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<p><b>Figure 4 | </b> Hot plate testing, cells remained white after 5h.</p> | <p><b>Figure 4 | </b> Hot plate testing, cells remained white after 5h.</p> | ||
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<p><b>Figure 5 | </b> Cells before and after 5h of hot plate testing and 1h in the 42℃ incubator. After growth overnight in the 37℃ incubator, the cells had a slight pink colour in the centre.</p> | <p><b>Figure 5 | </b> Cells before and after 5h of hot plate testing and 1h in the 42℃ incubator. After growth overnight in the 37℃ incubator, the cells had a slight pink colour in the centre.</p> | ||
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+ | <p>Following this test, we wanted to see if expression of mRFP1 could be increased by increasing the incubation time. After reading RDFZ-China 2018 iGEM team’s wiki (https://2018.igem.org/Team:RDFZ-China), we decided to incubate different colonies off the same plate for 24h. | ||
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+ | 6 colonies from each plate (α and β) were inoculated in liquid as well as plated on solid double antibiotic plates over the weekend at room temperature. After 65h, the colour of the cells were mostly white with some samples either with a pink centre or were fully pink (see table 1). | ||
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+ | <p><b>Table 1 | </b> Colour of liquid and solid versions of each.</p> | ||
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+ | Plates were made with the same samples above and incubated at 24h at 4 different temperatures: 23℃ (room temperature in our lab), 30℃, 37℃ and 42℃. | ||
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+ | After 24h, the 37℃ and 42℃ plates had grown a lot of colonies. A control plate as also incubated at room temperature, however after 24h, there were no colonies grown. Therefore, we chose to compare the plates against the room temperature 89h growth as the colony density was more compatible. | ||
+ | Compared to the room temperature α plate that grew over the weekend, where only α2 was fully pink, all of the colonies on the α plate that grew in 37℃ for 24h were more pink. These plates suggested that temperature did have an effect on the expression of mRFP1. | ||
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+ | <p><b>Figure 6 | </b> Left: Plates with TcI BL21 cells. The 30℃ did not seem to have many colonies after 24h, and the 23℃ had no colonies for all 12 samples. Right: All samples on the α plate that grew in 37℃ for 24 h were pink.</p> | ||
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Revision as of 21:54, 28 September 2024
TCI
TCI is a temperature-sensitive variant of the bacteriophage λ repressor cI. It consists of N-terminal, C-terminal and the fragment between N-terminal and C-terminal whose function is the linkage. It is a cold-inducible transcription factor. When the temperature is below 35℃, the activity of TCI will gradually rising. When the temperature is above 35℃, the activity of TCI will remain at a low level.
Characterization
In 2019, UCAS-China developed a collection of thermosensitive parts with high-performance, versatility and robustness. Based on TCI transcription factor family and TlpA family, we collected five TCI and TlpA mutants and used sfGFP as reporter to build some heat-inducible ON-switches, which can open gene expression under high temperature. To characterize them quantitatively, we first characterized the performance of them by flow cytometer in Top10 strain.
As shown in Figure 1, most of the transcription repressors show sharp thermal transitions, especially TCI and TCI42, with more than 100-fold induction within 10 degrees Celsius. Their impressive performances make them candidate parts for our further circuit design.
What’s more, we also tested these heat-inducible ON-switch in the chassis E.coli Nissle 1917, a probiotic with more than 100 years of medical application, their robustness give us more confidence in the stability and preciseness of our ark. The result is shown in Figure 2.
Reference
Piraner, D. I., Abedi, M. H., Moser, B. A., Lee-Gosselin, A., and Shapiro, M. G., Tunable thermal bioswitch for in vivo control of microbial therapeutics. DOI: 10.1038/NCHEMBIO.2233
TcI double-plasmids reporter system by Cambridge 2024
Introduction
TcI is a thermolabile mutant form of the cI protein of bacteriophage lambda, which unbinds its operon at temperatures above 37 Celsius (Valdez-Cruz et al, 2010). We are aiming to design a system with two plasmids: one expressing TcI under the standard promoter, and the other expressing a fluorescent protein under the control of or TcI. The ideal system will express the fluorescent protein at temperatures above 37 Celsius. Successful construction of the double-plasmid will allow us to replace the fluorescent protein with any cds, and the expression of the selected cds will be strictly heat-sensitive.
Design
The double plasmid system uses parts mostly from the distribution kit. TcI is under the control of a constitutive Anderson promoter (BBa_J23119), and a double terminator B0015 is used in the system. We chose the BBa_J23119 promoter because the characterisation on the registry suggested a higher rate of transcription compared to the other tested promoters. We also used mRFP1 instead of eYFP because we wanted to visualise the fluorescence more easily against the yellow autofluorescence of the LB agar.
Construction
The promoter and terminator were extracted from the kit by PCR, rather than transformation and miniprep. The plasmids were assembled by golden gate, and two types of transformations were performed. One involved each golden gate reaction being chemically transformed into DH5alpha, as is standard. In the interest of time, we also electroporated both reactions into BL21 at once and plated onto a double antibiotic plate. Both sets of transformations were successful as colonies grew on their respective single or double antibiotic plates. 1p and 2p V1 cells were heat shocked for 1 min, and V2 heat shocked for 30s. BL21 cells were plated onto plates: α β with no difference between the cells on each plate. As the BL21 double plasmid cells grew, we proceeded with thermal testing. However, following a colony PCR, we found that the 1p Golden Gate was unsuccessful and some parts were missing.
Testing
We tested the BL21 on the hot plate for 5 hours. At the beginning, the cells were white and remained white after 5 hours. Our positive control was the β2 pink colony as it was pink even at room temperature. Next, we put the plate in a 43℃ incubator for 1 hour. After growing overnight at room temperature, the colonies remained white. After growth at room temperature for another day, the colonies had a slight pink colour in the centre.
Following this test, we wanted to see if expression of mRFP1 could be increased by increasing the incubation time. After reading RDFZ-China 2018 iGEM team’s wiki (https://2018.igem.org/Team:RDFZ-China), we decided to incubate different colonies off the same plate for 24h.
6 colonies from each plate (α and β) were inoculated in liquid as well as plated on solid double antibiotic plates over the weekend at room temperature. After 65h, the colour of the cells were mostly white with some samples either with a pink centre or were fully pink (see table 1).
Plates were made with the same samples above and incubated at 24h at 4 different temperatures: 23℃ (room temperature in our lab), 30℃, 37℃ and 42℃.
After 24h, the 37℃ and 42℃ plates had grown a lot of colonies. A control plate as also incubated at room temperature, however after 24h, there were no colonies grown. Therefore, we chose to compare the plates against the room temperature 89h growth as the colony density was more compatible.
Compared to the room temperature α plate that grew over the weekend, where only α2 was fully pink, all of the colonies on the α plate that grew in 37℃ for 24h were more pink. These plates suggested that temperature did have an effect on the expression of mRFP1.
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]