Difference between revisions of "Part:BBa K4129103"

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In addition, to characterising FunsTF05 in <i>A. niger</i> grown on solid media, the <i>A. niger</i> that expressed FunsTF05 was tested in liquid media. T
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In addition, to characterising FunsTF05 in <i>A. niger</i> grown on solid media, the <i>A. niger</i> that expressed FunsTF05 was tested in liquid media. The fluorescence is measured at four time points and they are 2 hours (figure 4A), 26 hours (figure 4B), 47 hours (figure 4C), and 70 hours (figure 4D) after induction. The variants of the fluorescence at the four time points are minimal. Genomically integrated BBa_K3046004 roughly has the highest fluorescence with FunsTF05 displays fluorescence slightly below BBa_K3046004 at all time points (figure 4). The fluorescence of FunsTF05 is higher than FunsTF04 and BBa_K4129025, thus further supporting VP16 is an more active domaine than B112. No induction was obsvered, due to the fluorescence was either lower or within the standard deviation of the uninduced FunsTF05.
  
 
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<figure><img style="width: 80%; padding:28px;"src="https://static.igem.org/mediawiki/parts/4/4e/FunsTF0405_0226H.png"><img style="width: 80%; padding:28px;"src="https://static.igem.org/mediawiki/parts/2/2b/FunsTF0405_4770H.png" class="safetyfirstimg">
 
<figure><img style="width: 80%; padding:28px;"src="https://static.igem.org/mediawiki/parts/4/4e/FunsTF0405_0226H.png"><img style="width: 80%; padding:28px;"src="https://static.igem.org/mediawiki/parts/2/2b/FunsTF0405_4770H.png" class="safetyfirstimg">
<figcaption>Figure 4: Barplot of the fluorescence (RFU) with standard deviation displayed as arrows. The fluorescence was from <i>A</i>. <i>niger</i> carrying genomically integrated BBa_K3046004, BBa_K4129025, FunsTF04 or FunsTF05. The <i>A</i>. <i>niger</i> was grown in minimal media and it was uninduced (blue) or induced with 0.6 g/L furfural (red) or 2 mM benzoic acid (green). The fluorescence was measured <b>A)<b/> 2 hours, <b>B)</b> 26 hours, <b>C)</b> 47 hours, and <b>D)</b> 70 hours after induction</figcaption></figure>
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<figcaption>Figure 4: Barplot of log transformed fluorescence (RFU) with standard deviation displayed as arrows. The fluorescence was from <i>A</i>. <i>niger</i> carrying genomically integrated BBa_K3046004, BBa_K4129025, FunsTF04 or FunsTF05. The <i>A</i>. <i>niger</i> was grown in minimal media and it was uninduced (blue) or induced with 0.6 g/L furfural (red) or 2 mM benzoic acid (green). The fluorescence was measured <b>A)</b> 2 hours, <b>B)</b> 26 hours, <b>C)</b> 47 hours, and <b>D)</b> 70 hours after induction.</figcaption></figure>
 
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Revision as of 08:24, 12 October 2022

The synthetic transcription factor, FunsTF05 (LexA-LL-Hmox1-VP16-SV40)

FunsTF05 is a synthetic transcription factor (sTF). FunsTF05 is designed to function as a transcription factor. In theory, FunsTF05 should be able to interact with an inducer and this interaction will facilitate transcription from a promoter. This design of sTF is a possible sensing part of a biosensor.

Figure 1: The proposed mode of action of the synthetic expression system with FunsTF05. Funs05 consisting of LexA (orange), Hmox1 (green) and VP16 (pink) interacts with a inducer. This interacting promotes expression of mCherry 6xLexO-Pmin.


FunsTF05 is a fusion protein consisting of the DNA-binding domain from LexA, the ligand sensing domain from Hmox1, transactivation domain VP16 and the nuclear localization signal (NLS) SV40. The linker between the LexA domain and the Hmox1 domain is a longer linker (Ottoz et. al (2014)) compared to the linker used in sBAD, which was the reference sTF (Castaño-Cerezo et. al (2020)). FunsTF05 was codon optimised to Aspergillus. niger .

