Difference between revisions of "Part:BBa K2123200"

 
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<partinfo>BBa_K2123200 short</partinfo>
 
<partinfo>BBa_K2123200 short</partinfo>
  
Strong RBS + MerR + Terminator
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== Overview: ==
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MerR is an integrate part of Mer Operon a set of genes that grant bacterial resistance to mercury. MerR gene codifies a regulatory protein which ties itself to mer operator (MerO) of the bidirectional promoter region, activating the mer operon expression and therefore the mercury resistance mechanism. In the absence of Hg, MerR is a weak repressor.
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== Structure and mechanism: ==
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Molecular structure of MerR protein is constituted of 144 individuals amino acids that differ in nine type of residues. Structurally, the regulator presents itself as an homodimer with mass equivalent to 31 kDa. The C and N-terminal extremities are intimately connected in MerR role as regulator. C-terminal is the Hg binding site, mediated by three cysteine residues. Then, N-terminal is linked to the operator (MerO), between -35 and -10 regions, so the recognition site remains inaccessible to RNA polymerase and genes transcription does not begin.
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MerR is able to attract RNA polymerase to the promoter region, even in absence of Hg(II). The pre-transcriptional complex merR-polymerase remains steady and not producing until Hg(II) is bound to merR’s C site, causing an allosteric change in the protein’s structure. This is propagated to the DNA strain, which unwinds and favors RNA polymerase binding to the promoter, and transcription starts. The formation of pre-transcriptional complex allows quick answer to Hg(II) presence in the medium. The regulatory mechanism of merR and activation of Mer Operon is illustrated below:
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Revision as of 09:13, 22 October 2016


Strong RBS + MerR (regulatory protein) + trp Terminator

Overview:

MerR is an integrate part of Mer Operon a set of genes that grant bacterial resistance to mercury. MerR gene codifies a regulatory protein which ties itself to mer operator (MerO) of the bidirectional promoter region, activating the mer operon expression and therefore the mercury resistance mechanism. In the absence of Hg, MerR is a weak repressor.

Structure and mechanism:

Molecular structure of MerR protein is constituted of 144 individuals amino acids that differ in nine type of residues. Structurally, the regulator presents itself as an homodimer with mass equivalent to 31 kDa. The C and N-terminal extremities are intimately connected in MerR role as regulator. C-terminal is the Hg binding site, mediated by three cysteine residues. Then, N-terminal is linked to the operator (MerO), between -35 and -10 regions, so the recognition site remains inaccessible to RNA polymerase and genes transcription does not begin. MerR is able to attract RNA polymerase to the promoter region, even in absence of Hg(II). The pre-transcriptional complex merR-polymerase remains steady and not producing until Hg(II) is bound to merR’s C site, causing an allosteric change in the protein’s structure. This is propagated to the DNA strain, which unwinds and favors RNA polymerase binding to the promoter, and transcription starts. The formation of pre-transcriptional complex allows quick answer to Hg(II) presence in the medium. The regulatory mechanism of merR and activation of Mer Operon is illustrated below:


Sequence and Features


Assembly Compatibility:
  • 10
    COMPATIBLE WITH RFC[10]
  • 12
    COMPATIBLE WITH RFC[12]
  • 21
    COMPATIBLE WITH RFC[21]
  • 23
    COMPATIBLE WITH RFC[23]
  • 25
    COMPATIBLE WITH RFC[25]
  • 1000
    COMPATIBLE WITH RFC[1000]