Part:BBa_K2623014:Experience
Contents
Applications of BBa_K2623014
Identification
When we are building this circuit, we are doing the nucleic acid gel electrophoresis experiment to verify. After the circuit is built, we send the plasmid to sequence, and get the correct sequencing.
After new molecular cloning experiments, we do Enzyme-Cut identification to certify the plasmid is correct. We use the EcoRI and PstI to cut the plasmid, then we getting two fragments - one is 2932bp, and the other is 2029bp(Fig.1).
Verify the expression of CAHS protein
In the circuit, the Lac I was expressed constantly, and Lac O, lac repressor was bound to Lac O. Following the CAHS gene was our reporter gene mRFP (J04650). When we added IPTG in the bacterial solution, the IPTG bound to repressor and inactivated it. So the CAHS gene and mRFP would start to express.
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We foundthat the red fluorescent protein expressed very slowly. After we added IPTG in the 4mL bacterial solution, we put the bacterial solution in 25° shaker culture. After 12 hours, we saw the centrifugal precipitation color showed red.<br.
We also did experiment with E.coli BL21, but the bacteria didn’t turn red.
We cultured the E.coli BL21(DE3) which contained the plasmid of CAHS protein (BBa_K2623014) in the fluid medium. When the value of OD600 reached about 0.6, we took 4ml bacteria solution in the glass test tubes and added 4μL IPTG in the tubes. And then put them in 25° shaker culture for 5hs. Then, we took 1mL bacterial liquid to centrifugalize. We picked the precipitation and added 100μL DDW and 20μL SDS loading buffer.After that, we heated and boiled it for 15 minutes. And then, it was separated by SDS-PAGE and stained with coomassie brilliant blue for 40 minutes. Ultimately, we decolorized it and observed the results.
We find the CAHS is surely expressed in the E.coli BL21 after adding IPTG. Here is the result.
We have done the Protein expression Identification. According to the figures, we can see significantly increased protein content in the bacteria containing the plasmid. Here are the results(Fig.4) :
The picture of SDS-PAGE shows the CAHS protein is surely expressed in B+ group (the E.coli BL21 with BBa_K2623014 with IPTG). And CAHS protein isn’t expressed in the B- group (the E.coli BL21 with BBa_K2623014 without IPTG) and B0 group (the E.coli BL21 without BBa_K2623014).
We also did experiments with E.coli DH5а, but the SDS-PAGE showed there was no CAHS protein. Because the E.coli BL21 is a kind of strain which can knock out proteases while the E.coli DH5а not. We guess the CAHS protein in E.coli DH5а is degraded. So we chose the BL21 to verify the function of CAHS.
Verify the role of CAHS protein in preserving biological activity
The SDS-PAGE showed the CAHS protein was really expressed in BL21. We cultured the E.coli BL21 bacteria which contained the plasmid BBa_K2623014. We picked the E.coli BL21 bacterial liquid for freeze-drying. First of all, we picked 1mL bacterial liquid to centrifugalize, added 100μL protective agent (LB+5% Sucrose), and put them in -20°refrigerator for 2h. And then, we put them in -80° for one thorough night, and then freeze-dried them (Advantage ES-53).
After lyophilization, we added 500μL PBS in each centrifuge tube, and put them in 37° shaker culture for 15mins. We also added 500μL DDW in each centrifuge tube. And then, we took 100μL the dilute bacteria liquid, added in 900μL DDW, repeated the step, and carried out gradient dilution to 104, 105, 106. Then, we picked 200μL dilute bacteria liquid, and coated the plate with chloramphenicol.
The results showed that CAHS protein could improve the preservation effect of freeze-drying bacteria significantly!
The B+ group’s CFU is 100 times higher than the B0 group, 30 times better than the B- group. So we think the CAHS is leaking expression in B- group, which has some of the protection for the bacteria in freeze-drying.
After being irradiated by UV for 1min, the B0 group was nearly fully dead, and the CFU of B- group had been decrease to a very low level, while the B+ group was higher. So we think the CAHS is can provide some of certain protection against UV.
This result shows that the CAHS can provide production for bacteria in freeze-drying. And the CAHS can also provide CAHS for bacteria suffering from UV. We think the CAHS protein is a very potential protective agent, so we can use the CAHS protein to store plasmid and bacteria. We can even design a kit for the bacteria storage with CAHS protein.
After being irradiated by UV for 1min, the B+ group was still alive. Therefore, we think the CAHS protein can provide protection for bacteria against UV and can protect the nucleic acid in the bacteria. The water bear can survive from UV, and the bacteria can also survive from UV, so it is certain the CAHS protein works.
As for the colony recovery rate, the CAHS also showed great effect. The B+ group colony recovery rate was highest, which reached about 40%. While those of the B- group and B0 group were no more than 2%. After being irradiated by UV for 1min, the B+ group was still the highest in the three group (UB_B0, UV_B+ and UV_B-).
Here are the pictures of the culture plate. We used the disposable plastic petri dishes, and appended the sealing film on the aperture. When we started, we used the glass petri dishes, but the effect was not obvious at all. All the petri dishes had chloramphenicol, and the B0 group bacteria had transformed BBa_S0100 (pSB1C3 skeleton).
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