Difference between revisions of "Team:LUBBOCK TTU"

 
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<i class="fa fa-flask" style="font-size:px;color:white;"></i></br>Characterization of a Thermal</br>Actuator and Calcium-Sensitive Reporter in</br>Saccharomyces cerevisiae</br></br></center></font></p>
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<i class="fa fa-flask" style="font-size:px;color:white;"></i></br>Characterization of a Calcium-Sensitive Reporter in</br><i>Saccharomyces cerevisiae</i></br></br></center></font></p>
 
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     <div class="col-sm-6"><font face="Arial" size="4">Our current work was inspired by the ability of a thermosensitive ion channel, known as TRPV1, to import calcium into the cell in response to temperature changes. This process could one day be used to provide a method of <i>In-Silico</i> control of genetic circuits in synthetic biology. Our project explores the characterization of a calcium-sensitive reporter in Saccharomyces cerevisiae to monitor gene expression levels within a range of temperatures.  
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     <div class="col-sm-6"><font face="Arial" size="4">Our current work was inspired by the ability of a thermosensitive ion channel, known as TRPV1, to import calcium into the cell in response to temperature changes. This process could one day be used to provide a method of <i>In-Silico</i> control of genetic circuits in synthetic biology. Our project explores the characterization of a calcium-sensitive reporter in <i>Saccharomyces cerevisiae</i> to monitor gene expression levels within a range of temperatures.  
</br></br><a href="https://2017.igem.org/Team:LUBBOCK_TTU/Description">To learn more about our project, click here.</a></font></div>
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</br></br><center><a href="https://2017.igem.org/Team:LUBBOCK_TTU/Description">Learn more &#8594;</a></center></font></div>
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<font face="Arial" size="6"><center>Project Aims</center></font><hr>
 
</br><font face="Arial" size="4">For our project this year we focused on characterizing the optimal extracellular calcium conditions to induce the expression of our calcium sensitive reporters. We are working with two reporter proteins that provide quick maturation rates and bright fluorescence within yeast so they will make for useful output indicators for <i>In-Silico</i> control in future work.
 
 
</br></br>We also built on work from previous iGEM teams to further develop a deterministic model for the calcium pathway in yeast that will activate our reporter genes. Additionally, we developed a stochastic model to predict the nature of ion channel gating in response to temperature change. These models will help guide future work with TRPV1 as a thermal actuator in yeast. 
 
 
</br></br><a href="https://2017.igem.org/Team:LUBBOCK_TTU/Results">To view our results, click here.</a>
 
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<font face="Arial" size="6"><center>Human Practices</center></font><hr>
 
<font face="Arial" size="6"><center>Human Practices</center></font><hr>
</br><font face="Arial" size="4">(iGEM teams are leading in the area of Human Practices because they conduct their projects within a social/environmental context, to better understand issues that might influence the design and use of their technologies. Teams work with students and advisors from the humanities and social sciences to explore topics concerning ethical, legal, social, economic, safety or security issues related to their work.)</font></br></br></br>
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</br><font face="Arial" size="4">Human Practices is an integral part of creating impactful relationships with our community, and conducting research that is embraced by a generalized audience. The iGEM competition is centered around synthetic biology, of which includes genetic engineering, which traditionally has been a controversial area of research. Careful consideration of Human Practices ensures that our research is ethical, responsible, safe, secure, and sustainable.  
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</br></br><center><a href="https://2017.igem.org/Team:LUBBOCK_TTU/HP/Silver">Learn more &#8594;</a>
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<font face="Arial" size="6"><center>InterLab</center></font><hr>
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<font face="Arial" size="6"><center>InterLab Study</center></font><hr>
</br><font face="Arial" size="4">(<b>Standard Tracks:</b> Participate in the Interlab Measurement Study and/or improve the characterization of an existing BioBrick Part or Device and enter this information on that part's Main Page in the Registry. The part that you are characterizing must NOT be from a 2017 part number range.)</font></br></br></br>
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</br><font face="Arial" size="4">The iGEM Measurement Committee aims to develop robust measurement procedures for enhancing the quantification and reproducibility of results through the InterLab Study. The objective of the 2017 InterLab Study is to determine absolute units for measuring green fluorescent protein (GFP) that are easily comparable regardless of the type of plate reader used to make the measurement. We used a standardized protocol and analysis method for measuring GFP with a BioTek Synergy 4 plate reader.
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</br></br><center><a href="https://2017.igem.org/Team:LUBBOCK_TTU/InterLab">View 2017 InterLab Study results &#8594;</a></center></font></br></br>
 
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<div class="col-sm-5"><font face="Arial" size="6">About Us</font><hr></br><font face="Arial" size="4">The Lubbock_TTU Team is part of a student organization at Texas Tech University known as iGEM Raiders. This year, the iGEM Raiders team is composed of 11 undergraduate and graduate students. </br></br><a href="https://2017.igem.org/Team:LUBBOCK_TTU/Team">To learn more about our team, click here.</a></font></div>
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<div class="col-sm-5"><font face="Arial" size="6">About Us</font><hr></br><font face="Arial" size="4">The Lubbock_TTU Team is part of a student organization at Texas Tech University known as iGEM Raiders. This year, the Lubbock_TTU team is composed of 10 undergraduate and graduate students.</br></br><center><a href="https://2017.igem.org/Team:LUBBOCK_TTU/Team">Meet the Team &#8594;</a></center></font></div>
 
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Latest revision as of 17:38, 12 December 2017



Characterization of a Calcium-Sensitive Reporter in
Saccharomyces cerevisiae



Project Description

Our current work was inspired by the ability of a thermosensitive ion channel, known as TRPV1, to import calcium into the cell in response to temperature changes. This process could one day be used to provide a method of In-Silico control of genetic circuits in synthetic biology. Our project explores the characterization of a calcium-sensitive reporter in Saccharomyces cerevisiae to monitor gene expression levels within a range of temperatures.

Learn more →




Human Practices

Human Practices is an integral part of creating impactful relationships with our community, and conducting research that is embraced by a generalized audience. The iGEM competition is centered around synthetic biology, of which includes genetic engineering, which traditionally has been a controversial area of research. Careful consideration of Human Practices ensures that our research is ethical, responsible, safe, secure, and sustainable.

Learn more →


InterLab Study

The iGEM Measurement Committee aims to develop robust measurement procedures for enhancing the quantification and reproducibility of results through the InterLab Study. The objective of the 2017 InterLab Study is to determine absolute units for measuring green fluorescent protein (GFP) that are easily comparable regardless of the type of plate reader used to make the measurement. We used a standardized protocol and analysis method for measuring GFP with a BioTek Synergy 4 plate reader.

View 2017 InterLab Study results →



About Us

The Lubbock_TTU Team is part of a student organization at Texas Tech University known as iGEM Raiders. This year, the Lubbock_TTU team is composed of 10 undergraduate and graduate students.

Meet the Team →



Collaborations
© 2017 Lubbock_TTU