Coding

Part:BBa_K1123013

Designed by: Ardjan van der Linden   Group: iGEM13_TU-Eindhoven   (2013-08-31)

Protamine-1-Optimized Protein Sequence

This part contains the DNA code for an E.coli Optimized version of the Human Protamine protein. It can be placed behind any promoter and brought to expression with ease. Within the scope of our project it is being used to provide CEST contrast in MRI due to its high Arginine and Lysine content.

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]

Characterization

For the iGEM 2013 Purdue team we characterized our parts according to their characterization datasheets. The data sheet for this particular biobrick can be found here.

Characterization by the TU Eindhoven 2013 iGEM Team

This part was designed to generate CEST MRI contrast. The basic principle behind this technique is based on compounds that contain pools of exchangeable protons that can be selectively saturated using radiofrequency irradiation. Upon proton exchange with bulk water, these compounds can be indirectly visualized by measuring the bulk water using an MRI machine. The amino acids Lysine, Arginine, Threonine and Serine contain those exchangeable protons and polypeptides containing those amino acids in abundance are therefore potential contrast agents (see also [http://2013.igem.org/Team:TU-Eindhoven/Background CEST 101]).

The protein of this part has a Arginine percentage of 48 %, which is high compared to other (native) proteins. Therefore, it was expected that this protein would be detectable using CEST MRI.

Methods

The proteins were (aerobically) overexpressed in BL21 using a pET28a vector with a T7 promotor. The bacteria were spun down and fixed in PFA. The entire pellet (bacteria containing our proteins) was then measured in a 7 T Bruker MRI machine. First, the correct water frequency was determined, the machine was shimmed, i.e. a homogeneous magnetic field was created. The first measurement was a T2 weighed image for general orientation. Subsequently local shimming was performed on each of the separate pellets. For the final measurements, the saturation pulse was set to vary from ca. -4ppm to ca. +4ppm (relative to water), the measurements were averaged over 8 separate scans. Also a S0 (without saturation pulse) image was taken.

Results

This data was processed resulting in a asymmetry plot (MTR_assymetric) and a contrast plot visualizing the difference of the sample with the control sample. This was done by both subtracting (absolute difference) and dividing (relative difference). For a complete overview of the processing steps see the TU-Eindhoven 2013 [http://2013.igem.org/Team:TU-Eindhoven/MRIProcessing MRI Data Processing page]. The results are shown below: TU-Eindhoven Parts MRI Protamine.png

Conclusion

Around 2.0 ppm there does not seem to be an arginine peak in the MTR_assymetric plot. Especially when compared to the control sample there was no detectable difference and therefore no CEST contrast.


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