Difference between revisions of "Team:Austin UTexas/Description"

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<h3>Gold Medal Part Characterization</h3>
 
<h3>Gold Medal Part Characterization</h3>
 
<p>The characterization of the BioBrick P-atp2 from the 2015 BIT-China team was done to see if P-atp2 could be utilized as a basic pH sensor. The results are found <a href="https://2016.igem.org/Team:Austin_UTexas/Results">here</a> and on the iGEM Registry page, <a href="http://parts.igem.org/Part:BBa_K1675021">BBa_K1675021</a></p>
 
<p>The characterization of the BioBrick P-atp2 from the 2015 BIT-China team was done to see if P-atp2 could be utilized as a basic pH sensor. The results are found <a href="https://2016.igem.org/Team:Austin_UTexas/Results">here</a> and on the iGEM Registry page, <a href="http://parts.igem.org/Part:BBa_K1675021">BBa_K1675021</a></p>
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<h3>Our Project</h3>
 
<h3>Our Project</h3>
 
<p> Kombucha is a beverage made when a symbiotic community of bacteria and yeast ferments sugared tea. Although kombucha has been consumed for thousands of years in the East, the drink has enjoyed a recent resurgence in popularity. Several kombucha breweries operate in Austin, Texas, our team’s hometown. The role microbes play in the production of the beverage has led our team to wonder if synthetic biology could allow us to create “designer kombucha” with enhanced properties, such as more appealing flavors or additional nutrients. In order to do so, our team attempted to isolate the strains responsible for the fermentation of kombucha, identify them, genetically modify them, and add the individual strains into tea media to recreate the drink. We additionally considered potential applications of the ability to genetically modify the microbial population of kombucha, such as reducing the ethanol content of the beverage and improving taste with brazzein, a sweet-tasting protein. </p>
 
<p> Kombucha is a beverage made when a symbiotic community of bacteria and yeast ferments sugared tea. Although kombucha has been consumed for thousands of years in the East, the drink has enjoyed a recent resurgence in popularity. Several kombucha breweries operate in Austin, Texas, our team’s hometown. The role microbes play in the production of the beverage has led our team to wonder if synthetic biology could allow us to create “designer kombucha” with enhanced properties, such as more appealing flavors or additional nutrients. In order to do so, our team attempted to isolate the strains responsible for the fermentation of kombucha, identify them, genetically modify them, and add the individual strains into tea media to recreate the drink. We additionally considered potential applications of the ability to genetically modify the microbial population of kombucha, such as reducing the ethanol content of the beverage and improving taste with brazzein, a sweet-tasting protein. </p>

Revision as of 23:00, 17 October 2016

Project Description


Gold Medal Part Characterization

The characterization of the BioBrick P-atp2 from the 2015 BIT-China team was done to see if P-atp2 could be utilized as a basic pH sensor. The results are found here and on the iGEM Registry page, BBa_K1675021


Our Project

Kombucha is a beverage made when a symbiotic community of bacteria and yeast ferments sugared tea. Although kombucha has been consumed for thousands of years in the East, the drink has enjoyed a recent resurgence in popularity. Several kombucha breweries operate in Austin, Texas, our team’s hometown. The role microbes play in the production of the beverage has led our team to wonder if synthetic biology could allow us to create “designer kombucha” with enhanced properties, such as more appealing flavors or additional nutrients. In order to do so, our team attempted to isolate the strains responsible for the fermentation of kombucha, identify them, genetically modify them, and add the individual strains into tea media to recreate the drink. We additionally considered potential applications of the ability to genetically modify the microbial population of kombucha, such as reducing the ethanol content of the beverage and improving taste with brazzein, a sweet-tasting protein.

Click the images below to learn more about our project!


Kombucha Strains

Conjugation

Recapitulation

Ethanol

Brazzein

pH Sensors