Team:Cambridge/Quiescence Notes

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{{:Team:Cambridge/Templates/headerbar|colour=#96d446|title=Rough notes: Quiescence}}
*[http://mic.sgmjournals.org/cgi/reprint/155/8/2676.pdf The role of FIS in the Rcd checkpoint and stable maintenance of plasmid ColE1] ie good as the toggle control thingy
*[http://mic.sgmjournals.org/cgi/reprint/155/8/2676.pdf The role of FIS in the Rcd checkpoint and stable maintenance of plasmid ColE1] ie good as the toggle control thingy
*[http://www3.interscience.wiley.com/cgi-bin/fulltext/119127730/PDFSTART Timing, self-control and a sense of direction are the secrets of multicopy plasmid stability]
*[http://www3.interscience.wiley.com/cgi-bin/fulltext/119127730/PDFSTART Timing, self-control and a sense of direction are the secrets of multicopy plasmid stability]
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The project would involve synthesising lots of different constructs (which are all mercifully short) and testing their functionality and sensitivity. The result would be a fairly short, but quite versatile BioBrick.
The project would involve synthesising lots of different constructs (which are all mercifully short) and testing their functionality and sensitivity. The result would be a fairly short, but quite versatile BioBrick.
Gos recommended talking to Jim H and David Summers about whether a self-splicing structure in this functional RNA can work.
Gos recommended talking to Jim H and David Summers about whether a self-splicing structure in this functional RNA can work.
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We've got The Aptamer Handbook from the Central Science Library, it describes about three billion compounds you can make aptamers bind to, and has a whole section on applications, but unfortunately doesn't seem to ''mention'' self-splicing. -.-
 
Paper on ribozymes, including sweet self-splicing ones:
Paper on ribozymes, including sweet self-splicing ones:
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THERE'S A APTAMER FOR CAFFEINE!!
THERE'S A APTAMER FOR CAFFEINE!!
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Unfortunately it is massively insensitive. According to the aptamer handbook it (characterised by Jenison et al. 1994) has an equilibrium constant of 3500µM, at this concentration it has weak cytotoxic effects. There might be more sensitive aptamers for caffeine out there. Caffeine is very closely related to theophylline (which just has a -CH3 instead of a H), the aptamer for that has a Kd of 0.1 µM and serves as a standard example for aptamers. Its also found in tea. It might be less flashy than having caffeine responding cells, but it might be easier to make them tea-addicts. We're a British team after all?
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Definitely possible to spin the tea-angle, BUT, I think the 3500µM figure is for the theophylline aptamer's binding to caffeine. I now can't find a specific caffeine aptamer, but we might be able to find/make one? But theophylline is probably place to start..
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[http://nar.oxfordjournals.org/cgi/content/full/32/5/1756#GKH336F6 Interesting in general + newer caffeine aptamer? (Ferguson et al 2004)]
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[http://arep.med.harvard.edu/labgc/adnan/projects/Utilities/revcomp.html Tool for reverse complement]
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==Doing it without a cleaving ribozyme?==
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[http://gcat.davidson.edu/GcatWiki/index.php/Antiswitches Antiswitches wiki site]
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[Smolke 2005 - the riboswitches paper]
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Latest revision as of 23:46, 10 August 2010