Difference between revisions of "Part:BBa K5127001"
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Revision as of 07:54, 2 October 2024
pVFA0359
This part is the promoter regulated by repressor VFA0359.
Usage and Biology
VFA0359 is a TetR-family repressor responsive to deoxycholic acid (DCA) from Vibrio fischeri. We choose to test this because it has been shown to have low basal activity and 440-fold dynamic range in B. thetaiotaomicron upon induction by DCA (Taketani et al., 2020), so it's a promising choice for our E. coli probiotic platform for bile acid biosensing. When DCA is present, VFA0359 binds to DCA and releases the operator DNA, thus enabling downstream gene expression.
Team: BNDS-China 2024
Our team aims to detect the intake of food before activating our comprehensive platform that regulates levels of gut metabolites, with DCA (a subtype of bile acid) as the indicator of food presence. Within this framework, the VFA0359 works as an effective food sensor for detecting DCA.
Design and Construction of pDCA
This system has not been tested in E. coli previously and shows problems such as undesired offsite transcription when expressed in E. coli as predicted by the Promoter Calculator (LaFleur et al., 2022). See our enginering success page for more details (https://2024.igem.wiki/bnds-china/engineering).
Considering that VFA0359 is a TetR-family repressor, which shares homology with the previously reported "jungle express" system by EilR (Ruegg et al., 2018), we modified the jungle express system by replacing the EilR coding frame and EilO operator with VFA0359 CDS and the predicted operator sequences respectively. In our design, the expression of repressor VFA0359 is driven by a constitutive promoter apFAB254 (Mutalik et al., 2013). For the regulated promoter pVFA0359, we first predicted the palindromic operator sequence by SnowPrint (d’Oelsnitz et al., 2024) and inserted two operators in the phage early promoter used by jungle expression system: one overlaps the -35 and -10 hexamer and the other one downstream -10. As for the reporter gene, we inserted a GFP downstream pVFA0359, forming a complete biosensor (Figure 1).
Figure 1. Plasmid design of pDCA. Created by biorender.com.
Figure 2. The AGE result of the PCR products of pDCA construction. A, materials to construct pDCA. B, golden gate assembly result of pDCA construction. The band at 4544bp in (B) indicated the success in plasmid construction.
Figure 3. A kinetics assay for pDCA was conducted over 18 hours using various DCA concentrations. GFP expression was quantified by measuring fluorescence / ABS600. Black, 1000μM DCA. Purple, 500μM DCA. Blue, 250μM DCA. Cyan, 125μM DCA. Green, 62.5μM DCA. Yellow, 31.25μM DCA. Orange, no DCA added.