Difference between revisions of "Part:BBa K1021007"
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− | + | <span class="mw-headline" id="DTU_2019s_Characterization">DTU-Denmark 2019's Characterization</span> | |
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− | The promoter | + | The DTU-Denmark 2019 team has characterized the PtrpC promoter in <i>Aspergillus niger</i>. Our characterization experiments were done in two different scales: 1.5 ml wells in a microbioreactor (BioLector), and 10 mL cultures in specialized 50 mL falcon tubes. |
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+ | <h3>GFP expression in <i>Aspergillus niger</i> under PtrpC control</h3> | ||
+ | The characterisation of the PtrpC promoter was done by integrating the promoter into the plasmid, as described at the DTU-Denmark 2019 wiki <a href="https://2019.igem.org/Team:DTU-Denmark/Design_Plasmid" target="_blank">page.</a> <br> | ||
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+ | The promoter was characterised by two separate experiments. | ||
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In the first experiment, the PtrpC strain was cultivated in quadruplicates in 50 mL breathable falcon tubes in 10 mL minimal media. A negative control consisting of the parental strain was included. The strains were cultivated for 80 h. at 37°C with shaking at 150 rpm. The culture was then stored at 4°C, and subsequently protein was extracted and fluorescence measured as described on the DTU-Denmark 2019 wiki <a href="https://2019.igem.org/Team:DTU-Denmark/Experiments" target="_blank">page.</a> <br> | In the first experiment, the PtrpC strain was cultivated in quadruplicates in 50 mL breathable falcon tubes in 10 mL minimal media. A negative control consisting of the parental strain was included. The strains were cultivated for 80 h. at 37°C with shaking at 150 rpm. The culture was then stored at 4°C, and subsequently protein was extracted and fluorescence measured as described on the DTU-Denmark 2019 wiki <a href="https://2019.igem.org/Team:DTU-Denmark/Experiments" target="_blank">page.</a> <br> | ||
Latest revision as of 00:56, 22 October 2019
PtrpC
PtrpC is a strong constitutive promoter from Aspergillus nidulans's tryptophan biosynthesis pathways. It was isolated using a fungal transformation vector and constructed into the pSB1C3 backbone for continuous homologous and heterologous gene expression in fungal chassis.
Sequence and Features
Assembly Compatibility:
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
To test the activity of the trpC promoter, a composite part was created with GFP downstream (BBa_K1021023). This part was transformed into the ascomycete fungi Cochliobolus heterostrophus. Results indicated that the trpC promoter provided GFP expression within this fungal chassis.
DTU-Denmark 2019's Characterization
The DTU-Denmark 2019 team has characterized the PtrpC promoter in Aspergillus niger. Our characterization experiments were done in two different scales: 1.5 ml wells in a microbioreactor (BioLector), and 10 mL cultures in specialized 50 mL falcon tubes.GFP expression in Aspergillus niger under PtrpC control
The characterisation of the PtrpC promoter was done by integrating the promoter into the plasmid, as described at the DTU-Denmark 2019 wiki page.The promoter was characterised by two separate experiments.
In the first experiment, the PtrpC strain was cultivated in quadruplicates in 50 mL breathable falcon tubes in 10 mL minimal media. A negative control consisting of the parental strain was included. The strains were cultivated for 80 h. at 37°C with shaking at 150 rpm. The culture was then stored at 4°C, and subsequently protein was extracted and fluorescence measured as described on the DTU-Denmark 2019 wiki page.
The resulting data can be found below. In the second experiment, the expression of GFP over time from PtrpC was measured using a micro-bioreactor (Biolector, m2p-labs). The trpC promoter was tested in seven different wells in the BioLector by measurements of fluorescence and biomass every 5 minutes for the 85 hours the characterization experiment was running. The concentration of the GFP-FU (GFP-fluorescence units), was calculated by a standard curve, that was constructed from the results form the biolecter. The GFP-FU equivalent fluorescence is illustrated in the figure below. The figure below illustrates the same data as a function of light scattering units (biomass).