This experience page is provided so that any user may enter their experience using this part.
Please enter how you used this part and how it worked out.

Applications of BBa_K4948031

User Reviews

UNIQad99525e8c4b5ddd-partinfo-00000000-QINU

Usage and Biology

Figure 1. Optimized nsrR expression system and nitrate induced reporter system

Our team's nitrate sensor (""BBa_K4948031"") was more sophisticated, based on the PyeaR promoter (""BBa_K216005"") from Edinburgh iGEM 2009. Since nsrR is a nitrate-dependent transcriptional repressor, a high amount of nsrR requires a high concentration of nitrate, resulting in a low performance sensor. Therefore, it is essential to determine the optimal concentration of nsrR. To this end, we used different constitutive expression units to control the intracellular concentration of nsrR. In addition, we added the hmpA1 site, which is known as the binding site of nsrR, between the yeaR promoter and the ribosome binding site.

Figure 2. Measuring the strength of a promoter with the reporter system

Figure 3. Changes in fluorescence intensity depending on the strength of the ribosome binding site in nitrate sensing

Our sensor is capable of detecting trace amounts of nitrate than existing sensors (Figure 4). To increase the intensity of nitrate-induced fluorescence, we added a strong RBS between the yeaR promoter and reporter gene, and in addition to this, we used a medium with higher nutrients to compensate for nitrate-induced cytotoxicity.

Figure 4. Fluorescence intensity by nitrate concentration

UNIQad99525e8c4b5ddd-partinfo-00000001-QINU