Team:Ciencias-UNAM/Project

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                 <li><a href="https://2012.igem.org/Team:Ciencias-UNAM/Parts">Parts</a></li>
                 <li><a href="https://2012.igem.org/Team:Ciencias-UNAM/Parts">Parts</a></li>
                 <li><a href="https://2012.igem.org/Team:Ciencias-UNAM/Modeling">Modeling</a></li>
                 <li><a href="https://2012.igem.org/Team:Ciencias-UNAM/Modeling">Modeling</a></li>
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                 <li><a href="https://2012.igem.org/Team:Ciencias-UNAM/Notebook">Notebook</a></li>
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                 <li><a href="https://2012.igem.org/Team:Ciencias-UNAM/Notebook">HPractices</a></li>
                 <li><a href="https://2012.igem.org/Team:Ciencias-UNAM/Safety">Safety</a></li>
                 <li><a href="https://2012.igem.org/Team:Ciencias-UNAM/Safety">Safety</a></li>
                 <li><a href="https://2012.igem.org/Team:Ciencias-UNAM/Judging">Judging</a></li>
                 <li><a href="https://2012.igem.org/Team:Ciencias-UNAM/Judging">Judging</a></li>
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     <td colspan="3" align="left"> <p>Our goal is to generate a bio-brick which indirectly detects atmospheric CO<sub>2</sub> by noticing the compounds formed by the CO<sub>2</sub> dissociation in water as result of the enzyme carbonic anhydrase. This reaction is done almost instantly and it is used as a signal by distinct organisms like E.coli, C.albicans associated in the regulation of emergency signaling. Also, an association of the H+/HCO<sub>3</sub>- ratio and the signaling pathway of adenilate cyclase has been seen. The employment of these genes with reporter proteins can be used to indirectly calculate the concentration of environmental CO<sub>2</sub>. The CO<sub>2</sub> concentration depends on the partial pressure and the speed with it is assimilated by the liquid. The fastest it gets to the saturation point 5%, the higher is the CO<sub>2</sub> concentration. </p></td>
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     <td colspan="3" align="left"> <p> <div style="text-align:justify">Our goal is to generate a bio-brick which indirectly detects atmospheric CO<sub>2</sub> by noticing the compounds formed by the CO<sub>2</sub> dissociation in water as result of the enzyme carbonic anhydrase. This reaction is done almost instantly and it is used as a signal by distinct organisms like E.coli,associated in the regulation of emergency signaling. Also, an association of the H+/HCO<sub>3</sub>- ratio and the signaling pathway of adenilate cyclase has been seen. The employment of these genes with reporter proteins can be used to indirectly calculate the concentration of environmental CO<sub>2</sub>. The CO<sub>2</sub> concentration depends on the partial pressure and the speed with it is assimilated by the liquid. The fastest it gets to the saturation point 5%, the higher is the CO<sub>2</sub> concentration. </div></p></td>
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     <td colspan="3" align="left">Pollution is a major problem in our society, especially on cities, where  the high population density and pollution are congregated. Actually  there are some methods for pollutants detection in soil and water, but  few methods are available for detecting air pollutants, this type of  contamination may seem less obvious, but is alike dangerous for human  health and life quality. One of the most released pollutants to the  atmosphere is carbon dioxide CO<sub>2</sub>, direct  product of fossil fuel combustion and mostly responsible for climate  change. Our goal is to generate a biobrick whose function is to  indirectly detect atmospheric CO<sub>2</sub> by  detecting the compounds formed by the dissociation of  CO<sub>2</sub> in water product of the enzyme carbonic anhydrase.  The enzyme carbonic anhydrease's reaction, in his reduced form is: </td>
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     <td colspan="3" align="left"><div style="text-align:justify">Pollution is a major problem in our society, especially on cities, where  the high population density and pollution are congregated. Actually  there are some methods for pollutants detection in soil and water, but  few methods are available for detecting air pollutants, this type of  contamination may seem less obvious, but is alike dangerous for human  health and life quality. One of the most released pollutants to the  atmosphere is carbon dioxide CO<sub>2</sub>, direct  product of fossil fuel combustion and mostly responsible for climate  change. Our goal is to generate a biobrick whose function is to  indirectly detect atmospheric CO<sub>2</sub> by  detecting the compounds formed by the dissociation of  CO<sub>2</sub> in water product of the enzyme carbonic anhydrase.  The enzyme carbonic anhydrease's reaction, in his reduced form is: </div></td>
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     <td colspan="3" align="center"><h2>H<sub>2</sub>O + CO<sub>2</sub> &rarr; HCO<sup>-</sup><sub>3</sub> + H<sup>+</sup></h2></td>
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     <td colspan="3" align="center"><h2>H<sub>2</sub>O + CO<sub>2</sub> &rarr; HCO<sub>3</sub><sup>-</sup> + H<sup>+</sup></h2></td>
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     <td colspan="3" align="left">This is done almost instantly and is used as a signal by distinct organisms like E.coli, C.albicans and B.antracis associated in the regulation of various virulence factors. Also, an association of the HCO<sup>-</sup><sub>3</sub> ratio and the signaling pathway of adenilate cyclase has been seen. The utilization of these genes with reporter proteins can be used to indirectly calculate the concentration of environmental CO<sub>2</sub> as a function of the partial pressure and the speed is assimilated by the liquid medium, the fastest it gets to the saturation point 5% the higher is the CO<sub>2</sub> concentration. This is added to the effort of design a possible system for in situ air bioremediation applicable to cities and a campaign of awareness for the population about biology methods, specifically synthetic biology that can improve the quality of the environment and our lives without leaving aside the importance of conservation and environmental care. Our human practices are focus on that direction with workshops, scientific diffusion talks and the possible development of mobile applications that promotes consciousness about the importance of the environmental care and its impact on synthetic biology. </td>
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     <td colspan="3" align="left"><div style="text-align:justify">This is done almost instantly and is used as a signal by distinct organisms like E.coli. Also, an association of the HCO<sup>-</sup><sub>3</sub> ratio and the signaling pathway of adenilate cyclase has been seen. The utilization of these genes with reporter proteins can be used to indirectly calculate the concentration of environmental CO<sub>2</sub> as a function of the partial pressure and the speed is assimilated by the liquid medium, the fastest it gets to the saturation point 5% the higher is the CO<sub>2</sub> concentration. This is added to the effort of design a possible system for in situ air bioremediation applicable to cities and a campaign of awareness for the population about biology methods, specifically synthetic biology that can improve the quality of the environment and our lives without leaving aside the importance of conservation and environmental care. Our human practices are focus on that direction with workshops, scientific diffusion talks that promotes consciousness about the importance of the environmental care and its impact on synthetic biology. </div></td>
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<p><div style="text-align:justify">
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References</br></br>
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Chen, Y, Cann, M..J, Litvin T.N, Iourgenko, V, Sinclair M. L, Levin L.R, Buck, J. 2000. Soluble Adenylyl Cyclase as an Evolutionarily Conserved Bicarbonate Sensor . Science 289, 625 (2000). DOI: 10.1126/science.289.5479.625 </br></br>
 +
 +
Sonnleithner, B. 2000. Instrumentation of biotechnological processes on Scheper, T & B. Sonnleithner Advances in biochemical engineering biotechnology. Springer. Germany. Pp 1 -64</br></br>
 +
Tresguerres, M., Buck, J & Levin, L.R. 2010.  Physiological carbon dioxide, bicarbonate and pH sensing. Pflugers Arch - Eur J Physiol (2010) 460:953–964. DOI 10.1007/s00424-010-0865-6
 +
</br></br>
 +
Zippin, J. H, Levin, L.R, and Buck, J. 2001. CO2/HCO3−-responsive soluble adenylyl cyclase as a putative metabolic sensor TRENDS in Endocrinology & Metabolism Vol.12 No.8 . </br>
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Latest revision as of 22:49, 26 September 2012

