Difference between revisions of "Part:BBa K4229033"

Revision as of 12:15, 11 October 2022

TnaA fused with SnoopCatcher N-terminal and Fre under T7v promoter and LacOperator

We had this BioBrick together with BBa_K4229034 on our Plasmid, which was transformed into BL21(DE3) E.Coli. We successfully produced Indigo and Indirubin with our transformed bacteria. The production of the compounds was shown visibly by the colour change of the culture[Fig.1]. After sample preparation, we could also measure the absorbance/fluorescence of both compounds at their respective absorption peaks (see [Fig.2] ) in all our production assays.

NMR and HPLC-followed mass spectrometry measurements of our samples additionally underlined that our synthesised products are Indigo and Indirubin.

The NMR proton-measurement of Indirubin from our bioproduction shows peaks at a shift of 7 – 7.6 ppm (see [Fig.3]), which roughly fits the expected spectrum of Indirubin from the literature [Ref.1]. However, the peaks are too weak to detect any further information. This might be due to too high contamination with other cell substances, as we did not have the equipment to purify them further. The most prominent peak at ~4 ppm is most likely from water, and the peak at ~2.5 ppm from DMSO. To prevent the massive water contamination, we freeze-dried the sample for Indigo before measuring. Another reason for the low signal of Indirubin could be that we had too little Indirubin in our sample.

[Fig.1]: A: Left Erlenmeyer flasks with 200 mL culture after Indigo-production, right Erlenmeyer flasks with 200 mL culture after Indirubin-production; B: Pellet of 1.5 mL bacterial culture after Indigo-production in 200 mL culture followed by centrifugation; C: Pellet of 1.5 mL bacterial culture after Indirubin-production in 200 mL culture followed by centrifugation. For Indirubin production, L-Cysteine was added to shift the reaction.

[Fig.3]: NMR proton-spectrum of Indirubin from own bioproduction using E. coli BL21 pCDFDuet-1 sTAF-sXTB. Indirubin-producing bacteria was spun down, the pellet was resuspended in KPI-buffer, sonicated, spun down again and resuspended in deuterated DMSO for measurement. B shows a zoomed-in section of A.

[Fig.2]: A: Indigo-concentration measured via fluorescence (excitation 612 nm, emission 670 nm), B: Indirubin-concentration measured via absorbance at 540 nm. Production with 200 mL cultures in 500 mL Erlenmeyer-flasks, at 25 °C after IPTG-induction at OD = 0.8, with L-Tryptophan-concentration of 5 mM. Photometric readout using a plate reader.

Sequence and Features