Difference between revisions of "Part:BBa K2762015"
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<partinfo>BBa_K2762015 short</partinfo> | <partinfo>BBa_K2762015 short</partinfo> | ||
− | - | + | ===Background=== |
+ | The pH sensing system, our side project, is a system that allows us to monitor the pH in the surrounding medium in our device at any time by observing the color change of the medium. | ||
+ | |||
+ | We selected two pH sensitive promoter from <i>E. coli</i>: P<sub>asr</sub> and P<sub>gadA</sub>. P<sub>gadA</sub> will be induced under neutral condition while P<sub>asr</sub> will be induced under acidic condition. We cloned a GFP and sfGFP gene downstream of these promoters respectively, whose product will express green fluorescence once the promoter has been activated. For the design of P<sub>gadA</sub> sensing system, we took the previous constructed P<sub>gadA</sub> biobrick BBa_K1962013 from 2016 iGEM Dundee team as our reference. We also improve the P<sub>gadA</sub> biobrick to enhance the expression of GFP. | ||
+ | |||
+ | In conclusion, when the color of the medium turns from turbid yellow to green, it indicates the pH of the medium has altered so we can determine the pH condition of the medium. | ||
+ | |||
+ | ==Characterization== | ||
+ | ===Fluorescence intensity measurement of P<sub>gadA</sub>=== | ||
+ | P<sub>gadA</sub> was previously reported to be induced under neutral and mild acidic environment. We measure the fluorescence intensity for 14 hours. We pre-cultured the strain and incubate the strain with pH modified M9 medium (the pH value is modified with 1M HCl). The induction of P<sub>gadA</sub> is observed under neutral and mild expression. | ||
+ | |||
+ | [[File:T--NCKU Tainan--part gadA fluorescnet new .png|460px|centre]] | ||
+ | |||
+ | Fig 1. The data shows the fluorescence intensity (absorbance: 485 nm, excitation: 535 nm) expressed by P<sub>gadA</sub> in M9 medium with different pH. | ||
+ | |||
+ | ===Improvement of Biobrick=== | ||
+ | |||
+ | After analyzing the experiment result for our pH-sensing system, we have concluded that we should try to improve the previously constructed pH-sensitive promoters by 2016 iGEM Dundee team, P<sub>gadA</sub> (BBa_K1962013). We found out that although P<sub>gadA</sub> can be induced under neutral and weak acidic condition. But the fluorescence intensity is too low to be observed. We planned to increase the fluorescent intensity and shorten the time interval of induction. Thus, we added a RiboJ sequence at the downstream of the P<sub>gadA</sub>. | ||
+ | |||
+ | Based on our research, RiboJ was first described as an insulator in genetic construct but there has no any data shown this insulation affected the downstream genetic parts. The mechanism of RiboJ is that the upstream sequence, as well as RiboJ sequence, will cleave after the transcription. The cleavage of promoter and RiboJ sequence aids the design of predictable genetic constructs. The 2016 iGEM William and Mary team has reported that RiboJ could increase the expression of the downstream gene. Hence, we decided to enhance the expression of P<sub>gadA</sub> by adding a gene, RiboJ at the downstream of promoter gadA. | ||
+ | |||
+ | To determine the function and compare the improvement of the parts, we have measured the fluorescence intensity (fluorescence (a.u.) / O.D.600) of the construct with and without RiboJ in different pH environment. We incubated the bacteria in pH adjusted M9 medium and measure the fluorescence intensity (absorbance: 480 nm, excitation: 510 nm) in a short period of time. The pH value of M9 medium is adjusted with 1M HCl. | ||
+ | |||
+ | [[File:T--NCKU Tainan--part gadA fluorescnet new .png|460px|left]] | ||
+ | [[File:T--NCKU Tainan--part gadA RIBOJ fluorescnet new .png|460px|right]] | ||
+ | |||
+ | Fig 2. The fluorescence intensity expressed by P<sub>gadA</sub> (BBa_K1962013) and P<sub>gadA</sub> with RiboJ (BBa_K2762016) of 14 hours in M9 medium with four different pH value. | ||
+ | [[File:T--NCKU Tainan--part gadA RIBOJ fluorescnet vs gada new .png|460px|centre]] | ||
+ | |||
+ | Fig 3. The fluorescence of P<sub>gadA</sub> and P<sub>gadA</sub>-RiboJ in pH 6 and pH 7. | ||
+ | |||
+ | |||
+ | We observe that with the RiboJ sequence, the fluorescence intensity has risen dramatically at the 14<sup>th</sup> hour. We also compare the fluorescence at 3<sup>rd</sup>, 6<sup>th</sup>, and 9<sup>th</sup> hour. The fluorescence of the strain that contains RiboJ is more than that does not contain RiboJ. We can conclude that by adding the RiboJ sequence to the construct, the expression of fluorescence protein is increased. We can also conclude that RiboJ could also strengthen the signal and increase the specificity of the downstream gene of it. We improve the P<sub>gadA</sub> part so the difference of the surrounding pH condition can be observed easier. | ||
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Latest revision as of 23:33, 17 October 2018
PgadA-B0034-GFP
Background
The pH sensing system, our side project, is a system that allows us to monitor the pH in the surrounding medium in our device at any time by observing the color change of the medium.
