Simple Way to Detect Trp to Tb3+ Resonance Energy Transfer in Calcium-Binding Peptides Using Excitation Spectrum

2019 
The sensitized phosphorescence of Tb3+ is often used for the assessment of the ion binding to various chelating agents or natural Ca2+-binding proteins. The detailed structure of the Tb3+ excitation spectrum gives a special advantage for analysis; any extra absorption peak can be easily detected which provides simple and direct evidence that resonance energy transfer occurs. By employing the Tb3+ phosphorescence, we characterized the Ca2+-binding sites of two related peptides – self-processing module of the FrpC protein produced by bacterium Neisseria meningitidis and the shorter peptide derived from FrpC. Here we show that while the increase of direct Tb3+ excitation at 243 nm generally corresponds to Tb3+ association with various binding sites, the excitation enhancement in the 250–300 nm band signifies Tb3+-binding in the close proximity of aromatic residues. We demonstrate that the presence of resonance energy transfer could be easily detected by inspecting Tb3+ excitation spectra. Additionally, we show that the high level of specificity of Tb3+ steady state detection on the spectral level could be reached at very low Tb3+ concentrations by taking advantage of its narrow phosphorescence emission maximum at 545 nm and subtracting the averaged autofluorescence intensities outside this peak, namely at 525 and 565 nm.
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