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<p2>Redox molecules are maintained in a reduced form in ambient conditions. Application of a +0.5V potential oxidises the redox molecules, allowing for activation of the genetic circuit. Application of a -0.3V potential ensures the redox molecules remain reduced, preventing activation of the genetic circuit.</p2> | <p2>Redox molecules are maintained in a reduced form in ambient conditions. Application of a +0.5V potential oxidises the redox molecules, allowing for activation of the genetic circuit. Application of a -0.3V potential ensures the redox molecules remain reduced, preventing activation of the genetic circuit.</p2> | ||
− | <img class="center" src="https://static.igem.org/mediawiki/2018/ | + | <img class="center" src="https://static.igem.org/mediawiki/2018/d/d6/T--Imperial_College--Electrochemicalmodulenew.png" alt="" width="50%";> |
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<button class="collapsible">Details</button> | <button class="collapsible">Details</button> | ||
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<h4>Pyocyanin:</h4> | <h4>Pyocyanin:</h4> | ||
<p2>This is a redox-cycling molecule produced by <i>Pseudomonas aeuriginosa</i>. In its oxidised form it applies oxidative stress to a cell, activating redox-signalling pathways in the process. In normal aerobic conditions it is oxidised. | <p2>This is a redox-cycling molecule produced by <i>Pseudomonas aeuriginosa</i>. In its oxidised form it applies oxidative stress to a cell, activating redox-signalling pathways in the process. In normal aerobic conditions it is oxidised. | ||
− | <img src="https://static.igem.org/mediawiki/2018/4/4b/T--Imperial_College--Pyostructure.png" alt="" width="20%"; > | + | <div class="center"><img src="https://static.igem.org/mediawiki/2018/4/4b/T--Imperial_College--Pyostructure.png" alt="" width="20%"; ></div> |
</p2> | </p2> | ||
<h4>Ferrocyanide/Ferricyanide:</h4> | <h4>Ferrocyanide/Ferricyanide:</h4> | ||
− | <p2>These molecules are well known redox mediators, meaning, they alter the redox-state of the cell. When the reduced form (ferricyanide) is present a reducing cellular environment is created, preventing the induction of redox-sensing gene circuits. When the oxidised form (ferrocyanide) is present an oxidising cellular environment is creating, permitting activation of redox-sensing gene circuit. | + | <p2>These molecules are well known redox mediators, meaning, they alter the redox-state of the cell. When the reduced form (ferricyanide) is present a reducing cellular environment is created, preventing the induction of redox-sensing gene circuits. When the oxidised form (ferrocyanide) is present an oxidising cellular environment is creating, permitting activation of redox-sensing gene circuit. </br><div class="center"> |
− | <img src="https://static.igem.org/mediawiki/2018/3/38/T--Imperial_College--Ferrostructure.png" alt="" width="20%"; | + | <img src="https://static.igem.org/mediawiki/2018/3/38/T--Imperial_College--Ferrostructure.png" alt="" width="20%"; > |
− | <img src="https://static.igem.org/mediawiki/2018/1/17/T--Imperial_College--Ferristructure.png" alt="" width="20%"; > | + | <img src="https://static.igem.org/mediawiki/2018/1/17/T--Imperial_College--Ferristructure.png" alt="" width="20%"; ></p2></div> |
<h4>Sodium Sulfite:</h4> | <h4>Sodium Sulfite:</h4> | ||
<p2>Sodium sulfite is known as an oxygen scavenger. This is because it reacts with oxygen and removed it from the solution. It has a minimal effect on cell growth and does not diminish fluorescence of GFP suggesting it does not fully draw oxygen out of cells when they are in a shaking incubator or on an agar plate. | <p2>Sodium sulfite is known as an oxygen scavenger. This is because it reacts with oxygen and removed it from the solution. It has a minimal effect on cell growth and does not diminish fluorescence of GFP suggesting it does not fully draw oxygen out of cells when they are in a shaking incubator or on an agar plate. | ||
Supposed Electrochemical Module Mechanism: | Supposed Electrochemical Module Mechanism: | ||
