Difference between revisions of "Part:BBa K3628022"
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Authors iGEM Yucai_SZ 2021, Haixin Wang. | Authors iGEM Yucai_SZ 2021, Haixin Wang. | ||
We inserted this part into a pSB4C5 backbone, and transformed it into the Escherichia coli DH5α host cell which had harbored a pSB1A3 plasmid containing a [[Part:BBa_K4055532|pT7-amilCP transcriptional unit]]. Then test it in tubes. | We inserted this part into a pSB4C5 backbone, and transformed it into the Escherichia coli DH5α host cell which had harbored a pSB1A3 plasmid containing a [[Part:BBa_K4055532|pT7-amilCP transcriptional unit]]. Then test it in tubes. | ||
− | + | [[File:T--Yucai_SZ--splitT7RNAP.png|center|Testing system for photosensitive T7RNAP]] | |
*Inoculate a colony into LB medium and culture overnight in dark (200 rpm, 37 ℃). | *Inoculate a colony into LB medium and culture overnight in dark (200 rpm, 37 ℃). | ||
*Overnight cultures are inoculated 1:100 into two tubes with fresh LB medium. When cultured in shaking table, one tube is exposed to 480 nm blue light, and the other one is covered by tin foil, to protect it from light | *Overnight cultures are inoculated 1:100 into two tubes with fresh LB medium. When cultured in shaking table, one tube is exposed to 480 nm blue light, and the other one is covered by tin foil, to protect it from light | ||
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*Centrifugate the sample tubes at 10 000 g for 30 seconds and observe the colors of bacterial precipitations. | *Centrifugate the sample tubes at 10 000 g for 30 seconds and observe the colors of bacterial precipitations. | ||
− | [[File: | + | [[File:Shiyan14q.jpg|600px|thumb|center|The left was cultured under blue light, and the right was in dark]] |
− | + | ||
+ | This system can work under blue light. | ||
+ | |||
+ | Actually, We tested four photosensitive T7RNAP systems,[[Part:BBa_K3628023|BBa_K3628023]], [[Part:BBa_K3628022|BBa_K3628022]], [[Part:BBa_K3628024|BBa_K3628024]] and [[Part:BBa_K4055001|BBa_K4055001]], with the same structure under the same conditions: | ||
+ | |||
− | [[File:Shiyan.jpeg|600px|thumb|center| | + | [[File:Shiyan.jpeg|600px|thumb|center|There are four groups of blue light systems, from left to right are BBa_K3628023、BBa_K3628022、BBa_K3628024 ,BBa_K4055001 .Each group had blue material on the left that was light exposed and white on the right that was protected from light. ]] |
− | There are four groups of blue light systems, from left to right are BBa_K3628023、BBa_K3628022、BBa_K3628024 ,BBa_K4055001 .Each group had blue material on the left that was light exposed and white on the right that was protected from light. | + |
Latest revision as of 00:23, 22 October 2021
J23106-RBS-T7 RNA polymerase N 1~179-pMag-RBS-nMag-T7 RNA polymerase C 180~883
Description
This part contains Spacer between Photoswitches, lac operator, GS linker 1, GS linker 2nMag and pMag. This lead to active T7RNAP
Usage and Biology
Photoswitches efficiency test
Experiments & Results
1、Photoswitches efficiency test
Experimental setup
- In this experiment, we transformJ23106-RBS-T7 RNA polymerase N 1~179-pMag-RBS-nMag-T7 RNA polymerase C 180~883 and plasmid contains GFP regulated by T7 promoter simultaneously into DH5α. We culture the strain overnight to get bacteria culture.
- Bacteria cultures overnight are inoculated 1:200 in fresh LB medium for two times each. One is exposed to blue light, and the other one is covered by tin foil, to protect it from light.
- Take 1mL cell culture for each measurement.
- harvest the cells by centrifuge. Discard the supernatant and add 1mL PBS. Blow the bacteria to dissolve.
- Repeat step 2 for three times, to exclude the deviations influenced by the medium.
- Take 100μL cell culture and mix it with 900μL PBS. Sufficiently mix.
- Transferred 200μL of it to a 96 well plate.
