Team:Oxford/how much can we degrade
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<div style="background-color:white; border-bottom-left-radius:10px;border-radius:10px; padding-left:10px;padding-right:10px;min-width:300px;margin-top:-50px;"> | <div style="background-color:white; border-bottom-left-radius:10px;border-radius:10px; padding-left:10px;padding-right:10px;min-width:300px;margin-top:-50px;"> | ||
- | <a href=" | + | <a href="https://static.igem.org/mediawiki/2014/3/3d/OxigemLAB_BOOK.pdf" target="_blank"><img src="https://static.igem.org/mediawiki/2014/5/50/OxigemLabbook.png" style="position:absolute;width:6%;margin-left:84%;margin-top:-13%;z-index:10;"></a> |
<a href="https://static.igem.org/mediawiki/2014/1/16/Oxigem_LAB_PROTOCOLS.pdf" target="_blank"><img src="https://static.igem.org/mediawiki/2014/a/a4/OxigemProtocols.png" style="position:absolute;width:6%;margin-left:91%;margin-top:-13%;z-index:10;"></a> | <a href="https://static.igem.org/mediawiki/2014/1/16/Oxigem_LAB_PROTOCOLS.pdf" target="_blank"><img src="https://static.igem.org/mediawiki/2014/a/a4/OxigemProtocols.png" style="position:absolute;width:6%;margin-left:91%;margin-top:-13%;z-index:10;"></a> | ||
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- | <a href="#showwetlab"><div class="orange_news_block1 showwetlab" style="background: #ADD8E6;border-radius:15px;color:black;float:left;height:40%;width:40 | + | <a href="#showwetlab"><div class="orange_news_block1 showwetlab" style="background: #ADD8E6;border-radius:15px;color:black;float:left;height:40%;width:40%;margin-left:3%;padding-top:10px;"><center> |
<h1white><font style="font-size:15px;font-weight:500;">Wetlab</font></h1white></center> | <h1white><font style="font-size:15px;font-weight:500;">Wetlab</font></h1white></center> | ||
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(what are Gompertz functions?)</a>. An example output growth curve of the model is shown here. | (what are Gompertz functions?)</a>. An example output growth curve of the model is shown here. | ||
<br><br> | <br><br> | ||
- | The scaling of the growth rate of the Gompertz function comes directly from growth curves of the DM4 bacteria that we obtained in the lab. | + | The scaling of the growth rate of the Gompertz function comes directly from growth curves of the DM4 bacteria that we obtained in the lab. |
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<li>d[Ndcm]/dt = rate of DCM molecule degradation (s-1)</li> | <li>d[Ndcm]/dt = rate of DCM molecule degradation (s-1)</li> | ||
- | <li> | + | <li>kcat = dcmA turnover rate (= 0.6 s-1 for DM4)</li> |
<li>[DCM] = DCM concentration (= 0.02M for our system)</li> | <li>[DCM] = DCM concentration (= 0.02M for our system)</li> | ||
<li>[DcmA] = Number of DcmA molecules per cell (87576) <a href="https://2014.igem.org/Team:Oxford/what_are_microcompartments?#hide4"> | <li>[DcmA] = Number of DcmA molecules per cell (87576) <a href="https://2014.igem.org/Team:Oxford/what_are_microcompartments?#hide4"> | ||
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<div class="white_news_block2"> | <div class="white_news_block2"> | ||
<h1blue2>Using buffers to reduce the pH change of our system</h1blue2> | <h1blue2>Using buffers to reduce the pH change of our system</h1blue2> | ||
+ | <br><br> | ||
+ | We have investigated the effect of using buffers in the aqueous part of our system.<br> | ||
+ | As a first approximation, we model our system of bacteria turning over DCM, producing HCl, as a chemical system in which HCl immediately enters the 'bulk' (extracellular) solution; in this system we have a single buffer (HEPES) to reduce the drop in pH, maximising the amount of DCM the entire system can degrade before the pH drops below a toxic level. | ||
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Derivation of the Van Slyke equation: | Derivation of the Van Slyke equation: | ||
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- | + | The numerical solution to this differential equation was confirmed by reducing the n interval by a factor of 100, which gave the same result. | |
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<a href="#hide5" class="hide" id="hide5"><div class="modelling"> | <a href="#hide5" class="hide" id="hide5"><div class="modelling"> | ||
- | <h1white>How does the amount of water added | + | <h1white>How does the amount of water added affect the output?</h1white></div></a> |
<div class="list"> | <div class="list"> | ||
<div class="white_news_block2"> | <div class="white_news_block2"> | ||
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<div class="row"> | <div class="row"> | ||
<a href="#show6" class="show modelling-row" id="show6"><div class="modelling"> | <a href="#show6" class="show modelling-row" id="show6"><div class="modelling"> | ||
- | <h1white>How does the | + | <h1white>How does the kcat of the system affect the output?</h1white> |
<img src="https://static.igem.org/mediawiki/2014/4/4d/Oxford_plus-sign-clip-art.png" style="float:right;position:relative; width:2%;" /> | <img src="https://static.igem.org/mediawiki/2014/4/4d/Oxford_plus-sign-clip-art.png" style="float:right;position:relative; width:2%;" /> | ||
</div></a> | </div></a> | ||
<a href="#hide6" class="hide" id="hide6"><div class="modelling"> | <a href="#hide6" class="hide" id="hide6"><div class="modelling"> | ||
- | <h1white>How does the | + | <h1white>How does the kcat of the system affect the output?</h1white></div></a> |
<div class="list"> | <div class="list"> | ||
<div class="white_news_block2"> | <div class="white_news_block2"> | ||
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We used our model to predict the response of the system to a change in the kcat value of the DCM degradation enzyme, dcmA. | We used our model to predict the response of the system to a change in the kcat value of the DCM degradation enzyme, dcmA. | ||
- | Increasing the value of | + | Increasing the value of kcat by a significant amount is unrealistic in the length of our project. However, in future work, the kcat could potentially be substantially improved. |
<br><br> | <br><br> | ||
In the graph shown here, the total volume degraded doesn't change. This is because the amount of HCl that the system requires to reach a toxic pH level is constant, as we are not varying the volume of the aqueous layer. To increase the total amount of DCM degraded, we simply need to add more water or a pH buffer to the system. | In the graph shown here, the total volume degraded doesn't change. This is because the amount of HCl that the system requires to reach a toxic pH level is constant, as we are not varying the volume of the aqueous layer. To increase the total amount of DCM degraded, we simply need to add more water or a pH buffer to the system. |
Latest revision as of 09:55, 15 January 2015