Difference between revisions of "Part:BBa K2295003"
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| − | =HRE (Hypoxia Response Element) pTal (Minimal Promoter)= | + | ==HRE (Hypoxia Response Element) pTal (Minimal Promoter)== |
[[Image:T-FREIBURG-HIF Signaling.png|400px|thumb|right| | [[Image:T-FREIBURG-HIF Signaling.png|400px|thumb|right| | ||
'''Figure 1: Signaling pathway of HIF1A.''' | '''Figure 1: Signaling pathway of HIF1A.''' | ||
<p> | <p> | ||
</p>]] | </p>]] | ||
| − | + | Hypoxia response elements (HREs) are enhancers with binding elements for Hypoxia-inducible factors. | |
| − | Hypoxia | + | |
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| − | ==Characterization | + | ===Characterization Freiburg 2017=== |
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====Construct and Conditions==== | ====Construct and Conditions==== | ||
Gene expression specific to low oxygen concentrations (hypoxia) as given in the tumor microenvironment was tested with promoters containing hypoxia response elements (HREs) (Schödel et al., 2011). However, it is difficult and expensive to cultivate mammalian cells under hypoxic conditions. The transcription factor hypoxia inducible factor 1 alpha (HIF1A), which binds to HREs, is regulated by proline hydroxylase domain proteins (PHDs). Like in the absence of oxygen, modification of HIF1A by ΡΗDs can also be inhibited by cobalt dichloride (CoCl2), which was therefore used to mimic hypoxia (Epstein et al. 2001). | Gene expression specific to low oxygen concentrations (hypoxia) as given in the tumor microenvironment was tested with promoters containing hypoxia response elements (HREs) (Schödel et al., 2011). However, it is difficult and expensive to cultivate mammalian cells under hypoxic conditions. The transcription factor hypoxia inducible factor 1 alpha (HIF1A), which binds to HREs, is regulated by proline hydroxylase domain proteins (PHDs). Like in the absence of oxygen, modification of HIF1A by ΡΗDs can also be inhibited by cobalt dichloride (CoCl2), which was therefore used to mimic hypoxia (Epstein et al. 2001). | ||
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[[Image:T-FREIBURG-HRE Results-50pc.png|900px|thumb|center| | [[Image:T-FREIBURG-HRE Results-50pc.png|900px|thumb|center| | ||
| − | '''Figure | + | '''Figure 2: Flow cytometry of hypoxia response element promoter tests. ''' |
<p><b>a)</b> Jurkat, <b>b)</b> HEK293T cells stably transduced with 4xHRE-pTal:eCFP, and <b>c)</b> HRE-pTal:eCFP or <b>d)</b> 4xHRE-pTal:eCFP PEI transfected into CHO-K1 cells. For analysis cells were incubated 24 h with indicated concentrations of CoCl<sub>2</sub>. Significant differences were determined using one-tailed student’s t-test (Excel 2017) followed by Bonferroni-Hoch correction; * p ** p non-significant and decreasing differences are not marked.</p>]] | <p><b>a)</b> Jurkat, <b>b)</b> HEK293T cells stably transduced with 4xHRE-pTal:eCFP, and <b>c)</b> HRE-pTal:eCFP or <b>d)</b> 4xHRE-pTal:eCFP PEI transfected into CHO-K1 cells. For analysis cells were incubated 24 h with indicated concentrations of CoCl<sub>2</sub>. Significant differences were determined using one-tailed student’s t-test (Excel 2017) followed by Bonferroni-Hoch correction; * p ** p non-significant and decreasing differences are not marked.</p>]] | ||
| − | ==Cloning== | + | ===Cloning=== |
[[Image:T-FREIBURG-Improved Biobrick.png|500px|thumb|right| '''Figure 3: <partinfo>BBa_K2295003</partinfo> and multiple enhancer elements''' | [[Image:T-FREIBURG-Improved Biobrick.png|500px|thumb|right| '''Figure 3: <partinfo>BBa_K2295003</partinfo> and multiple enhancer elements''' | ||
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]] | ]] | ||
===Multiple Enhancer Elements=== | ===Multiple Enhancer Elements=== | ||
| + | Tuning the amount of enhancer elements, downstream transcription can be regulated. By introducing a BglII restriction site between the HRE and the pTal promoter in BBa_K2295003, an easy cloning strategy to change the amount of multiple enhancer elements is offered. Using compatible end cloning, multiple enhancer elements can be increased exponentially as shown in Figure 3. | ||
