Team:Nevada/iGEMcollaborators
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- | <b><u>Contribution to the pSB1C3</u><p> | + | <b><u><font size="5">Contribution to the pSB1C3 </font size></u><p> |
- | The iGEM team Nevada contributed with correction of pSB1C3. Megan Tabor detected | + | <br> |
+ | The iGEM team Nevada contributed with correction of pSB1C3. Megan Tabor detected an error in pSB1C3 (the chloramphenicol resistant backbone). pSB1C3 is the submission plasmid for iGEM, and was also used for a thiamine knockout construct to make <i>Synechocystis PCC 6803</i> an auxotroph. When trying to make the primers for isolation of the chloramphenicol resistance protein from the plasmid using PCR, the mapped out section did not blast as chlormamphenicol resistance and did not fit with the ORF. Megan contacted the MIT team that created the pSB1C3 to find more information and a correction. Below are the emails of the conversation.<p> | ||
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- | The annotation on the registry was off by 2 bases on either side. I've updated the registry info.<p> | + | The annotation on the registry was off by 2 bases on either side. I've updated the registry info.<p><br><br><br> |
- | = | + | <font size="5"><u>Collaborations With 2011 Utah State iGEM Team </font size></u><br><br> |
- | We have developed a collaborative relationship with the 2011 Utah State University Team. They have generously supplied us with promoter construct for transgene expression in Synechocystis. We have had back and forth communications throughout the summer. Since Dr. Shintani has had past experience transforming Synechocystis, he was able to offer assistance to Dr. Miller of the Utah State Team on Synechocystis transformation protocols. See the e-mail correspondence below:<p> | + | We have developed a collaborative relationship with the 2011 Utah State University Team. They have generously supplied us with promoter construct for transgene expression in Synechocystis. We have had back and forth communications throughout the summer. Since Dr. Shintani has had past experience transforming Synechocystis, he was able to offer assistance to Dr. Miller of the Utah State Team on Synechocystis transformation protocols. See the e-mail correspondence below:<p><br> |
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Dave:<p> | Dave:<p> | ||
- | I would be interested in info on another insertion vector. As you are probably aware, while we have worked with E. coli and other bacteria previously, we have only recently started trying to transform Synechocystis. Do you have a standard protocol for | + | I would be interested in info on another insertion vector. As you are probably aware, while we have worked with E. coli and other bacteria previously, we have only recently started trying to transform Synechocystis. Do you have a standard protocol for transformation and selection of Synechocystis that works routinely?<p> |
Thanks,<p> | Thanks,<p> | ||
- | Charlie<p> | + | Charlie<p><br><br> |
From: David K Shintani [mailto:shintani@unr.edu]<p> | From: David K Shintani [mailto:shintani@unr.edu]<p> | ||
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As a post-doc, I did some work with Synechocystis PCC6803. We were making KO mutants in targeted Vitamin E biosynthetic genes (Shintani and Dellapenna (1998) Science282: 2098-2100). As I remember it was not too difficult, but that’s looking back on it with PI-eyes. We used the protocol described in Williams JGK (1988) Methods in Enzymology 167: 766-778. While this worked well with the insertion of a single antibiotic resistance cassette, it may prove more difficult with a larger construct. We need to generate a KO in the ADP glucose pyrophosphorylase gene so we are going to insert one of our constructs into that locus. We are also going to insert a second transgene into a thiamin biosynthetic gene. This insertion will be easy to score using thiamin auxotrophy as a phenotypic marker. The thiamin gene insertion site target may be more useful to you. Is your team interested in a video conference? If not no big deal, but it might be interesting to talk. I saw that Stanford and Brown are teaming up on a project similar to ours. Maybe there is a way we could work together also.<p> | As a post-doc, I did some work with Synechocystis PCC6803. We were making KO mutants in targeted Vitamin E biosynthetic genes (Shintani and Dellapenna (1998) Science282: 2098-2100). As I remember it was not too difficult, but that’s looking back on it with PI-eyes. We used the protocol described in Williams JGK (1988) Methods in Enzymology 167: 766-778. While this worked well with the insertion of a single antibiotic resistance cassette, it may prove more difficult with a larger construct. We need to generate a KO in the ADP glucose pyrophosphorylase gene so we are going to insert one of our constructs into that locus. We are also going to insert a second transgene into a thiamin biosynthetic gene. This insertion will be easy to score using thiamin auxotrophy as a phenotypic marker. The thiamin gene insertion site target may be more useful to you. Is your team interested in a video conference? If not no big deal, but it might be interesting to talk. I saw that Stanford and Brown are teaming up on a project similar to ours. Maybe there is a way we could work together also.<p> | ||
- | Dave<p> | + | Dave<p><br><br> |
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Thanks again,<p> | Thanks again,<p> | ||
- | Charlie<p> | + | Charlie<p><br><br> |
</div> | </div> | ||
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</body> | </body> | ||
</html> | </html> | ||
- | {{ | + | {{Nevada_Sponsors_CSS}} |
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