Organic nanowires
- Electron sharing between species
- Cell migration
We settled on Cancer detection, when all was said and done...
Colon Cancer Detection Mechanism Proposals for Continued Research
The idea is to detect various inputs and create unique reporters or levels of reporters according to inputs. To detect colon cancer we would focus on two or more of the following:
- Unique metabolic products (Fermentation - lactic acids)
- Reactive Oxygen Species (ROS)
- Heat Detection (Riboswitch)
- Collagen cutting enzymes (detect the byproducts)
Unique parts will include: ROS sensor (fine-tune those existing in nature), Riboswitch sensitive to specific temperature, and multi-input switch (creating our own).
Pamphlet Design
Trifold Pamphlet:
- Who we are
- What is iGEM
- Our Goals within iGEM
- What we need
- How you can help
[[../10_January_2011|Previous]] [[../14_January_2011|Next]]