Difference between revisions of "Part:BBa K4414028"

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==Usage and Biology==
 
==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.
 
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.
The NR3C1 LBD domain on the N terminus 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.(Weikum et al., 2017) GGGSG linker, owning some flexibility and allowing the proteins on both sides to complete their own independent functions. Tet R in our design provides DNA binding domain tightly binding to the downstream gene, which binds to the TCE promoter ([[Part:BBa_K4016011]]) consisting of seven direct 19-bp Tet operator sequence (Teto) repeats. VP64 is a transcriptional activator composed of four tandem copies of VP16 connected with glycine-serine (GS) linkers. 
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The GR<sub>LBD</sub> domain on the N terminus 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.(Weikum et al., 2017) GGGSG linker, owning some flexibility and allowing the proteins on both sides to complete their own independent functions. Tet R in our design provides DNA binding domain tightly binding to the downstream gene, which binds to the TCE promoter ([[Part:BBa_K4016011]]) consisting of seven direct 19-bp Tet operator sequence (Teto) repeats. VP64 is a transcriptional activator composed of four tandem copies of VP16 connected with glycine-serine (GS) linkers. 
  
 
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Figure1.Schematic figure of BBa_K4414028 and ([[Part:BBa_K4414041]]).
 
Figure1.Schematic figure of BBa_K4414028 and ([[Part:BBa_K4414041]]).
  
===Sequecing===
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The plasmid was sequenced correct.
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==Functional test==
 
==Functional test==
To test the ability of this part to respond to glucocorticoids, HEK-293T cells were co-transfected with plasmids encoding both LBD-1*GSlinker-Tet R-VP64 BBa_K4414028 and TCE-SEAP([[BBa_K4414041]]).
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To test the ability of this part to respond to glucocorticoids, HEK-293T cells were co-transfected with plasmids encoding both LBD-1*GSlinker-Tet R-VP64 (BBa_K4414028) and TCE-SEAP([[BBa_K4414041]]).
 
===Method===
 
===Method===
Cells were treated with 0 or 100 nm Glucocorticoids 6h post-transfection. Cells without glucocorticoid treatment were used as control. Culture medium was collected at 24h post glucocorticoids treatment. SEAP activity was measured according to a published protocol. (Shao et al., 2021)
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Cells were treated with 0 or 100 nm Glucocorticoids 6h post-transfection. Cells without glucocorticoid treatment were used as control. Culture medium was collected at 24h post glucocorticoids treatment. SEAP activity was measured according to a published protocol. (Shao, Qiu, & Xie, 2021)
 
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===Reference===
 
===Reference===
1. Weikum, E. R., Knuesel, M. T., Ortlund, E. A., & Yamamoto, K. R. (2017). Glucocorticoid receptor control of transcription: precision and plasticity via allostery. Nature reviews. Molecular cell biology, 18(3), 159–174. https://doi.org/10.1038/nrm.2016.152
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1. Weikum, E. R., Knuesel, M. T., Ortlund, E. A., & Yamamoto, K. R. (2017). Glucocorticoid receptor control of transcription: precision and plasticity via allostery. Nat Rev Mol Cell Biol, 18(3), 159-174. doi:10.1038/nrm.2016.152
  
2.Shao, J., Qiu, X., & Xie, M. (2021). Engineering Mammalian Cells to Control Glucose Homeostasis. Methods in molecular biology, 2312, 35-57 .
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2. Shao, J., Qiu, X., & Xie, M. (2021). Engineering Mammalian Cells to Control Glucose Homeostasis. Methods Mol Biol, 2312, 35-57. doi:10.1007/978-1-0716-1441-9_3

Revision as of 14:23, 11 October 2022


LBD-GGGSG-tetR-vp64

This part is an integrated tool for the perception of cortisol stimulation 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. The GRLBD domain on the N terminus 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.(Weikum et al., 2017) GGGSG linker, owning some flexibility and allowing the proteins on both sides to complete their own independent functions. Tet R in our design provides DNA binding domain tightly binding to the downstream gene, which binds to the TCE promoter (Part:BBa_K4016011) consisting of seven direct 19-bp Tet operator sequence (Teto) repeats. VP64 is a transcriptional activator composed of four tandem copies of VP16 connected with glycine-serine (GS) linkers. 

Figure1.Schematic figure of BBa_K4414028 and (Part:BBa_K4414041).


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]



Functional test

To test the ability of this part to respond to glucocorticoids, HEK-293T cells were co-transfected with plasmids encoding both LBD-1*GSlinker-Tet R-VP64 (BBa_K4414028) and TCE-SEAP(BBa_K4414041).

Method

Cells were treated with 0 or 100 nm Glucocorticoids 6h post-transfection. Cells without glucocorticoid treatment were used as control. Culture medium was collected at 24h post glucocorticoids treatment. SEAP activity was measured according to a published protocol. (Shao, Qiu, & Xie, 2021)

Figure2.Schematic representation of the experimental process of validation for BBa_K4414028 and (BBa_K4414041).


Result

Results showed similar SEAP expression in glucocorticoid-treated cells compared to the non-treated control (1.78 folds).

Figure3.Glucocorticoid-stimulated transcriptional activation of SEAP mediated by BBa_K4414028.

Reference

1. Weikum, E. R., Knuesel, M. T., Ortlund, E. A., & Yamamoto, K. R. (2017). Glucocorticoid receptor control of transcription: precision and plasticity via allostery. Nat Rev Mol Cell Biol, 18(3), 159-174. doi:10.1038/nrm.2016.152

2. Shao, J., Qiu, X., & Xie, M. (2021). Engineering Mammalian Cells to Control Glucose Homeostasis. Methods Mol Biol, 2312, 35-57. doi:10.1007/978-1-0716-1441-9_3