Team:Baltimore US/Project

From 2010.igem.org

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''Possible Projects''<br>
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'''Possible Projects'''<br>
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Project: DIY-Gem <br>
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'''Project: DIY-Gem''' <br>
Creating the set of educational tools and learning resources to allow comprehension and accessibility to the core techniques associated with Synthetic Biology. We've discussed creating e.coli that can be added to the bb system that can actually produce the major enzymes used in these techniques so that beginner's can "grow their own", saving the $1 a ul that some of these can cost. We have the sequence for Pol1 (J)
Creating the set of educational tools and learning resources to allow comprehension and accessibility to the core techniques associated with Synthetic Biology. We've discussed creating e.coli that can be added to the bb system that can actually produce the major enzymes used in these techniques so that beginner's can "grow their own", saving the $1 a ul that some of these can cost. We have the sequence for Pol1 (J)
for Taq Aquaticus, and can put it into e. coli, but it contains a Pst1 site dead in the center of it's sequence so we'd have to create a new sequence and test it's viability, prior to formatting it in the bb format. The Pfu polymerase from Pyroclase Fusarium is usually used with BB. The patent on Pol1 has expired. Patents exist on Pst1, none on exist on EcoR1, Xbe and Spe, couldn't find patent or sequence information, need more research. Other implementation of the DIY-Bio structure involves the construction of inexpensive hardware that is utilized in the process of synthetic biology research, i.e. microgram scales, centrifuges, PCR thermocyclers, Gel Electrophoresis kits, Devices for volumetrics, histobots, DNA sequencers/synthesizers and enhanced microscopy equipment. Many of these hw pieces have already been hacked by various groups within the DIY-Bio communities, however our goal would be to create those pieces necessary for us to continue to experiment/collaborate past the end of the iGEM timeframe. <br>
for Taq Aquaticus, and can put it into e. coli, but it contains a Pst1 site dead in the center of it's sequence so we'd have to create a new sequence and test it's viability, prior to formatting it in the bb format. The Pfu polymerase from Pyroclase Fusarium is usually used with BB. The patent on Pol1 has expired. Patents exist on Pst1, none on exist on EcoR1, Xbe and Spe, couldn't find patent or sequence information, need more research. Other implementation of the DIY-Bio structure involves the construction of inexpensive hardware that is utilized in the process of synthetic biology research, i.e. microgram scales, centrifuges, PCR thermocyclers, Gel Electrophoresis kits, Devices for volumetrics, histobots, DNA sequencers/synthesizers and enhanced microscopy equipment. Many of these hw pieces have already been hacked by various groups within the DIY-Bio communities, however our goal would be to create those pieces necessary for us to continue to experiment/collaborate past the end of the iGEM timeframe. <br>
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Project: Hamsterdam <br>
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'''Project: Hamsterdam''' <br>
Inspired by our home cities media presence in "The Wire" and it's long history as the opium den of the eastern sea ports. Team: Baltimore-US has envisioned a longterm project/goal of creating additional biopharmaceuticals. It began with a joke.. could we engineer Coca Coli, using a process like that utilized for Kiesling's project with Artemisinin, could we engineer a e.coli that could
Inspired by our home cities media presence in "The Wire" and it's long history as the opium den of the eastern sea ports. Team: Baltimore-US has envisioned a longterm project/goal of creating additional biopharmaceuticals. It began with a joke.. could we engineer Coca Coli, using a process like that utilized for Kiesling's project with Artemisinin, could we engineer a e.coli that could
produce Cocaine and put an end to the drug war. <br>
produce Cocaine and put an end to the drug war. <br>

Revision as of 01:58, 16 June 2010

The first DIY-Bio Community to secure entrance into the iGEM competition.
File:Baltimore US logo.png
200px

Possible Projects

Project: DIY-Gem
Creating the set of educational tools and learning resources to allow comprehension and accessibility to the core techniques associated with Synthetic Biology. We've discussed creating e.coli that can be added to the bb system that can actually produce the major enzymes used in these techniques so that beginner's can "grow their own", saving the $1 a ul that some of these can cost. We have the sequence for Pol1 (J) for Taq Aquaticus, and can put it into e. coli, but it contains a Pst1 site dead in the center of it's sequence so we'd have to create a new sequence and test it's viability, prior to formatting it in the bb format. The Pfu polymerase from Pyroclase Fusarium is usually used with BB. The patent on Pol1 has expired. Patents exist on Pst1, none on exist on EcoR1, Xbe and Spe, couldn't find patent or sequence information, need more research. Other implementation of the DIY-Bio structure involves the construction of inexpensive hardware that is utilized in the process of synthetic biology research, i.e. microgram scales, centrifuges, PCR thermocyclers, Gel Electrophoresis kits, Devices for volumetrics, histobots, DNA sequencers/synthesizers and enhanced microscopy equipment. Many of these hw pieces have already been hacked by various groups within the DIY-Bio communities, however our goal would be to create those pieces necessary for us to continue to experiment/collaborate past the end of the iGEM timeframe.

Project: Hamsterdam
Inspired by our home cities media presence in "The Wire" and it's long history as the opium den of the eastern sea ports. Team: Baltimore-US has envisioned a longterm project/goal of creating additional biopharmaceuticals. It began with a joke.. could we engineer Coca Coli, using a process like that utilized for Kiesling's project with Artemisinin, could we engineer a e.coli that could produce Cocaine and put an end to the drug war.
Carrying that logic further it was suggested that we could do the same for opium / morphine, putting an end to the funding of afganistani/asian terrorist organizations. Ryan recommended we begin by attempting contact of Alexander Shulgin, creator of MDMA, one of the world's leading experts on the biomolecular construction of chemicals.
Steve also suggested creating a biomachine/circuit that could be implanted for homeostatic release within the body. Tom reminded him that too much opiate could stop a heart. Ryan suggested we could look directly at the gene sequences used to make the pre-cursors (that make it through the brain barrier), L-Dopa, Serotonin.. or the human gene sequences that create the various endorffins and neurotransmitters.

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Contents

Overall project

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Project Details

Part 2

The Experiments

Part 3

Results

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