Coding
Cuting Sil

Part:BBa_K4623007

Designed by: Ruixiao Tan   Group: iGEM23_BNU-China   (2023-10-09)
Revision as of 15:10, 11 October 2023 by Dooooog (Talk | contribs) (Cultivation, Purification and SDS-PAGE)


Cut Silinker 2, cutsite-linker, GP41-1-PLGVR-NrdJ

Usage and Biology

The Cut linker consists of the C-terminal sequence of the GP41-1 intein (BBa_K3308068), the N-terminal sequence of the NrdJ intein (BBa_K3308069), and a variable peptide segment. The C-terminal sequence of the GP41-1 intein is used to connect with the N-terminal linker (mSA-linker), while the N-terminal sequence of the NrdJ intein is used to connect with the C-terminal linker (SBP-linker). The variable peptide segment enables recognition and cleavage by protein cutting enzymes in specific environments, releasing the biotin-modified functional protein that has been cleaved and bound with mSA. To facilitate experimental verification, we have chosen a matrix metalloproteinase 2 (MMP2) cleavable short peptide (PLGVR) as the variable peptide segment. MMPs are a family of zinc-dependent endopeptidases that are overexpressed in the extracellular environment of certain tumors. The Cut Silinker, modified with PLGVR, can be recognized and cleaved by MMP2, releasing the functional protein. In addition, we have incorporated a TEV recognition site and a His tag for fusion protein purification[1].

We determined the conditions for the production of His-tagged Cut Silinker by performing a small trial expression of the petDUT1 plasmid after transferring it into our engineered bacterium BL21(DE3). The purified Cut Silinker could be detected by SDS-PAGE, and the molecular weights of CS2 is 18 kDa.

Plasmid diagram of Cut Silinker 2:

Image Description
Figure 1| Plasmid diagram of Cut Silinker 2



Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]

Cultivation, Purification and SDS-PAGE

Induction condition

The presence of mSA monomers will easily cause the protein to form inclusion bodies and increase the difficulty of purification. In order to make our Cut Silinker express efficiently and reduce the generation of inclusion bodies, we screened the IPTG-induced expression conditions. We set five IPTG concentration gradients, namely: 0 mM, 0.1 mM, 0.25 mM, 0.5 mM, 1 mM, and the final results of protein expression showed that the concentration of 0.25 mM was the best. In addition, we set two temperature gradients of 37℃ induced expression and 16℃ induced expression. 37℃ protein formed inclusion bodies instead of soluble protein in large quantities, so we finally determined 16℃ as the effective induction temperature.

In order to make mSA fold normally and reduce the generation of inclusion bodies, we modified the buffer of protein by adding biotin. The combination of biotin and mSA could help the Cut silinker protein fold normally and reduce the inclusion bodies formed after misfolding. Finally, we got the soluble protein that could be extracted in the supernatant. The formula of the buffer and the experimental procedure could be found in our wiki.


Image Description
Figure 2 |SDS-PAGE plot of IPTG concentration gradient induced expression of Cut Silinker 2 protein. The IPTG concentration gradient was set at 0, 0.1, and 0.25 mM at 37°C for 16h induced expression. Protein scale was compared with Blue Plus V Protein Marker at 10-190 kDa. The graphs showed lane bands in order of maker, 0 mM IPTG-induced bacterial sink, 0.1 mM IPTG-induced bacterial sink, 0.25 mM IPTG-induced bacterial sink, 0 mM IPTG-induced supernatant, 0.1 mM IPTG-induced supernatant, 0.25 mM IPTG-induced sediment, 0.1 mM IPTG-induced precipitation, and 0.1 mM IPTG-induced precipitation, and 0.25 mM IPTG-induced precipitation. It was electrophoresed at 80V for 30 min and 120V for 90 min successively and stained with Coomassie Brilliant Blue stain. There was no target band (18 kDa), but there was a clear band of about 36 kDa, and there was a possibility that this was due to the fact that CS2 was thermally unstable and dimerizes at 37°C.


Image Description
Figure 3 |SDS-PAGE plot of IPTG concentration gradient induced expression of Cut Silinker 2 protein. The temperature conditions were changed to 16°C and IPTG concentration gradients were set to 0, 0.1, and 0.25 mM for 16 h of induced expression. Protein scale was compared with Blue Plus V Protein Marker at 10-190 kDa. The graphs showed lane bands in order of maker, 0 mM IPTG-induced bacterial sink, 0.1 mM IPTG-induced bacterial sink, 0.25 mM IPTG-induced bacterial sink, 0 mM IPTG-induced supernatant, 0.1 mM IPTG-induced supernatant, 0.25 mM IPTG-induced precipitation, 0.1 mM IPTG-induced precipitation, and 0.1 mM IPTG-induced precipitation, and 0.25 mM IPTG-induced precipitation.Successively electrophoresed at 80V for 30min and 120V for 90min, and stained with Coomassie Brilliant Blue stain. The appearance of target bands determined the expression temperature of 16°C.




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