Single-cell gel electrophoresis (SCGE or Comet assay) and the Fast Halo assay, also known as the Halo assay, are powerful tools to generate DNA damage measurements with single-cell resolution. Though these techniques are prone to have variability, they can be robust tools for quantifying DNA damage when planned and executed carefully. Here, we present both assays and highlight each technique's advantages and challenges in measuring DNA damage in cells with limiting cell number, such as hematopoietic stem cells (HSCs). The Comet assay is highly sensitive at the cost of increased variability. The Halo assay attenuates some of the effects of variability present in the Comet assay but does not eliminate them entirely and is less sensitive. Overall, the Comet and Halo assays are powerful means of directly measuring DNA damage. We recommend the below methods for detecting damage in hematopoietic stem cells, but the methods can easily be adjusted for measuring damage in any type of single cells in suspension.
