Difference between revisions of "Part:BBa K346002"

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== Introduction ==
 
 
This part, PmerT, is a promoter from Tn21 mercury resistance (mer) operon. The mer operon of Tn21 consists of two tightly overlapped, divergently oriented promoters – Pr and Ptpad.(Park, Wireman et al. 1992). Pr is the promoter of the regulatory protein gene, ''merR'', and Ptpcad is for the transcription of the structural gene – ''merPTAD''. They are called ''merOP'' as a whole.  
 
This part, PmerT, is a promoter from Tn21 mercury resistance (mer) operon. The mer operon of Tn21 consists of two tightly overlapped, divergently oriented promoters – Pr and Ptpad.(Park, Wireman et al. 1992). Pr is the promoter of the regulatory protein gene, ''merR'', and Ptpcad is for the transcription of the structural gene – ''merPTAD''. They are called ''merOP'' as a whole.  
  
 
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[[Image:MerR-dimer.jpg]]
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(A) The dimeric MerR regulator binds to the operator region of the promoter and recruits RNA polymerase, forming a ternary complex. Transcription is slightly repressed because the apo-MerR regulator dimer has bent the promoter DNA such that RNA polymerase does not contact it properly. (B) Upon binding the cognate metal ions (shown as cyan circles) the metallated MerR homodimer causes a realignment of the promoter such that RNA polymerase contacts the -35 and -10 sequences leading to open complex formation and transcription. Modified from Brown et al.
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[[Image:PmerT.jpg]]
 
[[Image:PmerT.jpg]]
  
 
'''Fig.1. DNA sequence of the Tn21 mer operator promoter region. The MerR binding site on PmerT is marked by a box. The -35 and -10 regions for both PmerR and PmerTPAD are marked with boxes, and the dyad symmetrical DNA sequence that MerR recognizes and binds to is marked with arrows under the DNA sequence.''' A: The divergently oriented promoters are marked by blue box and purple box, respectively. B: In our project, the expression intensity of MerR should be maintained exogenously, so the divergent promoter Pr (of MerR transcript) was also removed by deletion of its -35 region. The resulted promoter sequence is marked with a dark purple box Modified from (Hobman, Wilkie et al. 2005)
 
'''Fig.1. DNA sequence of the Tn21 mer operator promoter region. The MerR binding site on PmerT is marked by a box. The -35 and -10 regions for both PmerR and PmerTPAD are marked with boxes, and the dyad symmetrical DNA sequence that MerR recognizes and binds to is marked with arrows under the DNA sequence.''' A: The divergently oriented promoters are marked by blue box and purple box, respectively. B: In our project, the expression intensity of MerR should be maintained exogenously, so the divergent promoter Pr (of MerR transcript) was also removed by deletion of its -35 region. The resulted promoter sequence is marked with a dark purple box Modified from (Hobman, Wilkie et al. 2005)
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[[Image:merR1.jpg]]
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'''Fig.3. The model for the interaction of MerR and Hg(II) and its role in controlling PmerT transcription. Adapted from Jon L. Hobman, John Wilkie & Nigel L. Brown,2005. A: RNA polymerase (RNAP) transcribes ''merR'' from PmerR. MerR binds to the mer promoter/operator region (''merOP'') as a homodimer, recruits RNA polymerase, and represses transcription of ''merTPAD'' from PmerT.''' B: Hg(II) enters the bacterial cell by diffusion through the outer membrane, cytoplasm and inner membrane, and binds to three cysteine residues in the apo-MerR homodimer. The Hg-bound MerR homodimer causes an underwinding of ''merOP'' DNA, allowing RNAP to proceed with transcription of the resistance genes.
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The key sequence for MerR’s binding is a region of interrupted dyad symmetry (19bp) located between the -35 and -10 haxamers of Ptpcad (The top strand). And the structure of Pr (botton strand) is similar to Ptpcad in a divergent orientation. The -10 hexamers of Ptpcad and Pr actually overlap by four bases. When the apo-MerR dimer bind to the dyad symmetrical operator DNA between the -35 and – 10 elements of mercury inducible promoter, PmerT, which has a unusually long spacer of 19 bp for MerR to bind on, the binding of RNA polymerase is inhibited. When Hg(II) is available in the environment, the ion binds to merR between the two subunits(Fig.1). The Hg-bound MerR can result in an a structural distortion of PmerT, allowing the RNA polymerase contacts to be made, leading to the expression of down-stream genes. This mode of transcription activation indicates that as the apo-MerR and Hg-bound MerR have a competing relationship. The initiation of PmerT is controlled by the expression level of MerR, and the activity of which can be denoted by reporter genes. Thus the sensitivity of Hg(II) in cell can be manipulated.
 
