Team:ETH Zurich
From 2013.igem.org
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The computer game is played on a square lattice mine field with mines and non-mines. The goal of the game is to clear the field without detonating the mines. By left clicking on each square, the identity of the square is revealed. The reveled digits 1, 2, or 3 represent that there are one, two or three mines adjacent to the clicked square. The player uses this logic to decide which squares are mines and flags it. The mines can be flagged by right clicking on the square. The game is won when all the mines are flagged in the mine field. If a mine is clicked, all the other mines in the mine field are detonated and the game is over. | The computer game is played on a square lattice mine field with mines and non-mines. The goal of the game is to clear the field without detonating the mines. By left clicking on each square, the identity of the square is revealed. The reveled digits 1, 2, or 3 represent that there are one, two or three mines adjacent to the clicked square. The player uses this logic to decide which squares are mines and flags it. The mines can be flagged by right clicking on the square. The game is won when all the mines are flagged in the mine field. If a mine is clicked, all the other mines in the mine field are detonated and the game is over. | ||
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- | <li><b><br>Gameplay</b><br><br> | + | <li><b><br>Gameplay</b><br><br> The game Colisweeper is played on an agar petridish with the mine and non-mine colonies plated in a hexagonal lattice mine field. The player has to pipette colorless substrates on a colony. A single move of pipetting would require the player to choose between two colorless substrates. If the multi-susbtrate is added, this will reveal the identity of the colony- as in the number of mines surrounding a non-mine. The single colorless substrate is pipetted onto a colony if the player is certain of a mine colony. Addition of either substrates produces a defined colored product within minutes, allowing identification of the played colony and the number of mines surrounding it.<br> |
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<li><b><br>Information Processing</b><br><br> The non-mine colonies are designed to distinguish between different concentrations of OHHL and translate this information into expression of different sets of hydrolases. They are equipped with mutated LuxR promoters with different OHHL sensitivities which serve as highpass filters. The promoters were created using site-saturation mutagenesis. Through mutation of the LuxR binding sites we were able to tune the promoters to different OHHL affinities. | <li><b><br>Information Processing</b><br><br> The non-mine colonies are designed to distinguish between different concentrations of OHHL and translate this information into expression of different sets of hydrolases. They are equipped with mutated LuxR promoters with different OHHL sensitivities which serve as highpass filters. The promoters were created using site-saturation mutagenesis. Through mutation of the LuxR binding sites we were able to tune the promoters to different OHHL affinities. |
Revision as of 22:31, 4 October 2013