Semrock

Many biological molecules of interest naturally fluoresce when excited by shorter- wavelength UV light. This “intrinsic fluorescence” can be a powerful tool. One important application is the direct fluorescence imaging of aromatic amino acids including tryptophan, tyrosine, and phenylalanine, which are building blocks for proteins. The aromatic rings in these molecules give rise to strong fluorescence excitation peaks in the 260 to 280 nm range. Because the fluorescence is intrinsic, samples can be observed without the added chemistry and limitations associated with “indirect” labeling by extrinsic fluorophores. Another important application is DNA quantitation. Purines and pyrimidines – bases for nucleic acids like DNA and RNA – have strong absorption bands in the 260 to 280 nm range. The neurotransmitter serotonin also exhibits strong absorption at these wavelengths and associated intrinsic fluorescence.

Semrock’s UV BrightLine fluorescence filters offer a powerful tool for practicing direct fluorescence imaging. These unique UV filters are both reliable (“no burn-out”) and offer performance nearly comparable to that of visible and near-IR filters. The top figure shows the spectrum of a high-reliability 280 nm BrightLine excitation filter with the highest commercially available transmission (> 65%), remarkably steep edges, and wideband blocking across the entire UV and visible spectrum. This spectrum is directly compared to that of a traditional and inferior metal-dielectric filter. In one example system, this filter difference was shown to provide over 100x improvement in signal-to-noise ratio.

The bottom figure shows the spectra from a UV filter set designed for imaging tryptophan, overlaid on the absorption and emission spectra of that amino acid. Note the nearly ideal overlap and high transmission of all three filters in this set.