Line 104: | Line 104: | ||
<br><br> | <br><br> | ||
To summarize, here is how this part functions in the presence of fluoride: | To summarize, here is how this part functions in the presence of fluoride: | ||
− | <br> 1. <I> delta</I>-<I>CRCB E.coli</I> accumulates fluoride intracellularly due to the lack of the fluoride efflux channel. | + | <br> 1. <I> delta</I>-<I>CRCB E. coli</I> accumulates fluoride intracellularly due to the lack of the fluoride efflux channel. |
<br> 2. Fluoride binds to the fluoride riboswitch and activates the chloramphenicol acetyltransferase enzyme, which allows for bacterial growth on plates that contain the antibiotic chloramphenicol. | <br> 2. Fluoride binds to the fluoride riboswitch and activates the chloramphenicol acetyltransferase enzyme, which allows for bacterial growth on plates that contain the antibiotic chloramphenicol. | ||
</p2> | </p2> | ||
Line 117: | Line 117: | ||
<p2 style= "font-size: 18-x;"> | <p2 style= "font-size: 18-x;"> | ||
− | This is BBa_K2843002 operon with the "Fluoride Binding Mutant", which is a mutant of the fluoride RBS. This serves as a controlled experiment because if there is growth of <I> delta</I>-<I>CRCB E.coli </I> on the chloramphenicol plates than this indicates that growth of<i> delta</i>-<i>CRCB</i> is not entirely dependent only on the presence of fluoride.</p2> | + | This is BBa_K2843002 operon with the "Fluoride Binding Mutant", which is a mutant of the fluoride RBS. This serves as a controlled experiment because if there is growth of <I> delta</I>-<I>CRCB E. coli </I> on the chloramphenicol plates than this indicates that growth of<i> delta</i>-<i>CRCB</i> is not entirely dependent only on the presence of fluoride.</p2> |
</html> | </html> |
Revision as of 02:51, 18 October 2018
Parts
To summarize, here is how this part functions in the presence of fluoride:
1. delta-CRCB E. coli accumulates fluoride intracellularly due to the lack of the fluoride efflux channel.
2. Fluoride binds to the fluoride riboswitch and activates the chloramphenicol acetyltransferase enzyme, which allows for bacterial growth on plates that contain the antibiotic chloramphenicol.