The key sequence for MerR’s binding is a region of interrupted dyad symmetry (19bp) located between the -35 and -10 haxamers of Ptpcad (The top strand). And the structure of Pr (botton strand) is similar to Ptpcad in a divergent orientation. The -10 hexamers of Ptpcad and Pr actually overlap by four bases. When the apo-MerR dimer bind to the dyad symmetrical operator DNA between the -35 and – 10 elements of mercury inducible promoter, PmerT, which has a unusually long spacer of 19 bp for MerR to bind on, the binding of RNA polymerase is inhibited. When Hg(II) is available in the environment, the ion binds to merR between the two subunits(Fig.1). The Hg-bound MerR can result in an a structural distortion of PmerT, allowing the RNA polymerase contacts to be made, leading to the expression of down-stream genes. This mode of transcription activation indicates that as the apo-MerR and Hg-bound MerR have a competing relationship. The initiation of PmerT is controlled by the expression level of MerR, and the activity of which can be denoted by reporter genes. Thus the sensitivity of Hg(II) in cell can be manipulated.
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'''Fig.2. The construction of the bioassay.''' The transcription of PmerT is controlled by the percentage of Hg-bound MerR dimer, thus the expression of GFP can reflex the concentration of Hg(II).  
 
'''Fig.2. The construction of the bioassay.''' The transcription of PmerT is controlled by the percentage of Hg-bound MerR dimer, thus the expression of GFP can reflex the concentration of Hg(II).  
 
There are two strategies of shifting thresholds of the sensitivity of Hg(II)--mutating PmerT on the MerR binding site to change the affinity and varying MerR dimer concentration.
 
 
  
 
== Results ==
 
== Results ==

Revision as of 01:22, 26 October 2010

PmerT promoter (mercury-responsive)


This part, PmerT, is a promoter from Tn21 mercury resistance (mer) operon. The mer operon of Tn21 consists of two tightly overlapped, divergently oriented promoters – Pr and Ptpad.(Park, Wireman et al. 1992). Pr is the promoter of the regulatory protein gene, merR, and Ptpcad is for the transcription of the structural gene – merPTAD. They are called merOP as a whole.


MerR-dimer.jpg

(A) The dimeric MerR regulator binds to the operator region of the promoter and recruits RNA polymerase, forming a ternary complex. Transcription is slightly repressed because the apo-MerR regulator dimer has bent the promoter DNA such that RNA polymerase does not contact it properly. (B) Upon binding the cognate metal ions (shown as cyan circles) the metallated MerR homodimer causes a realignment of the promoter such that RNA polymerase contacts the -35 and -10 sequences leading to open complex formation and transcription. Modified from Brown et al.


PmerT.jpg

Fig.1. DNA sequence of the Tn21 mer operator promoter region. The MerR binding site on PmerT is marked by a box. The -35 and -10 regions for both PmerR and PmerTPAD are marked with boxes, and the dyad symmetrical DNA sequence that MerR recognizes and binds to is marked with arrows under the DNA sequence. A: The divergently oriented promoters are marked by blue box and purple box, respectively. B: In our project, the expression intensity of MerR should be maintained exogenously, so the divergent promoter Pr (of MerR transcript) was also removed by deletion of its -35 region. The resulted promoter sequence is marked with a dark purple box Modified from (Hobman, Wilkie et al. 2005)

MerR1.jpg

Fig.3. The model for the interaction of MerR and Hg(II) and its role in controlling PmerT transcription. Adapted from Jon L. Hobman, John Wilkie & Nigel L. Brown,2005. A: RNA polymerase (RNAP) transcribes merR from PmerR. MerR binds to the mer promoter/operator region (merOP) as a homodimer, recruits RNA polymerase, and represses transcription of merTPAD from PmerT. B: Hg(II) enters the bacterial cell by diffusion through the outer membrane, cytoplasm and inner membrane, and binds to three cysteine residues in the apo-MerR homodimer. The Hg-bound MerR homodimer causes an underwinding of merOP DNA, allowing RNAP to proceed with transcription of the resistance genes.


The key sequence for MerR’s binding is a region of interrupted dyad symmetry (19bp) located between the -35 and -10 haxamers of Ptpcad (The top strand). And the structure of Pr (botton strand) is similar to Ptpcad in a divergent orientation. The -10 hexamers of Ptpcad and Pr actually overlap by four bases. When the apo-MerR dimer bind to the dyad symmetrical operator DNA between the -35 and – 10 elements of mercury inducible promoter, PmerT, which has a unusually long spacer of 19 bp for MerR to bind on, the binding of RNA polymerase is inhibited. When Hg(II) is available in the environment, the ion binds to merR between the two subunits(Fig.1). The Hg-bound MerR can result in an a structural distortion of PmerT, allowing the RNA polymerase contacts to be made, leading to the expression of down-stream genes. This mode of transcription activation indicates that as the apo-MerR and Hg-bound MerR have a competing relationship. The initiation of PmerT is controlled by the expression level of MerR, and the activity of which can be denoted by reporter genes. Thus the sensitivity of Hg(II) in cell can be manipulated.

For the characterization of merR, you may want to click the link here[1].


Methods

In our design, merR was isolated from the operon and assembled with constitutive promoters of certain strength to maintain its expression intensity at certain level. For the same reason, the divergent promoter Pr was also removed by deletion of its -35 region(Fig.1). One biosensor construct was made by fusing PmerT and a reporting system, gfp, along with a plasmid structure that constitutive promoters prefixed before merR coding sequence(Fig.2).

PmerT-MerR.jpg

Fig.2. The construction of the bioassay. The transcription of PmerT is controlled by the percentage of Hg-bound MerR dimer, thus the expression of GFP can reflex the concentration of Hg(II).

Results

For more information, please check 'experience' and our wiki!



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]