IGEM:Stanford/2010/Notebook/Brainstorming

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For this week, please take your starred idea(s) and do as much research as possible over the next three days to determine

  1. whether it is feasible,
  2. if there are any parts in the parts library that could potentially be incorporated and
  3. a basic blackbox diagram of "sensors", "reporters", "generators", etc. at the device level. Where you cannot easily build a nice diagram, state it clearly so we are aware of the difficulties you are facing.
  4. Identify the basic project idea (i.e. trash eating bacteria, stress detecting cell, minicell production) and brainstorm a list of other applications for the basic project idea (i.e. a stress detecting cell can be used to monitor orthodontics and bone development).
  5. Make a set of slides for this. You'll be pitching your ideas to a panel of graduate students this week and in coming weeks so please do a good job on this initial pitch.

Media:Brainstorming-Direction-Poll.pdf

Projects

Vesicular Transport (*)

1. Previous Paris Team wanted to engineer superhighways across for communication: could pick up on this project?

2. Work on a project that deals with minicell production, targeting and packaging (possibly talk to Jerome Bonnet?)

3. Possibility of scaling up work done with single molecule transport (talk to Monica Ortiz in Endy's lab?)

Long Distance Communication

1. Discussed the possibility of making vibrating cells


Brain-related projects: Increasing Neuron Efficiency, Myelin regeneration

1. Questions were raised concerning the feasibility of the application

  • Perhaps these neurons would become more susceptible to noise?
  • Could have adverse effects on other neuron functions

2. One possible application would be increasing the firing rate of muscles


Wound Treatment (*)

1. Try and establish a beneficial infection to avoid unwanted infections in the wound

  • Could beneficial bacteria encourage scab formation or skin regrowth?
    • Whats the mechanism of scab formation? What factors are required? - Chris

2. Engineer classes of microbes that prevent the colonization of other microbes

  • Needs to secrete something to kill/repress other bacteria, can't be harmful to host cells

3. Avoid detection by the immune system

  • By what mechanisms do other beneficial E. coli prevent destruction by immune system?
  • Would need a killswitch or some other mechanism to prevent immune resistance from spreading to unwanted bacteria
-Eliminate bacteria's ability to conjugate?
-Have two-step process to assemble cloaking device so that other cells couldn't replicate the device without both parts?

4. Bacteria need to be contained on the wound, cannot spread

  • Link cell lysis response to absence of some substance found only in wound tissue?
    • What substances in wound tissue exist?


Pre-term labor indicator (*)

1. Unique idea and applicable to wide range of fields involving mechanical stress detection (bone regeneration, cell growth, etc.)

2. Downsides: Hard to determine the level of oxytocin - relation to pre-term labor.

3. Liked signal integration scheme in slides

4. First, we may need to determine baseline levels of oxytocin or progesterone - too complex?


Trash-eating bacteria (*)

1. Nice idea with related research being done on campus already: Craig Criddle's lab in Y2E2

2. Expand the ideas so that the bacteria generate something that plants can use later.

Francisco says: Apparently, a lot of work has been done with different types of plastics and bacteria but there are many aspects we can improve.

Some interesting stories and their shortcomings/areas for improvement:

Styrofoam-eating strain of 'Pseudomonas putida' - styrofoam needs to be superheated to form the styrene oil the bacteria actually feeds on - that superheating produces toxic byproducts [1]

Discovery of polystyrene-eating bacteria from mealworm beetles: [2]

'E. coli' that converts plant biomass to biodiesel [3]


Desalination (*)

1. Huge problem, any traction is good

2. Light-powered water purification system is the best scenario

3. Downsides: difficult to pump water across a membrane

4. Possibly use reverse methods to pump everything else (but water) out?

5. Literature reports of bacteria that have water purification properties?


Oil spill clean-up (*)

1. Sequestering oil and easy collection of material is key to a project of this type

2. Possibly form a dialysis-bag like object that collect oil?


Clotting

1. Negative feedback system that shuts down the bacterial clotter

2. Bacteria stay on surface so we don't have to worry about immunogenicity issues

3. Value of creating bacteria if there are already in vitro and cheap ways to make clotting factors
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