Super-Resolution Imaging of DNA Labelled with Intercalating Dyes

## Abstract With the expansion of super‐resolution fluorescence microscopy methods, it is now possible to access the organization of cells and materials at the nanoscale by optical means. This review discusses recent progress in super‐resolution imaging of isolated and cell DNA using single‐molecul

## Abstract The analytical figures of merit of laser‐excited fluorescence detection of DNA restriction fragments, based on the enhanced fluorescence of selected dyes upon intercalation, are presented. The fragments present in a ϕX174 Hae III digest are efficiently separated by capillary electrophor

Detailed maps of the A-T distribution within human mitotic chromosomes labeled with BrdU are obtained with a high resolution scanning ion microprobe through the detection of bromine by imaging secondary ion mass spectrometry (SIMS). Corresponding maps of the emission loci of the molecular ion CN- de

## Abstract The application of electron paramagnetic resonance imaging (EPRI) to obtain information from biological samples has been limited by the lack of ideal single line radical labels. The commonly used nitroxides exhibit multiple lines causing either hyperfine‐based limitations in the maximum