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===Sequencing Results=== | ===Sequencing Results=== | ||
[[Image:T-FREIBURG-hreptalsequencing.png|900px|thumb|center| '''Figure 4: Sequencing Result''' | [[Image:T-FREIBURG-hreptalsequencing.png|900px|thumb|center| '''Figure 4: Sequencing Result''' | ||
<p> | <p> | ||
| + | Sanger sequencing was done at GATC with <partinfo>BBa_G00100</partinfo>. Geneious was used to map result to the expceted sequence. Line one: coverage, line 2: expected sequence, line 3: sequencing result | ||
</p> | </p> | ||
]] | ]] | ||
| − | + | The original sequence of the pTal promoter was modified by one basepair due to a EcoRI restriction side which is not allowed in RFC10. | |
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===Usage and Biology=== | ===Usage and Biology=== | ||
Latest revision as of 23:36, 1 November 2017
HRE (Hypoxia Response Element) pTal (Minimal Promoter)
Hypoxia response elements (HREs) are enhancers with binding elements for Hypoxia-inducible factors.
Characterization Freiburg 2017
Construct and Conditions
Gene expression specific to low oxygen concentrations (hypoxia) as given in the tumor microenvironment was tested with promoters containing hypoxia response elements (HREs) (Schödel et al., 2011). However, it is difficult and expensive to cultivate mammalian cells under hypoxic conditions. The transcription factor hypoxia inducible factor 1 alpha (HIF1A), which binds to HREs, is regulated by proline hydroxylase domain proteins (PHDs). Like in the absence of oxygen, modification of HIF1A by ΡΗDs can also be inhibited by cobalt dichloride (CoCl2), which was therefore used to mimic hypoxia (Epstein et al. 2001).
Jurkat and HEK293T cell lines with stable integration of the TATA-like minimal promoter (pTal; Mahindhoratep et al., 2014), modified to contain quadruple HRE, expressing eCFP were tested. Alternatively, single enhancer element promoters were introduced into CHO-K1 by PEI transfection. For analysis, cells were incubated with CoCl2 for 24 h prior to measurement by flow cytometry. Concentrations used vary between the cell lines due to different onset of toxicity.
Data and Discussion
Flow cytometry of Jurkat 4xHRE-pTal:eCFP cells shows increasing eCFP fluorescence correlating with moderate rising treatment (Fig. 1 a). Promoter activity in this most relevant cell line is strongest at 80 μM CoCl2, decrease of signal at greater levels of induction may stem from toxicity of CoCl2. Overall low expression is likely due to weak transcriptional activity inherent in this cell line (Michel et al., 2017).
a) Jurkat, b) HEK293T cells stably transduced with 4xHRE-pTal:eCFP, and c) HRE-pTal:eCFP or d) 4xHRE-pTal:eCFP PEI transfected into CHO-K1 cells. For analysis cells were incubated 24 h with indicated concentrations of CoCl2. Significant differences were determined using one-tailed student’s t-test (Excel 2017) followed by Bonferroni-Hoch correction; * p ** p non-significant and decreasing differences are not marked.
Cloning
Multiple Enhancer Elements
Tuning the amount of enhancer elements, downstream transcription can be regulated. By introducing a BglII restriction site between the HRE and the pTal promoter in BBa_K2295003, an easy cloning strategy to change the amount of multiple enhancer elements is offered. Using compatible end cloning, multiple enhancer elements can be increased exponentially as shown in Figure 3.
Sequencing Results
Sanger sequencing was done at GATC with BBa_G00100. Geneious was used to map result to the expceted sequence. Line one: coverage, line 2: expected sequence, line 3: sequencing result
The original sequence of the pTal promoter was modified by one basepair due to a EcoRI restriction side which is not allowed in RFC10. Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21INCOMPATIBLE WITH RFC[21]Illegal BglII site found at 51
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
References
This part can be seen as an improvement of BBa_K1456004 and BBa_K1720002