− | Sulfite removes oxygen from solution allowing pyocyanin to be maintained in a reduced state. A potential of +0.5V generates oxidised pyocyanin and ferricyanide. Ferricyanide pushes the cell into an oxidising condition, allowing pyocyanin to remain oxidised and activate gene expression of a redox sensing gene circuit. A -0.3V potential generated reduced pyocyanin and ferrocyanide. Ferrocyanide pushes the cell into a reducing condition, allowing pyocyanin to remain reduced to prevent activation of gene expression by a redox sensing gene circuit. | + | Sulfite removes oxygen from solution allowing pyocyanin to be maintained in a reduced state. A potential of +0.5V generates oxidised pyocyanin and ferricyanide. Ferricyanide pushes the cell into an oxidising condition, allowing pyocyanin to remain oxidised and activate gene expression of a redox sensing gene circuit. A -0.3V potential generated reduced pyocyanin and ferrocyanide. Ferrocyanide pushes the cell into a reducing condition, allowing pyocyanin to remain reduced to prevent activation of gene expression by a redox sensing gene circuit. </br><div class="center"> |
− | <img src="https:// | + | <img src="https://static.igem.org/mediawiki/2018/4/4c/T--Imperial_College--Naso3structure.png" alt="" width="40%"; ></p2></div> |
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<p2>Oxidised redox molecules oxidise the transcription factor SoxR. This allows it to bind to and initiate transcription from the pSoxS promoter. This allows for the electronic induction of any gene placed downstream of this promoter.</p2> | <p2>Oxidised redox molecules oxidise the transcription factor SoxR. This allows it to bind to and initiate transcription from the pSoxS promoter. This allows for the electronic induction of any gene placed downstream of this promoter.</p2> | ||
− | <img class="center" src="https://static.igem.org/mediawiki/2018/ | + | <img class="center" src="https://static.igem.org/mediawiki/2018/6/6d/T--Imperial_College--Biologicalmodulenew.png" alt="" width="50%";> |
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<button class="collapsible">Details</button> | <button class="collapsible">Details</button> | ||
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<p2>In ambient conditions or at -0.3V sulfite maintains pyocyanin in a reduced state whereas ferrocyanide is stable in its reduced form. The SoxR transcription factor therefore remains reduced, preventing induction of gene transcription from the pSoxS promoter.</p2> | <p2>In ambient conditions or at -0.3V sulfite maintains pyocyanin in a reduced state whereas ferrocyanide is stable in its reduced form. The SoxR transcription factor therefore remains reduced, preventing induction of gene transcription from the pSoxS promoter.</p2> | ||
− | <img class="center" src="https://static.igem.org/mediawiki/2018/1/ | + | <img class="center" src="https://static.igem.org/mediawiki/2018/1/19/T--Imperial_College--Offstatesystemfinal.png" alt="" width="50%";> |
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<button class="collapsible">ON State</button> | <button class="collapsible">ON State</button> | ||
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<p2>An electrode pulse of +0.5V oxidises the redox molcules pyocyanin and ferrocyanide. Pyocyanin oxidises the SoxR transcription factor which in turn initiates transcription of any gene downstream of pSoxS. This electronic induction of gene expression is amplified by the oxidised ferricyanide which pulls electrons out of the respiratory transport chain.</p2> | <p2>An electrode pulse of +0.5V oxidises the redox molcules pyocyanin and ferrocyanide. Pyocyanin oxidises the SoxR transcription factor which in turn initiates transcription of any gene downstream of pSoxS. This electronic induction of gene expression is amplified by the oxidised ferricyanide which pulls electrons out of the respiratory transport chain.</p2> | ||
− | <img class="center" src="https://static.igem.org/mediawiki/2018/ | + | <img class="center" src="https://static.igem.org/mediawiki/2018/9/96/T--Imperial_College--Onstatesystem.png" alt="" width="50%";> |
</div> | </div> | ||
<script> | <script> |
Latest revision as of 18:48, 17 October 2018