Cell Management (activity): Difference between revisions
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captured again to allow another to species to escape. Can you organize the escape from the alien |
captured again to allow another to species to escape. Can you organize the escape from the alien |
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ship and return to Earth? |
ship and return to Earth? |
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This game is based on the mechanisms present in gene regulatory networks, which help a |
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biological cell respond to changes in its environment dynamically. The board is basically a |
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circular bacterial DNA strand, the guards are RNA polymerase, the captives are transcribed RNA |
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sequences which become promoters and repressors for other transcription sites, and escaped |
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captives actually become proteins in the cell. Of course, it all has to be abstracted somewhat to |
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make an interesting puzzle, but I hope it gets across some of the basic concepts of positive and |
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negative feedback loops. More info about gene regulatory networks can be found at |
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http://doegenomestolife.org/science/generegulatorynetwork.shtml |
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http://cnx.rice.edu/content/m12383/latest/ |
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== Instructions == |
== Instructions == |
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prisoners to their hideout location. Keep taking turns until there is one of each captive species in |
prisoners to their hideout location. Keep taking turns until there is one of each captive species in |
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the central Escape Area. |
the central Escape Area. |
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== Contributors == |
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Cell Management being developed at [[http://www.centenary.edu/ Centenary College of Louisiana]] by Mark Goadrich and Nolan Baker. |
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== Dependencies == |
== Dependencies == |
Revision as of 16:41, 23 July 2008
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Background
Aliens have abducted two each of six species from Earth. All are currently held captive on a spaceship returning to the alien home-planet, with each species in a different cell. Your goal is to have one of each type of species escape to the center of the ship. A group of unique individuals, one for each species, will give you the strength you need to overpower the alien guards and release everyone. Not all escape attempts will be successful, and animals might have to be captured again to allow another to species to escape. Can you organize the escape from the alien ship and return to Earth?
This game is based on the mechanisms present in gene regulatory networks, which help a biological cell respond to changes in its environment dynamically. The board is basically a circular bacterial DNA strand, the guards are RNA polymerase, the captives are transcribed RNA sequences which become promoters and repressors for other transcription sites, and escaped captives actually become proteins in the cell. Of course, it all has to be abstracted somewhat to make an interesting puzzle, but I hope it gets across some of the basic concepts of positive and negative feedback loops. More info about gene regulatory networks can be found at http://doegenomestolife.org/science/generegulatorynetwork.shtml http://cnx.rice.edu/content/m12383/latest/
Instructions
Each round, you will choose who will first attract the guards. Guards will start their examinations in that cell, then examine each cell clockwise. When examined, a species could try to escape. The guards will then search the secret hideouts for attempted escapes. After the guards have visited all cells once and exited, you have the choice to return any escaped prisoners to their hideout location. Keep taking turns until there is one of each captive species in the central Escape Area.
Contributors
Cell Management being developed at [Centenary College of Louisiana] by Mark Goadrich and Nolan Baker.
Dependencies
Cell Management is built with Pygame using the OLPCgames wrapper.
To Do List
Cell Management is a long way from finished.
- update graphics to fit the story better - add sound (because what's space without sound) - add ability to save/load games - fix ending - clicking is important, add buttons
Resources
Official Rules - http://www.piecepack.org/rules/CellManagement.pdf