Lab Notebook
- August 29:
- We made a strong expression vector (pXS) by restriction of the linearized plasmid backbone pSB1C3 and insertion of gblock made up of promoter-RBS-cloning site-terminator-terminator (cut with EcoRI and PstI).
- Our first attempts to isolate the inaZ gene from P. syringae and the inaX gene from X. campestris failed.
- August 30:
- We transformed the strong expression vector (cf. 29/08) by electroshock into E. coli TOP10.
- As a backup strategy we also used CPEC with the backbone from the K584027 plasmid to generate a strong expression vector.
- August 31:
- Second attempt to isolate the inaZ gene from P. syringae and the inaX gene from X. campestris. InaX failed, but inaZ was successful.
- Transformation of the strong expression vector by restriction and ligation was not very successful, we only had a few colonies. The backbone amplification using CPEC was successful (cf. 30/08).
- September 01:
- Heatshock transformation of the strong expression vector made with CPEC yielded no colonies.
- Colony PCR on the colonies with the strong expression vector made with restriction and ligation didn’t show any positive ones (cf. 31/08).
- September 02:
Electroshock transformation of the strong expression vector made with CPEC into E. coli TOP10 cells.
- September 04:
- Via colony PCR we saw that all colonies with the strong expression vector made with CPEC and electroshock transformation were all positive (cf. 02/09).
- We transformed E. coli TOP10 cells with our weak expression vector (pXW), which came in today. Q5 CPEC was used for this with the linearized plasmid backbone pSB1C3 and as insert a gBlock consisting of promoter-RBS-cloning site-terminator-terminator. The promoter is weaker than the promoter of the strong expression vector (cf. 29/08).
- September 06:
Colonies from our strong expression vector made with CPEC (cf. 04/09) are cultured and miniprepped. These are used for following constructs:
- pXS-INP_WT using the inaZ PCR fragment
- pXS-INP_NC-mGFPuv
- pXS-INP_NC-Strep (Strep: regular streptavidin)
- pXS-INP_NC-mSA2 (mSA2: monomeric streptavidin)
- pXS-Lpp-ompA-mGFPuv
- pXS-Lpp-ompA-Strep
- pXS-Lpp-ompA-mSA2
- September 07:
We transformed our Golden Gate reactions (cf. 06/08) into E. coli TOP10 cells.
- September 08:
- We did a colony PCR of our weak expression vector (cf. 04/09), and of our constructs made with the strong expression vector (cf. 06/09), both using BioBrick verification primers.
- We tried to make inaZ Golden Gate safe by removing the BsaI sites. To achieve this, the gene is cut into 3 fragments. The combined fragments however did not show the correct length.
- September 09:
The colony PCR of E. coli cells with the constructs with the strong expression vector showed no positive colonies (cf. 06/09). The colony PCR on our cells transformed with the weak expression vector (cf. 04/09), however, did. We therefore tried cloning all our parts into the weak expression vector by using a Golden Gate reaction mix. These Golden Gate reactions were then transformed into E. coli TOP10 cells. Incubation was done at 30°C instead of 37°C to repress the plasmid copy number
- September 10:
- We got our sequencing results: the strong expression vector is good!
- Colonies with the weak expression vector constructs are still too small to pick up with colony PCR (cf. 09/09)
- September 11:
- All our plates with the weak expression vector constructs show colonies! Fluorescence is seen for the pXW-INP_NC-mGFPuv construct. All Lpp-ompA plates have a mixed phenotype, and colony PCR was performed to proof that the small colonies are the positives ones, the larger ones the negative ones.
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We performed PCR to create following constructs:
- pXW-Lpp-ompA-mGFPuv-(m)Strep using Lpp-ompA-mGFPuv fragment
- pXW-mGFPuv-m(Strep) using mGFP
- pXS-mGFPuv using mGFP
- September 12:
- Miniprep of a number of colony PCR positive colonies (cf. 09/09).
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Golden Gate assemblies of:
- pXW-inaZ_GGsafe
- pXW-mGFPuv-Strep
- pXW-mGFPuv-mSA2
- pXW-mGFPuv
- pXS-mGFPuv