Team:BostonU/FusionProteins

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Fusion Proteins

Why Fusion Proteins?

As described here , our main goal last summer was to come up with an efficient workflow to design, build and test large genetic devices. To demonstrate the efficacy of our workflow , we started building a priority encoder . In order to test the individual transcriptional units and the regulatory arcs associated with them, we needed the output for the individual parts of the device to be fluorescence. One way to do this is by using the bicystronic design -
FP

Bicystronic Design that could be used as an alternative to fusion proteins


A peculiar effect was observed in relation to this design. When ribosomes bind to the genes sequentially, the ribosome that binds before might block the next ribosome from binding to the mRNA and translating the gene. So, the later genes are expressed less than the genes before. This problem is solved with fused proteins as only one ribosome will then be required to translate the entire sequence, eliminating any possible problems during translation. [REFERENCE NEEDED] Another way to measure function by fluorescence is by using consecutive transcriptional units -
FP


This design drives up the cloning cost as it usually takes more time cloning multiple transcriptional units. [REFERENCE NEEDED] Fusion Proteins are fused coding sequences that allow us to measure degradation rate directly. They reduce order effect seen with the bicystronic design and also, should theoretically be much easier to build as compared to cloning multiple TUs.
FP



Assembly


Gel_8-31


To make fusion proteins, we used the Modular Cloning method that we have used for most digestion-ligation reactions.

First, we added a new MoClo fusion site (I - TCTA) to the genes (at the end of repressors and before the reporter proteins). The fusion site, I (TCTA) was then added to another 2-nucleotide sequence (GA) to make the XbaI site. This was done to allow the two proteins made by the two genes to split up after translation.

Then, we used Phusion Polymerase Chain reaction on the basic MoClo Level 0 parts using primers designed based on the fusion sites. We ended up with repressors with TCTAGA sequence at their ends and reporter proteins with the same sequence at the start. These can be treated as standard Level 0 parts which can then be assembled and tested using MoClo.


Testing


It is important that the fusion proteins made aren’t drastically inferior to the individual action of the repressor or the fusion proteins. In order to test this, the following Level 2 constructs were assembled using MoClo -
Gel_8-31


  • J00-C12m_AE - R10-C40-E40m_EF - R40-E10m_FG
  • J00-C12m_AE - R10-C40-E30_EF - R40-E10m_FG
  • J00-C12m_AE - R10-C80-E40m_EF - I13-E10m_FG
  • J00-C12m_AE - R10-C80-E30_EF - I13-E10m_FG

    Gel_8-31


    Here onwards, all constructs made were to compare with those above. Simply put, all 6 Level 2s below were used a controls.
  • J00-C12m_AE - R10-C80_EF - I13-E10m_FG
  • J00-C12m_AE - R10-E30_EF - I13-E10m_FG
  • J00-C12m_AE - R10-E40m_EF - I13-E10m_FG
  • J00-C12m_AE - R10-C40_EF - R40-E10m_FG
  • J00-C12m_AE - R10-E30_EF - R40-E10m_FG
  • J00-C12m_AE - R10-E40m_EF - R40-E10m_FG

    KEY
    • J00-C12m_AE = J23100_AB + BCD2_BC + C0012m_CD + B0015_DE

    • R10-C40-E40m_EF = R0010_EB + BCD2_BC + C0040_CI + E0040m_ID + B0015_DF

    • R10-C40-E30_EF = R0010_EB + BCD2_BC + C0040_CI + E0030_ID + B0015_DF

    • R10-C80-E40m_EF = R0010_EB + BCD2_BC + C0080_CI + E0040m_ID + B0015_DF

    • R10-C80-E30_EF = R0010_EB + BCD2_BC + C0080_CI + E0030_ID + B0015_DF

    • R10-C80_EF = R0010_EB + BCD2_BC + C0080_CD + B0015_DF

    • R10-E30_EF = R0010_EB + BCD2_BC + E0030_CD + B0015_DF

    • R10-E40m_EF = R0010_EB + BCD2_BC + E0040m_CD + B0015_DF

    • R10-C40_EF = R0010_EB + BCD2_BC + C0040_CD + B0015_DF

    • R40-E10_FG = R0040_FB + BCD2_BC + E1010m_CD + B0015_DG

    • I13-E10_FG = I13453_FB + BCD2_BC + E1010m_CD + B0015_DG





    Detailed progress on the construction of fusion proteins can be found in the Fusion Proteins notebook.







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