A quantitative fluorescence-based microplate assay for the determination of double-stranded DNA using SYBR Green I and a standard ultraviolet transilluminator gel imaging system.

Various assays are available for quantification of DNA in solution, but none has been described that is both sensitive and specific for double-stranded (ds) DNA and features practical properties such as low dye and equipment costs, speed, and highly parallel microplate formats. Here we show that quantitative and sensitive measurement of ds DNA in solution is achieved using a 96-well microplate SYBR Green I assay and a standard uv transillumination-based gel-imaging system for detection. Specific detection of ds DNA was obtained over a broad concentration range of 0.5-500 ng using a single low dye concentration of up to 1/6250. Measured SYBR Green I fluorescence was not significantly affected by pH variation (4-10), assay volume (50-250 microliter l), and time (4-15 min), and measurements were appreciably compatile with commonly encountered concentrations of contaminating salts, organics, detergents, and other substances. ds DNA yielded up to 13-fold higher fluorescence compared to single-stranded DNA or RNA, but this ratio was dependent somewhat on GC content and fragment size. Of note, linear ds DNA fluoresced significantly stronger than supercoiled plasmid DNA. Our method should be broadly applicable for sensitive, rapid, and inexpensive ds DNA quantification in the average molecular biology laboratory.