Difference between revisions of "Part:BBa K4291016"
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J23119 pro-CueR- rrnB T1 ter- T7Te ter- CopA pro-amilGFP- rrnB T1 ter- T7Te ter | J23119 pro-CueR- rrnB T1 ter- T7Te ter- CopA pro-amilGFP- rrnB T1 ter- T7Te ter | ||
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Name: CuR-CopA-amilGFP | Name: CuR-CopA-amilGFP | ||
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Base Pairs: 1703 bp | Base Pairs: 1703 bp | ||
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Origin: E.coli, genome | Origin: E.coli, genome | ||
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Properties: Monitor the Cu concentration | Properties: Monitor the Cu concentration | ||
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== Usage and biology == | == Usage and biology == | ||
The plasmid was designed to monitor the cooper concentration using the amilGFP intensity. The CueR which belongs to mercury resistance regulator (MerR) family response the mental ions including cooper and silver. Meanwhile, the CueR control the expression of CopA promoter. In the MerR family, there are other metal-responsive metal-regulators including ZntR, CadR, CoaR which response to the heavy metal zinc, cadmium and cobalt, respectively. All of the metal-regulators has the same property that these regulators could balance the heavy metal ions in bacteria via regulating the transcription of heavy-metal-resistance genes. | The plasmid was designed to monitor the cooper concentration using the amilGFP intensity. The CueR which belongs to mercury resistance regulator (MerR) family response the mental ions including cooper and silver. Meanwhile, the CueR control the expression of CopA promoter. In the MerR family, there are other metal-responsive metal-regulators including ZntR, CadR, CoaR which response to the heavy metal zinc, cadmium and cobalt, respectively. All of the metal-regulators has the same property that these regulators could balance the heavy metal ions in bacteria via regulating the transcription of heavy-metal-resistance genes. | ||
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==BBa_K4291012 == | ==BBa_K4291012 == | ||
Name: CueR | Name: CueR | ||
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Base Pairs: 408 bp | Base Pairs: 408 bp | ||
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Origin: E.coli, genome | Origin: E.coli, genome | ||
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Properties: regulate the cooper efflux | Properties: regulate the cooper efflux | ||
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== Usage and biology == | == Usage and biology == | ||
BBa_K4291012 is an encoding sequence of cooper efflux regulator (CuR) which is sensitive to metal ions such as Cu+, Ag+, Au+. In addition, CuR controls the transcription of copA in response the cooper salt. | BBa_K4291012 is an encoding sequence of cooper efflux regulator (CuR) which is sensitive to metal ions such as Cu+, Ag+, Au+. In addition, CuR controls the transcription of copA in response the cooper salt. | ||
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== BBa_K4291013 == | == BBa_K4291013 == | ||
Name: CopA promoter | Name: CopA promoter | ||
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Base Pairs: 287 bp | Base Pairs: 287 bp | ||
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Origin: E.coli, genome | Origin: E.coli, genome | ||
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Properties: Cu+-transporting ATPase pump | Properties: Cu+-transporting ATPase pump | ||
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== Usage and biology == | == Usage and biology == | ||
BBa_K4291013 is an encoding sequence copA which is a cooper-transporter P-type ATPase pump. The expression of copA is improved when exposed to metal ions such as silver and cupric ions due to eliminating the CuR effect. | BBa_K4291013 is an encoding sequence copA which is a cooper-transporter P-type ATPase pump. The expression of copA is improved when exposed to metal ions such as silver and cupric ions due to eliminating the CuR effect. | ||
Latest revision as of 07:36, 30 September 2022
CueR-CopA-amilGFP
J23119 pro-CueR- rrnB T1 ter- T7Te ter- CopA pro-amilGFP- rrnB T1 ter- T7Te ter
Profile
Name: CuR-CopA-amilGFP
Base Pairs: 1703 bp
Origin: E.coli, genome
Properties: Monitor the Cu concentration
Usage and biology
The plasmid was designed to monitor the cooper concentration using the amilGFP intensity. The CueR which belongs to mercury resistance regulator (MerR) family response the mental ions including cooper and silver. Meanwhile, the CueR control the expression of CopA promoter. In the MerR family, there are other metal-responsive metal-regulators including ZntR, CadR, CoaR which response to the heavy metal zinc, cadmium and cobalt, respectively. All of the metal-regulators has the same property that these regulators could balance the heavy metal ions in bacteria via regulating the transcription of heavy-metal-resistance genes.
The components of this plasmid are described as follows:
BBa_K4291012
Name: CueR
Base Pairs: 408 bp
Origin: E.coli, genome
Properties: regulate the cooper efflux
Usage and biology
BBa_K4291012 is an encoding sequence of cooper efflux regulator (CuR) which is sensitive to metal ions such as Cu+, Ag+, Au+. In addition, CuR controls the transcription of copA in response the cooper salt.
BBa_K4291013
Name: CopA promoter
Base Pairs: 287 bp
Origin: E.coli, genome
Properties: Cu+-transporting ATPase pump
Usage and biology
BBa_K4291013 is an encoding sequence copA which is a cooper-transporter P-type ATPase pump. The expression of copA is improved when exposed to metal ions such as silver and cupric ions due to eliminating the CuR effect.
Sequence and Features
- 10COMPATIBLE WITH RFC[10]
- 12INCOMPATIBLE WITH RFC[12]Illegal NheI site found at 7
Illegal NheI site found at 30 - 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]