Team:RHIT/Project
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<h2>Current Test</h2> | <h2>Current Test</h2> | ||
The current test for mating type takes several days. It involves mixing the unknown strain with two known tester strains, each of which have a known auxotrophic deficiency, which is different from the auxotrophic deficiency of the known strain. The mixes are then plated on media that is deficient in both substances that are unable to be produced by the haploid strains, such that neither tester strain nor unknown strain can survive as a haploid. If the cells mate, then they get a working copy of their defective gene, so the diploid can survive. Below is a graphic illustrating the current test process.<br /> | The current test for mating type takes several days. It involves mixing the unknown strain with two known tester strains, each of which have a known auxotrophic deficiency, which is different from the auxotrophic deficiency of the known strain. The mixes are then plated on media that is deficient in both substances that are unable to be produced by the haploid strains, such that neither tester strain nor unknown strain can survive as a haploid. If the cells mate, then they get a working copy of their defective gene, so the diploid can survive. Below is a graphic illustrating the current test process.<br /> | ||
- | <div align="center"><img src="https://static.igem.org/mediawiki/igem.org/c/cb/Mating_test_graphic2.png" width=" | + | <div align="center"><img src="https://static.igem.org/mediawiki/igem.org/c/cb/Mating_test_graphic2.png" width="100%"/></div><br /> |
<h2>Our Test</h2> | <h2>Our Test</h2> | ||
Our test would involve mixing the unknown strain with each of our tester strains and then plating on YPD media. If mating occurs, the pheromone response pathway will initiate transcription of a fluorescent protein with a DNA-binding domain that binds to its own promoter, effectively forming a positive feedback loop. Our system is also known as a “latch circuit”, one that responds to an initial stimulus and then maintains its response indefinitely. Over several hours, fluorescence will become visible under a fluorescence microscope, thus signaling that mating occurred. Two different fluorescent proteins were used, one for each mating type, so that results would be unambiguous if the plates got mixed up. Below is a graphic illustrating how our test improves upon the current test.<br /> | Our test would involve mixing the unknown strain with each of our tester strains and then plating on YPD media. If mating occurs, the pheromone response pathway will initiate transcription of a fluorescent protein with a DNA-binding domain that binds to its own promoter, effectively forming a positive feedback loop. Our system is also known as a “latch circuit”, one that responds to an initial stimulus and then maintains its response indefinitely. Over several hours, fluorescence will become visible under a fluorescence microscope, thus signaling that mating occurred. Two different fluorescent proteins were used, one for each mating type, so that results would be unambiguous if the plates got mixed up. Below is a graphic illustrating how our test improves upon the current test.<br /> | ||
- | <div align="center"><img src="https://static.igem.org/mediawiki/2012/0/07/Our_test_graphic2.png" width=" | + | <div align="center"><img src="https://static.igem.org/mediawiki/2012/0/07/Our_test_graphic2.png" width="100%"/></div><br /> |
</div></a> | </div></a> | ||
<div class="rhit-redSheet" id="rhit-redSheet"> | <div class="rhit-redSheet" id="rhit-redSheet"> |
Revision as of 15:30, 16 August 2012