Comprehensive assessment of 12 commercial DNA-binding dyes as alternatives to ethidium bromide for agarose gel electrophoresis.

Abstract

Staining and visualization of the nucleic acid bands on agarose gels using ethidium bromide (EB) has been a widely used technique in molecular biology. Although it is an efficient dye for this purpose, EB is known to be mutagenic and genotoxic in humans. This led to the emergence of various alternative dyes, which were claimed to be safer and more efficient than EB. However, these dyes portray varied sensitivity and interference with the electrophoretic mobility of nucleic acids. This work aimed at assessing ten nucleic acid-binding dyes and two prestained dyes for these properties by three staining techniques, such as precasting, preloading, and poststaining. Of these, preloading was not suitable for any of the dye while poststaining worked optimal for most of them. Precasting was suitable for only four dyes viz. DNA Stain G, SYBR™ safe, EZ-Vision® in-gel, and LabSafe™. Poststaining was, in general, a costlier method than precasting. The work gives a comprehensive understanding of the performance of nucleic acid-binding dyes for routine molecular biology experiments.