..:: CIENCIAS-UNAM ::..

PROJECT

 

Synthetic CO2 biosensor

Our goal is to generate a bio-brick which indirectly detects atmospheric CO2 by noticing the compounds formed by the CO2 dissociation in water as result of the enzyme carbonic anhydrase. This reaction is done almost instantly and it is used as a signal by distinct organisms like E.coli,associated in the regulation of emergency signaling. Also, an association of the H+/HCO3- ratio and the signaling pathway of adenilate cyclase has been seen. The employment of these genes with reporter proteins can be used to indirectly calculate the concentration of environmental CO2. The CO2 concentration depends on the partial pressure and the speed with it is assimilated by the liquid. The fastest it gets to the saturation point 5%, the higher is the CO2 concentration.

 
Pollution is a major problem in our society, especially on cities, where the high population density and pollution are congregated. Actually there are some methods for pollutants detection in soil and water, but few methods are available for detecting air pollutants, this type of contamination may seem less obvious, but is alike dangerous for human health and life quality. One of the most released pollutants to the atmosphere is carbon dioxide CO2, direct product of fossil fuel combustion and mostly responsible for climate change. Our goal is to generate a biobrick whose function is to indirectly detect atmospheric CO2 by detecting the compounds formed by the dissociation of CO2 in water product of the enzyme carbonic anhydrase. The enzyme carbonic anhydrease's reaction, in his reduced form is:
 

H2O + CO2 → HCO3- + H+

 
This is done almost instantly and is used as a signal by distinct organisms like E.coli. Also, an association of the HCO-3 ratio and the signaling pathway of adenilate cyclase has been seen. The utilization of these genes with reporter proteins can be used to indirectly calculate the concentration of environmental CO2 as a function of the partial pressure and the speed is assimilated by the liquid medium, the fastest it gets to the saturation point 5% the higher is the CO2 concentration. This is added to the effort of design a possible system for in situ air bioremediation applicable to cities and a campaign of awareness for the population about biology methods, specifically synthetic biology that can improve the quality of the environment and our lives without leaving aside the importance of conservation and environmental care. Our human practices are focus on that direction with workshops, scientific diffusion talks that promotes consciousness about the importance of the environmental care and its impact on synthetic biology.
     

References

Chen, Y, Cann, M..J, Litvin T.N, Iourgenko, V, Sinclair M. L, Levin L.R, Buck, J. 2000. Soluble Adenylyl Cyclase as an Evolutionarily Conserved Bicarbonate Sensor . Science 289, 625 (2000). DOI: 10.1126/science.289.5479.625

Sonnleithner, B. 2000. Instrumentation of biotechnological processes on Scheper, T & B. Sonnleithner Advances in biochemical engineering biotechnology. Springer. Germany. Pp 1 -64

Tresguerres, M., Buck, J & Levin, L.R. 2010. Physiological carbon dioxide, bicarbonate and pH sensing. Pflugers Arch - Eur J Physiol (2010) 460:953–964. DOI 10.1007/s00424-010-0865-6

Zippin, J. H, Levin, L.R, and Buck, J. 2001. CO2/HCO3−-responsive soluble adenylyl cyclase as a putative metabolic sensor TRENDS in Endocrinology & Metabolism Vol.12 No.8 .