Difference between revisions of "Part:BBa K1231000"
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As of yet, the function of the asr gene, or “acid-shock RNA” gene, and the mechanism responsible for its induction are still unclear. However, Lien et al. have taken significant steps toward characterizing the gene. They propose that asr encodes a periplasmic or outer-membrane protein. Knockout experiments illustrated that the PhoBR operon plays a significant role in activating the asr gene. They demonstrated through mobility shift electrophoresis that the PhoB protein binds to the promoter region of asr. By analyzing the sequence of the asr promoter region, they revealed that it contains a sequence similar to that of the Pho box, which is a consensus sequence known to bind the PhoB protein. The Pho box can be found in the promoter regions of other PhoB-regulated genes. | As of yet, the function of the asr gene, or “acid-shock RNA” gene, and the mechanism responsible for its induction are still unclear. However, Lien et al. have taken significant steps toward characterizing the gene. They propose that asr encodes a periplasmic or outer-membrane protein. Knockout experiments illustrated that the PhoBR operon plays a significant role in activating the asr gene. They demonstrated through mobility shift electrophoresis that the PhoB protein binds to the promoter region of asr. By analyzing the sequence of the asr promoter region, they revealed that it contains a sequence similar to that of the Pho box, which is a consensus sequence known to bind the PhoB protein. The Pho box can be found in the promoter regions of other PhoB-regulated genes. | ||
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+ | = NCKU_Tainan 2018 = | ||
+ | |||
+ | ===Characterization=== | ||
+ | The asr promoter was first described by Suziedeliene et al. in 1999. They showed that asr is induced under low pH which is about pH 4.8, and it is controlled by the phoBR system. From the article they have published, the promoter is named as acid shock RNA (asr) promoter due to the RNA that has been transcribed after putting the <i>E. coli</i> into a low pH condition. | ||
+ | |||
+ | In 2007 Ogasawara et al2. found out that there is another regulatory system that controlling asr transcription by using SELEX to find the binding sequences of PhoQP-RstBA. Hence the asr promoter is directly controlled by two different systems, the PhoBR system activated through low inorganic phosphate and the RstAB system sensing the pH while it is controlled by PhoQP-system activated by low Mg<sup>2+</sup> concentrations. | ||
+ | |||
+ | Our team have cloned this gene and also a sfGFP gene downstream of this promoter which could express green fluorescent once the promoter has been activated. In conclusion, we could monitor the pH in the surrounding medium in our device at any time by observing the color change of the medium. | ||
+ | |||
+ | [[File:T--NCKU Tainan--part BBa K2762014.png|200px|centre]] | ||
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Revision as of 07:21, 6 October 2018
The asr promoter is a pH-responsive promoter.
This part contains the asr promoter with its native RBS. The asr promoter is a pH-responsive promoter native to E. coli. It induces transcription in acidic conditions (~pH 5.5).
Usage and Biology
As of yet, the function of the asr gene, or “acid-shock RNA” gene, and the mechanism responsible for its induction are still unclear. However, Lien et al. have taken significant steps toward characterizing the gene. They propose that asr encodes a periplasmic or outer-membrane protein. Knockout experiments illustrated that the PhoBR operon plays a significant role in activating the asr gene. They demonstrated through mobility shift electrophoresis that the PhoB protein binds to the promoter region of asr. By analyzing the sequence of the asr promoter region, they revealed that it contains a sequence similar to that of the Pho box, which is a consensus sequence known to bind the PhoB protein. The Pho box can be found in the promoter regions of other PhoB-regulated genes.
NCKU_Tainan 2018
Characterization
The asr promoter was first described by Suziedeliene et al. in 1999. They showed that asr is induced under low pH which is about pH 4.8, and it is controlled by the phoBR system. From the article they have published, the promoter is named as acid shock RNA (asr) promoter due to the RNA that has been transcribed after putting the E. coli into a low pH condition.
In 2007 Ogasawara et al2. found out that there is another regulatory system that controlling asr transcription by using SELEX to find the binding sequences of PhoQP-RstBA. Hence the asr promoter is directly controlled by two different systems, the PhoBR system activated through low inorganic phosphate and the RstAB system sensing the pH while it is controlled by PhoQP-system activated by low Mg2+ concentrations.
Our team have cloned this gene and also a sfGFP gene downstream of this promoter which could express green fluorescent once the promoter has been activated. In conclusion, we could monitor the pH in the surrounding medium in our device at any time by observing the color change of the medium.
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]