LexA is a repressor that regulates the SOS response in E. coli (Radman. 1975). LexA binds to a specific DNA motif, namely LexO sites (Erill. et al (2003)). Hmox1 is the human heme oxygenase 1, which is the enzyme that initiates cleavage of heme (Tenhunen et al. (1969)). This enzyme was, despite the seemingly unrelated context, computationally shown to bind furfural (Santhakumar et al (2021)).

Viral Protein 16 (VP16) from Herpes simplex virus type 1 is a transcription factor with a transactivation domain that recruits RNA polymerase II (Hirai et al. (2010)).The NLS SV40 is a small peptide sequence of PKKKRKV that enables transport of the protein to the nucleus (Garcia-Bustos et. al (1991)).

In short, FunsTF05 should be able to interact with furfural due to Hmox1, it should be able to bind to LexO site, and it should be able to activate transcription of a minimal promoter like 6xLexO-Pmin (BBa_K4129103).

Characterization

The functionality of FunsTF05 was tested by measuring the fluorescence of A. niger expressing sTF05 and the mCherry reporter (BBa_K4129123). The A. niger is grown on solid media plates. The plates contained either minimal media, minimal media with mM benzoic acid or MM with 0.6 g/L furfural.

The fluorescence of the plates was assessed, after four days of incubation at 30, using the Vilber Fusion FX imager system. The intensity of the fluorescences was presented as grey-white. The exposure time was normalised to the fluorescences from genomically integrated BBa_K3046004. It is observed that genomically integrated BBa_K3046004 displays fluorescence and the negative control of BBa_K4129025 did not (figure 2).


Figure 2: Pictures of fluorescent A. niger, carrying either BBa_K4129025 or genome integrated BBa_K3046004. The picture are taken with 1.04 seconds exposure time. The A. niger is grown on plates containing minimal media (MM), MM with 2 mM benzoic acid or MM with 0.6 g/L furfural. The fluorescent is depicted as grey-white intensity.


The observed fluorescence of FunsTF05 was greater than that of genomically integrated BBa_K3046004 on the different plates (figure 2). BBa_K3046004 is a strong constitutive promoter in A. niger, and this emphasises the strength of FunsTF05. The observed fluorescence of FunsTF05 did not differ too much between plates, which indicates that FunsTF05 constitutively expresses mCherry (BBa_K4129123), thus confirming the functionality of this part.

A closely related sTF from our collection is FunsTF04 (K4129102), and the only difference is that the transactivation domain used in FunsTF04 is B112 while FunsTF05 uses VP16. FunsTF04 does not express mCherry to the same level as FunsTF05 and this indicates VP16 is the more active transactivation domain of B112 and VP16, when the A. niger is grown on solid plates.


Figure 3: Pictures of fluorescent A. niger, carrying FunsTF04 or FunsTF05. The pictures are taken with 1.04 seconds exposure time. The A. niger is grown on plates containing minimal media (MM), MM with 2 mM benzoic acid or MM with 0.6 g/L furfural. The fluorescent is depicted as grey-white intensity.


In addition, to characterising FunsTF05 in A. niger grown on solid media, the A. niger that expressed FunsTF05 was tested in liquid media. The fluorescence is measured at four time points and they are 2 hours (figure 4A), 26 hours (figure 4B), 47 hours (figure 4C), and 70 hours (figure 4D) after induction. The variants of the fluorescence at the four time points are minimal. Genomically integrated BBa_K3046004 roughly has the highest fluorescence with FunsTF05 displays fluorescence slightly below BBa_K3046004 at all time points (figure 4). The fluorescence of FunsTF05 is higher than FunsTF04 and BBa_K4129025, thus further supporting VP16 is an more active domaine than B112. No induction was obsvered, due to the fluorescence was either lower or within the standard deviation of the uninduced FunsTF05.

Figure 4: Barplot of log transformed fluorescence (RFU) with standard deviation displayed as arrows. The fluorescence was from A. niger carrying genomically integrated BBa_K3046004, BBa_K4129025, FunsTF04 or FunsTF05. The A. niger was grown in minimal media and it was uninduced (blue) or induced with 0.6 g/L furfural (red) or 2 mM benzoic acid (green). The fluorescence was measured A) 2 hours, B) 26 hours, C) 47 hours, and D) 70 hours after induction.


Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    INCOMPATIBLE WITH RFC[21]
    Illegal BglII site found at 945
    Illegal BamHI site found at 607
    Illegal XhoI site found at 800
    Illegal XhoI site found at 1237
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]