Difference between revisions of "Part:BBa K5267007"
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− | <partinfo> | + | <partinfo>BBa_K5267008 short</partinfo> |
Transpose and respond to calcium ion signals | Transpose and respond to calcium ion signals | ||
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<span class='h3bb'>Sequence and Features</span> | <span class='h3bb'>Sequence and Features</span> | ||
− | <partinfo> | + | <partinfo>BBa_K5267008 SequenceAndFeatures</partinfo> |
<!-- Uncomment this to enable Functional Parameter display | <!-- Uncomment this to enable Functional Parameter display | ||
===Functional Parameters=== | ===Functional Parameters=== | ||
− | <partinfo> | + | <partinfo>BBa_K5267008 parameters</partinfo> |
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===Profile=== | ===Profile=== | ||
− | Name: | + | Name: Pmin_5*NFAT promoter |
<br>Base Pairs: 191bp | <br>Base Pairs: 191bp | ||
<br>Origin: Homo sapiens | <br>Origin: Homo sapiens | ||
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===Usage and Biology=== | ===Usage and Biology=== | ||
− | + | Nuclear factor of activated T cells (NFAT) was first identified more than two | |
− | + | decades ago as a major stimulation-responsive DNA-binding factor and transcriptional | |
+ | regulator in T cells. NFAT is a family of transcription factors. It was originally discovered in activated T cells as a transcription factor capable of binding to the promoter of human interleukin-2 (IL2) to rapidly induce its expression. Widely expressed in a variety of animal tissues and cells, NFAT is a key regulatory point of multiple intracellular signal transduction pathways, and also plays an important role in immune system, nervous system development, axon growth, and nervous system diseases,in this project it used to indirectly monitor effects of increases in the intracellular Ca2+ concentrations.[1] | ||
===Special design=== | ===Special design=== | ||
− | + | In an effort to non-invasively assess the impact of elevated intracellular calcium ion (Ca2+) concentrations, we have developed a series of Ca2+-inducible NanoLuc reporters predicated on the Ca2+-dependent activation of dimeric nuclear factor of activated T cells (NFAT), as depicted in Figure 1A[2]. | |
+ | <br>These reporters incorporate a varying number of tandem repeats (1×, 5×, 6×, and 7×) of a pseudo-palindromic NFAT response element (NFAT-RE) derived from the interleukin-4 (IL4) promoter sequence (5′-GGAATTTCC-3′), which is anticipated to drive the transcription of the NanoLuc reporter gene. '''(Figure 1)''' | ||
+ | <br>To elucidate the effects of intracellular Ca2+ concentration increments, human embryonic kidney 293 cells (HEK293) were co-transfected with expression plasmids encoding each of the newly designed NanoLuc reporters. This approach enables the indirect monitoring of the cellular response to fluctuations in intracellular Ca2+ concentrations.[3] | ||
+ | <html> | ||
+ | |||
+ | <figure class="figure"> | ||
+ | <div style="width=100%;height=auto;align-items:center"> | ||
+ | <img src="https://static.igem.wiki/teams/5267/i-m-zhangrenjie/7.jpg" class="figure-img img-fluid rounded" height="200px"> | ||
+ | |||
+ | </figure> | ||
+ | |||
+ | </html> | ||
+ | <br>Figure 1. Construction of a pseudo-palindromic NFAT-response element (RE)-directed nanoluciferase(Nanoluc) reporter system. | ||
===Function test=== | ===Function test=== | ||
− | In order to test the function of calcium ion response element, P_min5*NFAT_IL4 is loaded onto a vector which is equipped with sleeping beauty transposon site and nano luciferase (Nluc) reporter gene downstream. Once the fluorescent signal of Nluc expression be detected, this marks the successful binding of calcium ions and P_min5*NFAT_IL4. '''(Figure | + | In order to test the function of calcium ion response element, P_min5*NFAT_IL4 is loaded onto a vector which is equipped with sleeping beauty transposon site and nano luciferase (Nluc) reporter gene downstream. Once the fluorescent signal of Nluc expression be detected, this marks the successful binding of calcium ions and P_min5*NFAT_IL4. '''(Figure 2)''' |
