Team:ETH Zurich
From 2013.igem.org
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<li><b><br>Hydrolase Reactions</b><br><br> We use a set of orthogonal hydrolases as our reporter system. The player adds a multi-substrate to the colony and the hydrolase reacts within minutes to produce a visible color. Each color represents the proximity of the mines close to the played colony. The set of hydrolases are alkaline phosphatase (<i>phoA</i>), β-galactosidase (<i>lacZ</i>), acetylesterase (<i>aes</i>), β-N-Acetylglucosaminidase (<i>nagZ</i>) and β-glucuronidase (<i>gusA</i>). They react with the specific substrates in the multi-substrate to achieve fast and colorful outputs with each color indicative of the next logical move for the player. | <li><b><br>Hydrolase Reactions</b><br><br> We use a set of orthogonal hydrolases as our reporter system. The player adds a multi-substrate to the colony and the hydrolase reacts within minutes to produce a visible color. Each color represents the proximity of the mines close to the played colony. The set of hydrolases are alkaline phosphatase (<i>phoA</i>), β-galactosidase (<i>lacZ</i>), acetylesterase (<i>aes</i>), β-N-Acetylglucosaminidase (<i>nagZ</i>) and β-glucuronidase (<i>gusA</i>). They react with the specific substrates in the multi-substrate to achieve fast and colorful outputs with each color indicative of the next logical move for the player. | ||
- | <li><b><br>From Minesweeper to Colisweeper </b><br><br> Mines secrete the signaling molecule OHHL whereas non-mines process the signal after diffusion of OHHL through the agar. High-pass filters were constructed to control the expression of different orthogonal hydrolases in non-mines. These were tuned to express hydrolases depending on the concentration of the OHHL molecules from the surrounding mines. The constant expression of ''lacZ'' enables the flagging of both mines and non mine colonies | + | <li><b><br>From Minesweeper to Colisweeper </b><br><br> Mines secrete the signaling molecule OHHL whereas non-mines process the signal after diffusion of OHHL through the agar. High-pass filters were constructed to control the expression of different orthogonal hydrolases in non-mines. These were tuned to express hydrolases depending on the concentration of the OHHL molecules from the surrounding mines. The colors yellow, salmon and magenta corresponds to zero, one and two mines around a colony. Additionally, the mines express their own hydrolase which when added with the multi-substrate gives blue color. The constant expression of ''lacZ'' enables the flagging of both mines and non mine colonies turning the colonies green. |
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<li><b><br>The Model</b><br><br>As our system is based on sensing the OHHL concentration, the diffusion of the signalling molecule in the mine field is a vital part of the model; we carried out simulations to determine time and distance scales. In addition to OHHL diffusion, we modelled synthesis, regulation and degradation reactions of the molecules involved in our genetic circuits. To account for both processes: diffusion and reactions, we developed a spatio-temporal model in two dimensions comprised by three modules: mines, receivers, and the agar plate. To solve the system of partial differential equations (PDEs) we used finite element methods. The information from the model was used to validate and improve our system. | <li><b><br>The Model</b><br><br>As our system is based on sensing the OHHL concentration, the diffusion of the signalling molecule in the mine field is a vital part of the model; we carried out simulations to determine time and distance scales. In addition to OHHL diffusion, we modelled synthesis, regulation and degradation reactions of the molecules involved in our genetic circuits. To account for both processes: diffusion and reactions, we developed a spatio-temporal model in two dimensions comprised by three modules: mines, receivers, and the agar plate. To solve the system of partial differential equations (PDEs) we used finite element methods. The information from the model was used to validate and improve our system. |
Revision as of 23:16, 4 October 2013