Team:PKU Beijing/Project/Design
From 2009.igem.org
(→OR Gate) |
(→The Logic Design of our Project) |
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==='''The Logic Design of our Project'''=== | ==='''The Logic Design of our Project'''=== | ||
- | + | Firstly, let’s consider the system as a black box. It can receive two inputs, one of which represents the ring stimulus and the other represents food. The output of the black box, correspondingly, represents dog's saliva. The food stimulus alone can cause salivation, while the ring stimulus alone can’t. After expose the system in both ring and food stimuli, the concurrence information of the two stimuli is memorized by the memory module as the core of the black box. Once the memory is generated, ring stimulus alone can also cause salivation. | |
[[Image:PKU_Prelim_1.JPG|500px|center|thumb|fig1. Consider the system as a black box]] | [[Image:PKU_Prelim_1.JPG|500px|center|thumb|fig1. Consider the system as a black box]] | ||
- | + | Secondly, we should pay attention to all the functions of the system. To begin with, the food stimulus alone can lead to salivation because the food signal directly couples to the output module. Then, because when memory is on, ring stimulus can also cause salivation. Thus, we can combine the memory and the ring signal to construct an AND gate, output of the AND Gate would result in salivation. Because the output of the AND Gate and the food signal both leads to salivation, they need to pass an OR Gate before the final salivation output. After that, we need another AND Gate to detect the concurrence of the two signals, and convert it to memory. | |
[[Image:PKU_Logic_Circuit.png|500px|center|thumb|fig2. Logic Circuit of the System]] | [[Image:PKU_Logic_Circuit.png|500px|center|thumb|fig2. Logic Circuit of the System]] | ||
- | As shown above, the modules together | + | As it is shown above, the modules together have composed the functional system. |
For convenience, we call the blue AND Gate "the 1st AND Gate", as it is closer to the inputs of the system, and the other AND Gate is called "the 2nd AND Gate". What we do after designing the logic circuit is to realize each module in biological parts and devices. | For convenience, we call the blue AND Gate "the 1st AND Gate", as it is closer to the inputs of the system, and the other AND Gate is called "the 2nd AND Gate". What we do after designing the logic circuit is to realize each module in biological parts and devices. | ||
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The Bistable Switch in our project is from Peking University iGEM 2007 Team. | The Bistable Switch in our project is from Peking University iGEM 2007 Team. | ||
- | The following is quoted from iGEM 2007 Peking University [ | + | The following is quoted from iGEM 2007 Peking University [https://2007.igem.org/Peking_Push-on-push-off#Constructing_the_Bistable_Switch Project Page]:<br><br> |
''"We modify the wild type PRM/PR region of lambda phage so that it can be repressed by CI and'' | ''"We modify the wild type PRM/PR region of lambda phage so that it can be repressed by CI and'' | ||
''CI434 in opposite transcription direction. As shown in Fig3a, two different promoter designs are'' | ''CI434 in opposite transcription direction. As shown in Fig3a, two different promoter designs are'' |
Latest revision as of 20:35, 21 October 2009
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