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−	<p style="text-align:center;font-size:12px;line-height:12px;font-weight:bold;"> The improved part can be found here: <a>https://parts.igem.org/Part:BBa_K2507018</a></p>	+	<p style="text-align:center;font-size:12px;line-height:12px;font-weight:bold;"> The improved part can be found here: <a>https://parts.igem.org/Part:BBa_K3733004</a></p>
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Revision as of 11:56, 19 October 2021

PphsA342

PphsA is a ThsR activated promoter when ThsR is phosphorylated by ThsS after ThsS sensing thiosulfate.

Sequence and Features

References

Daeffler, K. N., Galley, J. D., Sheth, R. U., Ortiz‐Velez, L. C., Bibb, C. O., & Shroyer, N. F., et al. (2017). Engineering bacterial thiosulfate and tetrathionate sensors for detecting intestinal inflammation. Molecular Systems Biology, 13(4), 923.

HZAU-China 2021’s Improvement

The improved part can be found here: https://parts.igem.org/Part:BBa_K3733004

Background

P_phsA151-342 is a promoter under the control of the two-component system ThsSR, and it is improved from the P_phsA(https://parts.igem.org/Part:BBa_K2507018) promoter. This promoter can be activated when the ThsSR two-component system senses high concentrations of thiosulfate.

Usage and Biology

P_phsA is a promoter controlled by a two-component system consisting of ThsS(BBa_K2507000) and ThsR(BBa_K2507001). When ThsS feels thiosulfate, ThsR is phosphorylated, and phosphorylated ThsR can activate P_phsA. And P_phsA151-342 is a truncated promoter that retains P_phsA nucleotides 151-342. Deleting the first 150 bp of the 342 bp P_phsA nucleotide sequence has no effect on the promoter activation induced by thiosulfate, and it has a slight increase in the expression level of downstream gene.

Figure 1. The nucleotide sequence of P_phsA151-342 (the gray part is the deleted sequence of P_phsA)

Functional Parameters

To characterize this part, P_phsA and P_phsA151-342 were cloned into pSC101 vector separately. And they are all under the control of the two-component system ThsSR. We chose neGFP(https://parts.igem.org/Part:BBa_K3733012) as the reporter. Plasmids were transferred into E. coli DH5α. The strain was expanded in LB medium to OD=0.4, then 198μL of bacterial solution was spotted into a 96-well plate, and a series of concentration gradients (0mM, 0.001mM, 0.01mM, 0.1mM, 1mM, 10mM) of thiosulfate were added Sodium sulfate solution. Add 2μL of sodium thiosulfate to each well for induction and measure the fluorescence and OD600 in the Synergy H1 microplate reader overnight. In the experiment, the effect of the truncated promoter P_phsA151-342 induced by thiosulfate does not change significantly compared with P_phsA, which means that the deletion of the first 150 bp nucleotide of P_phsA has no effects on the activity of the promoter. According to the description of Daeffler KN et al., the strength of the promoter after truncation will not increase significantly [1]. However, according to the results of our repeated experiments, the truncated promoter still slightly enhances the expression of downstream gene to a certain extent.

Figure 2.Comparison of P_phsA and P_phsA151-342 induced by different concentrations of sodium thiosulfate
Figure 3.The activation of P_phsA(left) and P_phsA151-342(right) under different induced concentrations of sodium thiosulfate

Reference

[1] Daeffler KN, Galley JD, Sheth RU, et al. Engineering bacterial thiosulfate and tetrathionate sensors for detecting gut inflammation[J]. Molecular systems biology, 2017, 13(4): 923.