Team:Oxford/biosensor optimisation
From 2014.igem.org
(Difference between revisions)
Line 4: | Line 4: | ||
<body> | <body> | ||
+ | <style> | ||
+ | strong {font-weight:bold;} | ||
+ | </style> | ||
<div class="outer" style="overflow-y: scroll; overflow-x: hidden;"> | <div class="outer" style="overflow-y: scroll; overflow-x: hidden;"> | ||
Line 44: | Line 47: | ||
<h1>Optimizing the biosensor</h1> | <h1>Optimizing the biosensor</h1> | ||
An ideal biosensor would fulfil the following performance criteria:<br><br> | An ideal biosensor would fulfil the following performance criteria:<br><br> | ||
- | • Fast response to the presence/absence of DCM.<br> | + | • <strong>Fast response</strong> to the presence/absence of DCM.<br> |
- | • High amplitude of output signal – it must produce enough GFP to generate a distinct signal against background noise.<br> | + | • <strong>High amplitude of output signal</strong> – it must produce enough GFP to generate a distinct signal against background noise.<br> |
- | • Robust - it must be able to cope with variations in ATC concentration without radically altering the behaviour of the system. This is crucial because we cannot ensure that ATC concentrations throughout all the cells will be uniform in the real system. <br> | + | • <strong>Robust</strong> - it must be able to cope with variations in ATC concentration without radically altering the behaviour of the system. This is crucial because we cannot ensure that ATC concentrations throughout all the cells will be uniform in the real system. <br> |
- | • Sensitive - it must change significantly in low concentrations of DCM. This is vital in order to achieve a response that is as close to binary as possible. The ideal system will have a very sharp decline in fluorescence at a predefined, very low value of DCM. This will ensure that the sensor will clearly indicate when the DCM mixture can be safely disposed of. <br><br> | + | • <strong>Sensitive</strong> - it must change significantly in low concentrations of DCM. This is vital in order to achieve a response that is as close to binary as possible. The ideal system will have a very sharp decline in fluorescence at a predefined, very low value of DCM. This will ensure that the sensor will clearly indicate when the DCM mixture can be safely disposed of. <br><br> |
By modelling the effects of parameters we are able to alter in the biological system, we were able to guide our design process to produce a biosensor that is as close to the ideal as possible without sacrificing any one criterion entirely. | By modelling the effects of parameters we are able to alter in the biological system, we were able to guide our design process to produce a biosensor that is as close to the ideal as possible without sacrificing any one criterion entirely. | ||
<br><br> | <br><br> | ||
Line 81: | Line 84: | ||
However there are some things we can alter:<br><br> | However there are some things we can alter:<br><br> | ||
- | • The rate of GFP degradation - the cell will degrade GFP, but by marking the protein with degradation tag would increase the rate that this occurs.<br> | + | • <strong>The rate of GFP degradation</strong> - the cell will degrade GFP, but by marking the protein with degradation tag would increase the rate that this occurs.<br> |
- | • The amount of GFP produced per mRNA transcribed – by altering the strength of the ribosome binding site we can alter the efficiency of translation.<br><br> | + | • <strong>The amount of GFP produced per mRNA transcribed</strong> – by altering the strength of the ribosome binding site we can alter the efficiency of translation.<br><br> |
By modelling the effects of these we can answer the following questions:<br><br> | By modelling the effects of these we can answer the following questions:<br><br> | ||
- | • Do we need to include a degradation tag on GFP, or is the turnover of GFP already adequate to give a fast off rate?<br> | + | • <strong>Do we need to include a degradation tag on GFP, or is the turnover of GFP already adequate to give a fast off rate?</strong><br> |
- | • What strength RBS should we use to maximise output amplitude or reach a usable signal output?<br> | + | • <strong>What strength RBS should we use to maximise output amplitude or reach a usable signal output?</strong><br> |
- | • Will altering one of these to optimise one criterion negatively impact any other of our criteria?<br> | + | • <strong>Will altering one of these to optimise one criterion negatively impact any other of our criteria?</strong><br> |
</div> | </div> |
Revision as of 22:43, 16 October 2014