Difference between revisions of "Team:Austin UTexas/Demonstrate"
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*Identified strains of bacteria and yeast using rRNA gene sequencing. | *Identified strains of bacteria and yeast using rRNA gene sequencing. | ||
*Characterized each of the isolated microbes to facilitate further experimentation. | *Characterized each of the isolated microbes to facilitate further experimentation. | ||
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*Performed minimum inhibitory concentration experiments between <i>G. oxydans</i> and spectinomycin, carbenicillin and kanamycin. | *Performed minimum inhibitory concentration experiments between <i>G. oxydans</i> and spectinomycin, carbenicillin and kanamycin. | ||
*Determined that <i>G. oxydans</i> is resistant to spectinomycin and carbenicillin. | *Determined that <i>G. oxydans</i> is resistant to spectinomycin and carbenicillin. | ||
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*Determined that the microbe <i>Ga. hansenii</i> is essential for the fermentation of kombucha. | *Determined that the microbe <i>Ga. hansenii</i> is essential for the fermentation of kombucha. | ||
*Determined that two distinct strains of the yeast <i>Lachancea fermentati</i> are necessary for the fermentation of kombucha, including one that appears to produce high quantities of C02. | *Determined that two distinct strains of the yeast <i>Lachancea fermentati</i> are necessary for the fermentation of kombucha, including one that appears to produce high quantities of C02. | ||
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*Designed Golden Gate parts for the assembly of these genes into a functional construct. | *Designed Golden Gate parts for the assembly of these genes into a functional construct. | ||
*Used a bromothymol blue assay to compare changes in pH resulting from fermentation in multiple strains of <i>Lachancea fermentati</i> isolated from our kombucha. | *Used a bromothymol blue assay to compare changes in pH resulting from fermentation in multiple strains of <i>Lachancea fermentati</i> isolated from our kombucha. | ||
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*Further characterized the P-atp2 Biobrick. | *Further characterized the P-atp2 Biobrick. | ||
*Found literature describing three putative promoters in <i>Gluconobacter oxydans</i> that increase transcription under acidic conditions, and currently characterizing these sequences. | *Found literature describing three putative promoters in <i>Gluconobacter oxydans</i> that increase transcription under acidic conditions, and currently characterizing these sequences. | ||
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| − | + | <a href = "https://2016.igem.org/Team:Austin_UTexas/Results#section6">Results </a> </html> | |
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Revision as of 03:01, 19 October 2016
Demonstrate
Click on one of the images below to learn more about our results!
Kombucha Strains
Conjugation
Recapitulation
Ethanol
pH
