Part:BBa_K2969040

pCI434-TEVts6#

This part contains the coding gene of TEVts6# which can code the thermo-sensitive protease TEVts6# under the promoter of CI434. When there exists the active transcription factor CI434, it will combine with the promoter of CI434 pCI434 to prevent enzymes combining with DNA, so the transcription of TEVts6# will be inhibited.

Characterization

TEVts mutants played an improtant role on switches of UCAS-China 2019 project which is a part of our cold-inducible ON-switches.

We firstly used ELIASA to characterized the tendency of fluorescence change of a series of cold-inducible ON-switches using different TEVts mutants under different temperatures. As shown in Figure 1, all five switches show high fluorescence under low temperature, while their fluorescence all decreases when temperature rises. The groups of TEVts#11, TEVts#17 and TEVts#18 began to inhibit the expression of fluorescence at 37℃ and nearly inhibit the expression of fluorescence completely at 42℃. While the groups of TEVts#6 and TEVts#7 begin inhibition at 30℃ and achieve complete inhibition at 37℃.

Figure 1:The tendency of fluorescence change of a series of TEVts mutants under different temperatures (measured by ELIASA)

Then we chose two kinds of cold-inducible ON-switches, consisting of TEVts#6 and TEVts#18 correspondingly, to measure their temperature response curve more precisely by flow cytometer in TOP10 strain. From Figure 4 we can see that two group both show narrow transition ranges and have ∼100-fold induction, which was achieved within less than ten degrees. Thus, our cold-inducible ON-switches show high performance and versatility, which ensures the potential for basic research, as well as industrial and biomedical applications, and truly makes engineered bacteria precisely controlled.

Figure 2:The induction curve of the cold-inducible ON-switches (TOP10)

Considering our platform is going to serve microbial therapeutics, we found a more suitable E.coil strain, Nissle 1917, a probiotic with more than 100 years of medical application. We also measured the best one, consisting of TEVts#18, in Nissle 1917. It also show high performance similar with it in TOP10 strain.

Figure 3:The induction curve of the cold-inducible ON-switches (Nissle 1917)

Reference

Zheng, Y., Meng, F., Zhu, Z., Wei, W., Sun, Z., Chen, J., . . . Chen, G.-Q. (2019). A tight cold-inducible switch built by coupling thermosensitive transcriptional and proteolytic regulatory parts. Nucleic Acids Research. doi:10.1093/nar/gkz785

Sequence and Features