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NThus, when a combination of gates is used in conjunction, one could not expect them to remain digital. Just imagine using a 10 input AND gate as shown below, that could possibly be used as an environmental biosensor. If the concentration of a few inputs is in the ON range, while the others are in the middle range, should the device show an ON or an OFF state? It may show neither, as we have seen above, leaving the researcher confused as to how the results must be perceived. <br> | NThus, when a combination of gates is used in conjunction, one could not expect them to remain digital. Just imagine using a 10 input AND gate as shown below, that could possibly be used as an environmental biosensor. If the concentration of a few inputs is in the ON range, while the others are in the middle range, should the device show an ON or an OFF state? It may show neither, as we have seen above, leaving the researcher confused as to how the results must be perceived. <br> | ||
− | <img src = "https://static.igem.org/mediawiki/2017/3/39/T--IIT_Delhi--shreya2.png"> | + | <img src = "https://static.igem.org/mediawiki/2017/3/39/T--IIT_Delhi--shreya2.png" width="2000" height="600"> |
</h2> | </h2> | ||
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What this means is that if the cooperativity of the repressor is “n”, then unless n molecules of the repressor combine, they would not be able to repress the promoter and control gene expression. This kind of behavior becomes desirable, since when low quantities of the repressor are present, we would expect lesser repression in the case of a high cooperativity repressor. This would generate a response that would be closer to the digital output, which is desired. This is further explained in the modeling section, but just for a brief idea, here is what the picture looks like, for increasing cooperativity. | What this means is that if the cooperativity of the repressor is “n”, then unless n molecules of the repressor combine, they would not be able to repress the promoter and control gene expression. This kind of behavior becomes desirable, since when low quantities of the repressor are present, we would expect lesser repression in the case of a high cooperativity repressor. This would generate a response that would be closer to the digital output, which is desired. This is further explained in the modeling section, but just for a brief idea, here is what the picture looks like, for increasing cooperativity. | ||
<br> | <br> | ||
− | <img src = "https://static.igem.org/mediawiki/2017/a/a8/T--IIT_Delhi--shreya3.png"> | + | <img src = "https://static.igem.org/mediawiki/2017/a/a8/T--IIT_Delhi--shreya3.png" width="2000" height="600"> |
</h2> | </h2> | ||
<h2 id="pfont"><u>The Square Wave Generator</u><br> | <h2 id="pfont"><u>The Square Wave Generator</u><br> | ||
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<br> | <br> | ||
Having demonstrated these successfully, we moved ahead to our main aim, which was to engineer and demonstrate a square wave oscillator in E.coli. Square waves are commonly used in electrical circuits, and can have a wide array of applications in various areas in biology such as clock inputs for timing events, time dependent drug delivery, switching of metabolic pathways and shunt activation, and would also help understand variations of biological clocks such as the circadian clock, whose gene regulatory network still remains largely unknown. This has been discussed at length in the next section. <br> | Having demonstrated these successfully, we moved ahead to our main aim, which was to engineer and demonstrate a square wave oscillator in E.coli. Square waves are commonly used in electrical circuits, and can have a wide array of applications in various areas in biology such as clock inputs for timing events, time dependent drug delivery, switching of metabolic pathways and shunt activation, and would also help understand variations of biological clocks such as the circadian clock, whose gene regulatory network still remains largely unknown. This has been discussed at length in the next section. <br> | ||
− | <img src = "https://static.igem.org/mediawiki/2017/5/59/T--IIT_Delhi--shreya4.png" ><br> | + | <img src = "https://static.igem.org/mediawiki/2017/5/59/T--IIT_Delhi--shreya4.png" width="2000" height="600" ><br> |
</h2> | </h2> | ||
Revision as of 15:25, 1 November 2017
PROJECT OVERVIEW