Part:BBa_K4211014

REDMAP-GOI

REDMAP system is a red light-activated system. The research team from East China Normal University reported a red/far-red light-mediated and miniaturized Δphytochrome A (ΔPhyA)-based photoswitch (REDMAP) system based on the plant photoreceptor PhyA in 2022. The system can rapidly bind the shuttle protein far-red elongated hypocotyl 1 (FHY1) under illumination with 660-nm light with dissociation occurring at 730 nm.

Based on the article, The BNUZH-China iGEM team 2022 designed a red light-activated system. We fused 5×UAS-P(hCMVmin) (BBa_K4211005) with the gene of interest. Therefore, we added a TAA (BBa_M36117) sequence to terminated the transcription of the gene of interest. At the C-terminal of the gene of interest, we added a CMV promoter (BBa_K1439007) to control the expression of the downstream target genes. In order to sense the red light, we bound PhyA (BBa_K4211007), Gal4 (BBa_K4211009), FHY1 (BBa_K4211011) and VP64 (BBa_K4211013) at the C-terminal of the CMV promoter. In land plants, the ability to sense and respond to red/far-red light depends on proteins of the phytochrome photoreceptor family. PhyA is a well-characterized member of this family that binds covalently to a chromophore known as Phycocyanobilin (PCB). PhyA is a red/far-red light-responsive photoreceptor from the plant Arabidopsis thaliana. The PCB binds covalent to PhyA to produce responses to red light (λ_max = 660 nm) and far-red light (λ_max = 730 nm). Following activation by red light, PhyA is transported into the nucleus based on interactions with shuttle proteins, including FHY1 and FHY1-like (FHL). The Gal4 transcription factor is a positive regulator of gene expression of galactose-induced genes. This protein represents a large fungal family of transcription factors, Gal4 family, which includes over 50 members in the yeast Saccharomyces cerevisiae. FHY1, the shuttle protein far-red elongated hypocotyl 1, can rapidly bind PhyA under illumination with 660 nm light and can dissociate occurring at 730 nm. When PhyA interacting with FHY1, it can be transported into the nucleus. VP64, the herpes simplex virus-derived VP16 activation domain, is a kind of transcriptional activators. It is fused to FHY1. When illuminated with the 660 nm light, PhyA can bind with FHY1 and can be transported into the nucleus. According to the data given by the article, ΔPhyA–Gal4/FHY1–VP64 combination demonstrated the best switching performance than any other. So, we combined PhyA with Gal4 and linked FHY1 with VP64. Therefore, we used PCB to activate PhyA. Figure 1 illustrates the detailed design of the whole device.


Figure 1: Construct design and the principle of the REDMAP-GOI. 5×UAS-P(hCMVmin) was fused to the gene of interest. Gal4 was linked via a linker to PhyA. At the same time, PCB was combined with PhyA. PhyA turned to ΔPhyA. VP64 was linked with FHY1. When 660 nm light illuminating, ΔPhyA combines with VP64. Then, Gal4-ΔPhyA is transported into the nucleus by VP64-FHY1. After that, Gal4 will combine with 5×UAS-P(hCMVmin), activating the transcription of the downstream target gene. When 730 nm light illuminating, ΔPhyA breaks away from VP64. Then, Gal4-ΔPhyA and VP64-FHY1 is transported out of the nucleus. The transcription of the downstream target gene will terminate.

Usage and Biology

We used it to activate the transcription of MazF (BBa_K302033) to cause the engineered cells to commit suicide.

Sequence and Features