Coding

Part:BBa_K613019

Designed by: Lilia Salimova   Group: iGEM11_EPF-Lausanne   (2011-09-20)

TetR P39Q Y42M mutant

This is a TetR mutant carrying the P39Q Y42M double mutation. Part of the EPFL2011 muTetR collection.

In vitro characterization

Using the MITOMI technique we determined the DNA binding landscape of the TetR P39Q Y42M mutant. To do so, first we designed and generated the library of double stranded DNA sequences that cover all possible single base substitution within the tetO operator sequence. Based on that library we measured the dissociation constants of the mutant to variable tetO-like sequences and determined the specificity of the mutant to the tet operator sequence (expressed as a PWM). For the P39Q Y42M mutant we observed the decrease of the specificity compared to the wild-type tetR sequence.

WebLogo we obtained for the P39Q Y42M mutant:

EPFL2011 P39QY42M WebLogo.png


Position Weight Matrix

PO A T C G
1 0.455977 0.0513378 0.0469535 0.0942038
2 0 0.455977 0.0808971 0.0550434
3 0.024486 0 0.455977 0
4 0 0.455977 0 0.175581
5 0.455977 0 0.0549319 0
6 0.162363 0.455977 0.0897636 0.0689181
7 0 0.02975 0.455977 0.0170034
8 0.455977 0 0 0.0975597
9 0.134079 0.455977 0 0
10 0.486152 0.455977 0.0220095 0
11 0 0.0246322 0.0847586 0.455977
12 0.455977 0 0 0.0321177
13 0.20916 0.455977 0 0.0482279
14 0.455977 0 0.0837475 0.141681
15 0 0.107215 0 0.455977
16 0 0 0.269667 0.455977
17 0.0634094 0 0.455977 0.0582705

Each row represents the changes in binding energy, ΔΔG, compared to the reference sequence upon the substitution to the indicated nucleotide at certain position within the target DNA element. Values are indicated in kcal/mol.

In vivo characterization

This TetR mutant was characterized in vivo by putting it into pSB3K1 under a constitutive promoter (J23116). This plasmid was cotransformed with J61002 harbouring RFP under pTet promoter (B0040) in DH5alpha cells. Cells were grown in a medium containing Kanamycin & Amplicillin plus different concentrations of ATC, ranging from 0 to 2000 ng/mL. OD600 absorbence and RFP fluorescence were measured every 10 minutes during 12 hours on a platereader machine.


Induction curves

Fluorescence measurements (RFUs) were normalized by OD600 values.

EPFL TetR-P39QY42M-induction.png

In the absence of ATC, RFP expression in presence of the mutant goes up to 25000 normalized RFUs, which is the far more than expression level of the wild-type TetR in the same conditions. This shows that the mutant can only poorly bind and inactivate pTet - in comparison to the wild-type and other mutants such as V36F(K613013) or V36F W43S(K613014). With 2000 ng/mL of ATC in the cell culture, RFP expression is further increased, but this change is quite small. This indicates again that the P39Q y42M mutant is not repressing pTet. Interestingly, the P39Q y42M mutant resembles closely to the P39K mutant (K613016); both have a mutation on the 39 residue.


Dose-response curve

Fluorescence measurements (RFUs) were normalized by OD600 values. For each ATC concentration, we estimated the steady-state fluorescence expression by averaging the measurements over the last hour.

EPFL TetR-P39QY42M-doseresponse.png

The dose-response curve shows that ATC has almost no action on RFP expression. While we cannot know if this mutant still binds ATC in a normal way, it is clear that P39Q y42M has only little repressive action on the pTet promoter.

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]


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