Difference between revisions of "Part:BBa K190015"
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+ | Promoter arsRp is associated with the dimer of ArsR for the arsenic induced transcription of genes involved in arsenic efflux (arsR, arsB and arsC, which is present on the genome of <i>Escherichia coli</i> str. K-12 substrain MG1655). The sequence shows the typical -10 and -35 region of the promoter and can be found through the following [http://biocyc.org/ECOLI/NEW-IMAGE?type=OPERON&object=TU00239 link]. A second region, located at -41.5 from the transcription start site, is thought to bind dimeric ArsR. Upon binding of arsenic, the dimer dissociates and allows the RNA polymerase space to attach itself, and can also be found in the same [http://biocyc.org/ECOLI/NEW-IMAGE?type=OPERON&object=TU00239 link]. | ||
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|This set includes promoters that are sensitive to various metals. The promoters are typically regulated by a receptor protein that binds to the metal ion or complex. | |This set includes promoters that are sensitive to various metals. The promoters are typically regulated by a receptor protein that binds to the metal ion or complex. | ||
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− | + | Arsenic is an element less essential for the functioning of cells, and its survival. Low concentrations can have devastating effects, interfering with processes in the cell. Because of the similarity to phosphate, sometimes arsenate is mistaken for phosphate, which is how it is introduced into living organisms, including <i>E. coli</i>, by the phosphate uptake system. Other molecules such as As(III) can also be introduced into the cells by various membrane transporters. Cells have effective defenses to deal with elevated levels of arsenic variants, which are under the control of metal sensitive promoters. The transcription is mostly regulated by proteins binding to, or releasing from the promoter site, like ArsR. | |
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*ArsR belongs to the ArsR/SmtB family of transcriptional regulators that respond to a variety of metals. ArsR has a helix-turn-helix motif for DNA binding, a metal-binding site, and a dimerization domain. In ArsR the inducer-binding site contains three cysteine residues that bind arsenite and antimonite specifically and with high affinity. Dimerization of ArsR is required for DNA binding and its ability to act as a transcriptional repressor. The dimer recognizes and binds to a 12-2-12 inverted repeat, but the binding of arsenic or antimonite to ArsR causes a conformational change in it, leading to dissociation from DNA and hence derepression (KEGG). | *ArsR belongs to the ArsR/SmtB family of transcriptional regulators that respond to a variety of metals. ArsR has a helix-turn-helix motif for DNA binding, a metal-binding site, and a dimerization domain. In ArsR the inducer-binding site contains three cysteine residues that bind arsenite and antimonite specifically and with high affinity. Dimerization of ArsR is required for DNA binding and its ability to act as a transcriptional repressor. The dimer recognizes and binds to a 12-2-12 inverted repeat, but the binding of arsenic or antimonite to ArsR causes a conformational change in it, leading to dissociation from DNA and hence derepression (KEGG). |
Revision as of 18:07, 21 October 2009
Arsenic Promoter (ArsR regulated)
Promoter arsRp is associated with the dimer of ArsR for the arsenic induced transcription of genes involved in arsenic efflux (arsR, arsB and arsC, which is present on the genome of Escherichia coli str. K-12 substrain MG1655). The sequence shows the typical -10 and -35 region of the promoter and can be found through the following [http://biocyc.org/ECOLI/NEW-IMAGE?type=OPERON&object=TU00239 link]. A second region, located at -41.5 from the transcription start site, is thought to bind dimeric ArsR. Upon binding of arsenic, the dimer dissociates and allows the RNA polymerase space to attach itself, and can also be found in the same [http://biocyc.org/ECOLI/NEW-IMAGE?type=OPERON&object=TU00239 link].
This set includes promoters that are sensitive to various metals. The promoters are typically regulated by a receptor protein that binds to the metal ion or complex. |
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]
Arsenic is an element less essential for the functioning of cells, and its survival. Low concentrations can have devastating effects, interfering with processes in the cell. Because of the similarity to phosphate, sometimes arsenate is mistaken for phosphate, which is how it is introduced into living organisms, including E. coli, by the phosphate uptake system. Other molecules such as As(III) can also be introduced into the cells by various membrane transporters. Cells have effective defenses to deal with elevated levels of arsenic variants, which are under the control of metal sensitive promoters. The transcription is mostly regulated by proteins binding to, or releasing from the promoter site, like ArsR.
- ArsR belongs to the ArsR/SmtB family of transcriptional regulators that respond to a variety of metals. ArsR has a helix-turn-helix motif for DNA binding, a metal-binding site, and a dimerization domain. In ArsR the inducer-binding site contains three cysteine residues that bind arsenite and antimonite specifically and with high affinity. Dimerization of ArsR is required for DNA binding and its ability to act as a transcriptional repressor. The dimer recognizes and binds to a 12-2-12 inverted repeat, but the binding of arsenic or antimonite to ArsR causes a conformational change in it, leading to dissociation from DNA and hence derepression (KEGG).
- ArsR negatively controls the expression of the genes involved in arsenical and antimonite metals resistance, whose expression is induced in the presence of these metals. The protein is autoregulated, because arsR is the first gene in the arsRBC operon that it regulates. Overexpression of ArsR in Escherichia coli has been used for removal of arsenite from contaminated water (KEGG).
(ArsR)2-DNA → ArsR-Ar + ArsR-Ar + DNA → Activation of transription
The presence of all genes and promoters on the chromosome of E. coli makes the use of the arsRp for induction of the GVP cluster relatively straith forward.