Line 7: | Line 7: | ||
<p>In this section we present our composite parts. Using our Basic Parts we made a regulatory system and a detection system easily editable using a couple of restriction enzymes.</p> | <p>In this section we present our composite parts. Using our Basic Parts we made a regulatory system and a detection system easily editable using a couple of restriction enzymes.</p> | ||
<ol><li>-> PFur+LacI-LVA+Terminator is used as an Iron sensitive regulatory system, allowing our bacteria to detect the presence of pathogens.</li> | <ol><li>-> PFur+LacI-LVA+Terminator is used as an Iron sensitive regulatory system, allowing our bacteria to detect the presence of pathogens.</li> | ||
− | <li>-> PLacO+PiBlue+Terminator is used as a parasite infection indirect reporter. It is possible to switch </li><li> | + | <li>-> PLacO+PiBlue+Terminator is used as a parasite infection indirect reporter. It is possible to switch between PLacO and the other </li><li>Operator biobricks in order to use this composite part as a direct reporter.</li></ol> |
<br> | <br> | ||
</div> | </div> |
Revision as of 12:10, 15 October 2016
Composite Parts:
In this section we present our composite parts. Using our Basic Parts we made a regulatory system and a detection system easily editable using a couple of restriction enzymes.
- -> PFur+LacI-LVA+Terminator is used as an Iron sensitive regulatory system, allowing our bacteria to detect the presence of pathogens.
- -> PLacO+PiBlue+Terminator is used as a parasite infection indirect reporter. It is possible to switch between PLacO and the other
- Operator biobricks in order to use this composite part as a direct reporter.