Team:ETH Zurich
From 2013.igem.org
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The computer game consists of a square lattice grid with hidden squares that can be mines or non-mines. The goal of the game is to clear the field without detonating the mines. The identity of a square is revealed by left clicking on it: the digit revealed represent the number of adjacent mines. The player uses this information to decide which square can be a potential mine and flags it. A square can be flagged by a right click. The game is won when all the mines and only the mines are flagged. If a mine is encountered, it is detonated along with all other mines and the game is over. | The computer game consists of a square lattice grid with hidden squares that can be mines or non-mines. The goal of the game is to clear the field without detonating the mines. The identity of a square is revealed by left clicking on it: the digit revealed represent the number of adjacent mines. The player uses this information to decide which square can be a potential mine and flags it. A square can be flagged by a right click. The game is won when all the mines and only the mines are flagged. If a mine is encountered, it is detonated along with all other mines and the game is over. | ||
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- | <li><b><br>Information Processing</b><br><br> Sender cells (mines) express LuxR protein, which catalyzes the production of a small molecule, called AHL. This molecule diffuses through the agar plate and reaches the receiver cells called non-mine colonies. These colonies are designed to distinguish between different concentrations of the signaling molecule AHL and translate this analog information into the expression of different sets of reporters. The continuous signal is digitized through a set of mutated LuxR promoters with different AHL sensitivities acting as highpass filters. | + | <li><b><br>Information Processing</b><br><br> Sender cells (mines) express LuxR protein, which catalyzes the production of a small signalling molecule, called AHL. This molecule diffuses through the agar plate and reaches the receiver cells called non-mine colonies. These colonies are designed to distinguish between different concentrations of the signaling molecule AHL and translate this analog information into the expression of different sets of reporters. The continuous signal is digitized through a set of mutated LuxR promoters with different AHL sensitivities acting as highpass filters. |
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Revision as of 20:54, 26 October 2013