Team:Tsinghua-A/Project/Motivation
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<h2 id="titleText" style="color:rgb(255,193,121);">Tsinghua-A::Project::<span style="color: rgb(152,107,55); | <h2 id="titleText" style="color:rgb(255,193,121);">Tsinghua-A::Project::<span style="color: rgb(152,107,55); | ||
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widespread in digital logic experiments. Thus we were motivated to apply it in cells and make | widespread in digital logic experiments. Thus we were motivated to apply it in cells and make | ||
logic-flexible, in another word, programmable gene circuits. | logic-flexible, in another word, programmable gene circuits. | ||
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<a href="https://2012.igem.org/Team:Tsinghua-A/Project" style="margin-left:40px;font-size:20px;">Return</a> | <a href="https://2012.igem.org/Team:Tsinghua-A/Project" style="margin-left:40px;font-size:20px;">Return</a> |
Latest revision as of 20:26, 26 October 2012
Tsinghua-A::Project::Abstruct
Background
In the development of biosynthesis, numerous logic pathways have been designed to fullfil certain functions. However, all these imaginative designs lack an important feature ---- once they are designed, no further alter can be done to the unit, which makes it difficult to be applied as fundamental units to large-scale complex systems.
Inspiration
Since many of us frequently deal with complex electric circuits, we get inspiration from an electronic component, PLD, to solve this problem. A PLD or programmable logic device is used to build reconfigurable digital circuits. Unlike a logic gate, which has a fixed function, a PLD has an undefined function at the time of manufacture. Before the PLD can be used in a circuit it must be programmed, that is, reconfigured. As is the fact, PLD serves as a milestone in the progress of digital technology and is now widespread in digital logic experiments. Thus we were motivated to apply it in cells and make logic-flexible, in another word, programmable gene circuits.