From 2006.igem.org
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| | ==Overview== | | ==Overview== |
| - | During MIT's Independent Activity javascript:insertTags('<math>','</math>','Insert formula here'); | + | During MIT's Independent Activity Period in January 2004, teams designed genetic systems to create cellular patterns varying from bull’s-eyes to polka dots and even dynamic designs where cells swim together. From these designs, standard biological parts were designed and synthesized. |
| - | Mathematical formula (LaTeX)Period in January 2004, teams designed genetic systems to create cellular patterns varying from bull’s-eyes to polka dots and even dynamic designs where cells swim together. From these designs, standard biological parts were designed and synthesized.
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| | + | '''Note:'' ''These projects are currently being wikified'' |
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| | + | [[IAP2004:Booperator|The Booperator Project]] |
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| | + | [[IAP2004:Polkadorks|Polkadorks]] |
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| - | == Polkadorks and the ''E. Coli''-brator ==
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| - | [[image:frinksmiling.jpg|right]]
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| - | ''est. January 5, 2004''
| + | [http://iap03.igem.org See IAP links on Parts Registry] |
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| - | === Background ===
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| - | Last year's groups were asked to create systems that blink; this year our job was to create systems that form a spatial design. We, the Polkadorks, chose polkadots for our design and have spent the month of January 2004 working on this system.
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| - | [[image:frinktalking.gif|Drew Endy, our fearless leader]] | + | |
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| - | === Basic Design ===
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| - | [[Image:Intro1-EcolibratorMovie.gif]]
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| - | This animation illustrates our basic system. We start with a collection of engineered e-coli moving randomly in plated media. The bacteria are represented by black dots in the animation. Under control of a stochastic element, a few begin excreting an attractant. These bacteria we will call the sender cells. In the movie we have one sender cell represented by the red dot; the green circle represents the attractant diffusing away from the sender cell.
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| - | Through chemotaxis, a process by which a cell along a chemical gradient swims toward or away from the stimulus (an attractant in this case), nearby bacteria start swimming towards the sender cells. These bacteria we will call the receiver cells. This way, groups begin forming around the original sender cells on the plate.
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| - | All bacteria have been engineered with a quorum sensing mechanism which effectively senses local cell density. In the groups that have formed on our plate, the cell density eventually reaches a certain threshold. The quorum sensing mechanism of the cells then stops secretion of any attractant. The existing attractant then diffuses away. Since there is no more attractant being secreted, the cells will diffuse away and eventually be spread out across the plate once again. Then by the stochastic element a few cells will begin excreting the attractant and the whole process is repeated.
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| - | Basically polkadots will form, diffuse, and form again in random areas on the plate. Our system should thus form time-varying patterns based on local random time-varying symmetry breaking.
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| - | === System Diagram ===
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| - | [[Image:Intro21-SystemDiagram.jpg]]
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| - | == Device Diagram ==
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| | ==IAP 2004 Projects== | | ==IAP 2004 Projects== |
| | Descriptions and schematics can be found [http://iap03.igem.org here] | | Descriptions and schematics can be found [http://iap03.igem.org here] |
Latest revision as of 21:44, 12 April 2006
Overview
During MIT's Independent Activity Period in January 2004, teams designed genetic systems to create cellular patterns varying from bull’s-eyes to polka dots and even dynamic designs where cells swim together. From these designs, standard biological parts were designed and synthesized.
'Note: These projects are currently being wikified
The Booperator Project
Polkadorks
See IAP links on Parts Registry
IAP 2004 Projects
Descriptions and schematics can be found here