- Measure absorbance under OD 600 nm and the fluorescent intensity by a microplate reader. The excitation light is 485nm, and emission light is 535nm.
Results
Test photoswitch efficiency. Here is the result of the photoswitches efficiency test, which is what we have mentioned before in the experiment part. After we have harvested the cells, they are applied the fluorescence intensity measurement.
We divide fluorescence intensity by OD 600nm and get a relative GFP expression condition. The values are applied to view the photoswitches efficiencies by ratio. To convey the result more directly, we illustrate the following column diagram. A truncation is made by us to put all data in one graph.
Only effective photoswitches are presented in the graph. In these groups, blue bars (Light) are higher than the black bars (Dark).
This means GFP is expressed in a larger amount in Light groups. This indicates a successful construction of photoswitches.
From the Figure, we find pMag-nMag cannot achieve light regulation. Therefore, we choose [[Part:BBa_K3628023|J23106-RBS-T7 RNA polymerase N 1~179-pMagFast2-RBS-nMagHigh1-T7 RNA polymerase C 180~883] and [[Part:BBa_K3628024|J23106-RBS-T7 RNA polymerase N 1~564-Vvd-RBS-Vvd-T7 RNA polymerase C 565~883] to regulate levodopa yielding in the next experiment.
2、Light-regulated L-dopa production
In this experiment we combined [[Part:BBa_K3628023|J23106-RBS-T7 RNA polymerase N 1~179-pMagFast2-RBS-nMagHigh1-T7 RNA polymerase C 180~883] or [[Part:BBa_K3628024|J23106-RBS-T7 RNA polymerase N 1~564-Vvd-RBS-Vvd-T7 RNA polymerase C 565~883] with HpaBC respectively, to test whether the light-regulated HpaBC synthesis can be achieved. If light-regulated HpaBC synthesis is accomplished, light-regulated L-dopa production can then be realized.
Experimental setup
- In this experiment, we transform J23106-RBS-T7 RNA polymerase N 1~179-pMag-RBS-nMag-T7 RNA polymerase C 180~883 and plasmid contains T7 promoter-RBS-HpaB SMS-RBS-HpaC SMS simultaneously into DH5α. We culture the strain overnight to get bacteria culture.
- The monoclonals are later overnight cultivated, and is then inoculated into fresh LB medium with a proportion of 1:200.
- Samples are taken for 1mL each time at several points: 8h, 16h, 24h, 28h, 32h, 44h.
- We applied a levodopa measurement for each sample.
Results
[[Part:BBa_K3628024|J23106-RBS-T7 RNA polymerase N 1~564-Vvd-RBS-Vvd-T7 RNA polymerase C 565~883] and [[Part:BBa_K3628023|J23106-RBS-T7 RNA polymerase N 1~179-pMagFast2-RBS-nMagHigh1-T7 RNA polymerase C 180~883] are efficient and picked. In the following graph, we illustrate the yielding condition of the two photoswitches under different culture conditions. In this graph, we can see our engineered E. coli produce levodopa at a relatively high rate in the Light group, but lower in the Dark group.
From the figure, we find we successfully achieve yielding levodopa under the regulation of light. Vvd and pMagFast2-nMagHigh1 have similar regulation efficiency.
Yucai_SZ 2021
Authors iGEM Yucai_SZ 2021, Haixin Wang. We inserted this part into a pSB4C5 backbone, and transformed it into the Escherichia coli DH5α host cell which had harbored a pSB1A3 plasmid containing a pT7-amilCP transcriptional unit. Then test it in tubes.
- Inoculate a colony into LB medium and culture overnight in dark (200 rpm, 37 ℃).
- Overnight cultures are inoculated 1:100 into two tubes with fresh LB medium. When cultured in shaking table, one tube is exposed to 480 nm blue light, and the other one is covered by tin foil, to protect it from light
- After 12 hours of shaking culture, 500 μL culture were sampled and transferred into 1.5 mL EP tube.
- Centrifugate the sample tubes at 10 000 g for 30 seconds and observe the colors of bacterial precipitations.
This system can work under blue light.
Actually, We tested four photosensitive T7RNAP systems,BBa_K3628023, BBa_K3628022, BBa_K3628024 and BBa_K4055001, with the same structure under the same conditions: