Difference between revisions of "Team:IISER-Bhopal-India"

 
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{{IISER-Bhopal-India}}
 
{{IISER-Bhopal-India}}
 
 
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                    <h3>Welcome!</h3>
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                 <img src="https://static.igem.org/mediawiki/2018/8/8a/T--IISER-Bhopal-India--slidermethfinal1.png" alt="" />
<p>Creating a Methane Biosensor</p>
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<a href="#" class="btn btn-theme">Learn More</a>
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                    <h3>Fully Responsive</h3>
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<h2 style="font-family:Roboto;font-size="30px""><span class="highlight">Abstract</span> </h2>
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<h2>Overview </h2>
  
 
 
<p align="justify" style="font-family:Roboto;font-size:20px">Methane is a Greenhouse gas associated with Global Warming,
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<p align="justify" style="font-family:'Roboto', sans-serif; font-size:16px; font-weight:300; line-height:1.6em; color:#656565;">Methane is a growing concern in today's scenario and green methods are desired for its real-time monitoring.  
and green methods are desired for its real-time monitoring.  
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Thus, we have developed the prototype of a robust field-applicable methane biosensor,
 
Thus, we have developed the prototype of a robust field-applicable methane biosensor,
MethNote. We found an enzyme-complex methane monooxygenase(MMO) from Methylococcus capsulatus,
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<b>MethNote</b>. We found an enzyme-complex methane monooxygenase(MMO) from <i>Methylococcus capsulatus</i>,
 
a methanotrophic bacterium, that converts methane to methanol. We expressed soluble-MMO in the methylotrophic yeast,
 
a methanotrophic bacterium, that converts methane to methanol. We expressed soluble-MMO in the methylotrophic yeast,
Pichia pastoris, which harbors a plasmid expressing the reporter gene under a methanol inducible promoter AOX.
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<i>Pichia pastoris</i>, which harbors a plasmid expressing the reporter gene under a methanol inducible promoter AOX.
 
Thus, linking methane uptake to a reporter gene expression generates the proposed methane biosensor. The inclusion of  
 
Thus, linking methane uptake to a reporter gene expression generates the proposed methane biosensor. The inclusion of  
 
sMMO pathway was also checked by metabolic modeling. The constructed part will be a useful contribution to the iGEM repository.
 
sMMO pathway was also checked by metabolic modeling. The constructed part will be a useful contribution to the iGEM repository.
 
A commercial design of MethNote will find widespread applications in environmental monitoring of methane. In future studies,
 
A commercial design of MethNote will find widespread applications in environmental monitoring of methane. In future studies,
we also anticipate an additional application of Mut- strain of P. pastoris expressing sMMO in biofuel production through  
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we also anticipate an additional application of Mut- strain of <i>P. pastoris</i> expressing sMMO in biofuel production through  
 
methanol sequestration.</p>
 
methanol sequestration.</p>
 
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Latest revision as of 00:37, 18 October 2018

Team Methnote

Overview

Methane is a growing concern in today's scenario and green methods are desired for its real-time monitoring. Thus, we have developed the prototype of a robust field-applicable methane biosensor, MethNote. We found an enzyme-complex methane monooxygenase(MMO) from Methylococcus capsulatus, a methanotrophic bacterium, that converts methane to methanol. We expressed soluble-MMO in the methylotrophic yeast, Pichia pastoris, which harbors a plasmid expressing the reporter gene under a methanol inducible promoter AOX. Thus, linking methane uptake to a reporter gene expression generates the proposed methane biosensor. The inclusion of sMMO pathway was also checked by metabolic modeling. The constructed part will be a useful contribution to the iGEM repository. A commercial design of MethNote will find widespread applications in environmental monitoring of methane. In future studies, we also anticipate an additional application of Mut- strain of P. pastoris expressing sMMO in biofuel production through methanol sequestration.

iGEM