Difference between revisions of "Team:William and Mary/Model"

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<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 50px;line-height: 25px;' >One of our major goals in developing the pdt speed-control system was to allow future teams to obtain control over the dynamical properties of their circuits through modifications that they make at the level of a single genetic part. As a proof-of-concept demonstration of this capability, we construct an Incoherent Feedforward Loop (IFFL) circuit whose dynamical properties are controlled by Lon activity. We demonstrate that we can predictably tune the sharpness of the circuit’s pulsatile response simply by swapping the choice of pdt.

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<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 50px;line-height: 25px;' >Abstract

</div>

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<div style = 'padding-left: 14%; padding-bottom: 10px;font-size: 25px' ><b>~~Design~~</b></div>

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<div style = 'padding-left: 14%; padding-bottom: 10px;font-size: 25px' ><b>Overview</b></div>

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<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 50px;line-height: 25px;' >One of the simplest examples of a dynamical circuit is the incoherent feed forward loop (IFFL), which consists of three proteins X, Y, and Z which regulate each other such that X activates Y and Z, and Y represses Z. This circuit architecture can generate a pulsatile response upon activation of X (Figure 1).

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<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 50px;line-height: 25px;' >Overview P1

</div>

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<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 50px;line-height: 25px;' >Overview P2

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</div

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</body>

@@ Line 37: / Line 37: @@
 <div style='padding-top: 0px;'></div>
-<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 50px;line-height: 25px;' >One of our major goals in developing the pdt speed-control system was to allow future teams to obtain control over the dynamical properties of their circuits through modifications that they make at the level of a single genetic part. As a proof-of-concept demonstration of this capability, we construct an Incoherent Feedforward Loop (IFFL) circuit whose dynamical properties are controlled by Lon activity. We demonstrate that we can predictably tune the sharpness of the circuit’s pulsatile response simply by swapping the choice of pdt.
+<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 50px;line-height: 25px;' >Abstract
 </div>
 <div style="padding-top: 40px;"></div>
-<div style = 'padding-left: 14%; padding-bottom: 10px;font-size: 25px' ><b>Design</b></div>
+<div style = 'padding-left: 14%; padding-bottom: 10px;font-size: 25px' ><b>Overview</b></div>
@@ Line 49: / Line 49: @@
 <div style='padding-top: 0px;'></div>
-<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 50px;line-height: 25px;' >One of the simplest examples of a dynamical circuit is the incoherent feed forward loop (IFFL), which consists of three proteins X, Y, and Z which regulate each other such that X activates Y and Z, and Y represses Z. This circuit architecture can generate a pulsatile response upon activation of X (Figure 1).
+<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 50px;line-height: 25px;' >Overview P1
 </div>
+<div style='padding-top: 15px;'></div>
+<div style = 'padding-right: 14%; padding-left: 14%; text-indent: 50px;line-height: 25px;' >Overview P2
+</div
+<div style='padding-top: 50px;'></div>
 </body>