Difference between revisions of "Part:BBa K4414024"
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Revision as of 15:38, 8 October 2022
tetR-GGGSG-LBD
This composite part consists of an N-terminal tetR(BBa_K4414009) domain and a C-terminal NR3C1 LBD(BBa_K4414000) domain fused with a GGGSG linker. It is designed to sense glucocorticoids and activates the transcription of the reporter gene.
Usage and Biology
As a glucocorticoid sensor, this part is designed to enter the nucleus upon glucocorticoid stimulation and bind to the TCE promoter to activate downstream transcription. This part consists of a tetR DNA binding domain, which binds to the TCE promoter (BBa_K4016011) consisting of seven direct 19-bp tet operator sequence (tetO) repeats. The NR3C1 LBD domain on the C terminal is the ligand�binding domain of the glucocorticoid receptor(GR). This LBD domain can translocate the fusion protein into the nucleus upon glucocorticoid stimulation. It also has a transactivating domain 2 (τ2) and an activation function domain 2 (AF2) which activates downstream gene expression.[1]
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
Experimental Validation
We constructed tetR-PixE PixD-Vp64 and TCE-SEAP to test the expression of this part. VP64 is a transcriptional activator. When fused to another protein domain that can bind near the promoter of a gene, VP64 acts as a strong transcriptional activator. TetR can recognize and combine with TCE then inhibit its downstream transcription. The interaction of PixD and PixE would restrain the TCE’s inhibition and start the transcription of SEAP.
Method
(a) Seed approximately 5×104 cells into 24-well cell culture plates.
(b) Culture for 16 h before transfection.
(c) Total plasmid mixes of 500 ng per well are mixed thoroughly in serum-free DMEM before a polyethylenimine (PEI) solution (1 mg/mL) is added into the plasmid mixture in a ratio of 1:3 (plasmid weight/PEI weight).
(d) The plasmid–PEI mixture is vortexed and incubated at room temperature for 15 min. The mixture is then added into the cells and incubated for at least 6 h.
(e) Cells are then changed into fresh medium and applied with 5mA blue light(dark/blue 2/28S) for before sampling and analysis assay.
2. SEAP assay in vitro.
(a) Sample 200μL culture medium from each well, heat inactivate at 65℃ for 30 min.
(b) During the heat inactivation procedure, warm up 2×SEAP buffer (100μL/well) at 37℃.
(c) Add 1/5 buffer volume of pNPP (20μL/well) substrate into the 2×buffer to prepare the “Detection Mixture.”
(d) Add 80μL heated medium into the 96-well plate, add 120μL Detection Mixture.
(e) Measure absorption at 405 nm, 30 s per read for 10 reads.
(f) Calculate enzymatic activity.
Result
The cells showed a nearly 40% decrease in SEAP activity after 24h blue light exposure, compared with the group exposed to dark. And after 48h, the SEAP activity in blue light group was reduce to 0. This can validate PixD and PixE’s interaction.
Reference
[1] Dine E, Gil AA, Uribe G, Brangwynne CP, Toettcher JE. Protein Phase Separation Provides Long-Term Memory of Transient Spatial Stimuli. Cell Syst. 2018 Jun 27;6(6):655-663.e5. doi: 10.1016/j.cels.2018.05.002. Epub 2018 May 30. PMID: 29859829; PMCID: PMC6023
[2] Yuan H, Bauer CE. PixE promotes dark oligomerization of the BLUF photoreceptor PixD. Proc Natl Acad Sci U S A. 2008 Aug 19;105(33):11715-9. doi: 10.1073/pnas.0802149105. Epub 2008 Aug 11. PMID: 18695243; PMCID: PMC2575306.