− | In Figure | + | In Figure 2, we can find that the expression level of Nluc gene in cells supplemented with P_min5*NFAT_IL4 is significantly increased compared with the blank control, which proves that the calcium pathway responded successfully. |
<html> | <html> | ||
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<div style="width=100%;height=auto;align-items:center"> | <div style="width=100%;height=auto;align-items:center"> | ||
<img src="https://static.igem.wiki/teams/5267/i-m-zhangrenjie/3.jpg" class="figure-img img-fluid rounded" height="400px"> | <img src="https://static.igem.wiki/teams/5267/i-m-zhangrenjie/3.jpg" class="figure-img img-fluid rounded" height="400px"> | ||
+ | |||
+ | </figure> | ||
</html> | </html> | ||
+ | <br>In Figure 2, we can find that the expression level of Nluc gene in cells supplemented with P_min5*NFAT_IL4 is significantly increased compared with the blank control, which proves that the calcium pathway responded successfully. | ||
===Sequence=== | ===Sequence=== | ||
Top: | Top: | ||
− | <br> | + | <br>ggagtacattggaaaattttatacacgttctagctacattggaaaattttatacacgttctagctacattggaaaatttt |
− | <br> | + | <br>atacacgttctagctacattggaaaattttatacacgttctagctacattggaaaattttatacacgttagaccctagag |
− | <br> | + | <br>ggtatataatggaagctcgacttccagtact |
− | + | ||
===Reference=== | ===Reference=== | ||
− | [1] | + | [1] M. R. Müller and A. Rao, “NFAT, immunity and cancer: a transcription factor comes of age,” Nat. Rev. Immunol., vol. 10, no. 9, pp. 645–656, Sep. 2010, doi: 10.1038/nri2818. |
− | <br>[2] | + | <br>[2] W. Zhang, T. Takahara, T. Achiha, H. Shibata, and M. Maki, “Nanoluciferase Reporter Gene System Directed by Tandemly Repeated Pseudo-Palindromic NFAT-Response Elements Facilitates Analysis of Biological Endpoint Effects of Cellular Ca2+ Mobilization,” Int. J. Mol. Sci., vol. 19, no. 2, p. 605, Feb. 2018, doi: 10.3390/ijms19020605. |
− | <br>[3] | + | <br>[3] K. A. Strait, P. K. Stricklett, R. M. Kohan, and D. E. Kohan, “Identification of Two Nuclear Factor of Activated T-cells (NFAT)-response Elements in the 5′-Upstream Regulatory Region of the ET-1 Promoter,” J. Biol. Chem., vol. 285, no. 37, pp. 28520–28528, Sep. 2010, doi: 10.1074/jbc.M110.153189. |
Revision as of 19:06, 24 September 2024
Pmin_5*NFAT promoter
Transpose and respond to calcium ion signals 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]
Profile
Name: Pmin_5*NFAT promoter
Base Pairs: 191bp
Origin: Homo sapiens
Properties: Transpose and respond to calcium ion signals
Usage and Biology
Nuclear factor of activated T cells (NFAT) was first identified more than two decades ago as a major stimulation-responsive DNA-binding factor and transcriptional regulator in T cells. NFAT is a family of transcription factors. It was originally discovered in activated T cells as a transcription factor capable of binding to the promoter of human interleukin-2 (IL2) to rapidly induce its expression. Widely expressed in a variety of animal tissues and cells, NFAT is a key regulatory point of multiple intracellular signal transduction pathways, and also plays an important role in immune system, nervous system development, axon growth, and nervous system diseases,in this project it used to indirectly monitor effects of increases in the intracellular Ca2+ concentrations.[1]
Special design
In an effort to non-invasively assess the impact of elevated intracellular calcium ion (Ca2+) concentrations, we have developed a series of Ca2+-inducible NanoLuc reporters predicated on the Ca2+-dependent activation of dimeric nuclear factor of activated T cells (NFAT), as depicted in Figure 1A[2].
These reporters incorporate a varying number of tandem repeats (1×, 5×, 6×, and 7×) of a pseudo-palindromic NFAT response element (NFAT-RE) derived from the interleukin-4 (IL4) promoter sequence (5′-GGAATTTCC-3′), which is anticipated to drive the transcription of the NanoLuc reporter gene. (Figure 1)
To elucidate the effects of intracellular Ca2+ concentration increments, human embryonic kidney 293 cells (HEK293) were co-transfected with expression plasmids encoding each of the newly designed NanoLuc reporters. This approach enables the indirect monitoring of the cellular response to fluctuations in intracellular Ca2+ concentrations.[3]