We selected two pH sensitive promoter from E. coli: Pasr and PgadA. PgadA will be induced under neutral condition while Pasr will be induced under acidic condition. We cloned a GFP and sfGFP gene downstream of these promoters respectively, whose product will express green fluorescence once the promoter has been activated. For the design of PgadA sensing system, we took the previous constructed PgadA biobrick BBa_K1962013 from 2016 iGEM Dundee team as our reference. We also improve the PgadA biobrick to enhance the expression of GFP.
In conclusion, when the color of the medium turns from turbid yellow to green, it indicates the pH of the medium has altered so we can determine the pH condition of the medium.
Characterization
Fluorescence intensity measurement of PgadA
PgadA was previously reported to be induced under neutral and mild acidic environment. We measure the fluorescence intensity for 14 hours. We pre-cultured the strain and incubate the strain with pH modified M9 medium (the pH value is modified with 1M HCl). The induction of PgadA is observed under neutral and mild expression.
Fig 1. The data shows the fluorescence intensity (absorbance: 485 nm, excitation: 535 nm) expressed by PgadA in M9 medium with different pH.
Improvement of Biobrick
After analyzing the experiment result for our pH-sensing system, we have concluded that we should try to improve the previously constructed pH-sensitive promoters by 2016 iGEM Dundee team, PgadA (BBa_K1962013). We found out that although PgadA can be induced under neutral and weak acidic condition. But the fluorescence intensity is too low to be observed. We planned to increase the fluorescent intensity and shorten the time interval of induction. Thus, we added a RiboJ sequence at the downstream of the PgadA.
Based on our research, RiboJ was first described as an insulator in genetic construct but there has no any data shown this insulation affected the downstream genetic parts. The mechanism of RiboJ is that the upstream sequence, as well as RiboJ sequence, will cleave after the transcription. The cleavage of promoter and RiboJ sequence aids the design of predictable genetic constructs. The 2016 iGEM William and Mary team has reported that RiboJ could increase the expression of the downstream gene. Hence, we decided to enhance the expression of PgadA by adding a gene, RiboJ at the downstream of promoter gadA.
To determine the function and compare the improvement of the parts, we have measured the fluorescence intensity (fluorescence (a.u.) / O.D.600) of the construct with and without RiboJ in different pH environment. We incubated the bacteria in pH adjusted M9 medium and measure the fluorescence intensity (absorbance: 480 nm, excitation: 510 nm) in a short period of time. The pH value of M9 medium is adjusted with 1M HCl.
Fig 2. The fluorescence intensity expressed by PgadA (BBa_K1962013) and PgadA with RiboJ (BBa_K2762016) of 14 hours in M9 medium with four different pH value.
Fig 3. The fluorescence of PgadA and PgadA-RiboJ in pH 6 and pH 7.
We observe that with the RiboJ sequence, the fluorescence intensity has risen dramatically at the 14th hour. We also compare the fluorescence at 3rd, 6th, and 9th hour. The fluorescence of the strain that contains RiboJ is more than that does not contain RiboJ. We can conclude that by adding the RiboJ sequence to the construct, the expression of fluorescence protein is increased. We can also conclude that RiboJ could also strengthen the signal and increase the specificity of the downstream gene of it. We improve the PgadA part so the difference of the surrounding pH condition can be observed easier.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000INCOMPATIBLE WITH RFC[1000]Illegal BsaI.rc site found at 937