Resolution of a paradox in the electrophoresis of DNA in agarose gels

Abstract

A paradox was observed in a previous study of the electrophoresis of linear DNA fragments in agarose gels (D. L. Holmes and N. C. Stellwagen, Electrophoresis 1990, 11, 5–15). The pore size of the agarose matrix was more accurately determined if the root‐mean‐square radius of gyration was used to measure DNA macromolecular size. However, the Ogston equations were obeyed and other gel parameters such as the apparent fiber radius and fiber volume appeared to be better described if the geometric mean radius was used to measure DNA size. This paradox can be resolved if relative mobilities (with respect to the smallest DNA molecule in the data set) are used to construct the Ferguson piots, instead of absolute mobilities. Using relative mobilities and the root‐mean‐square radius of gyration, the Ogston equations are obeyed and the pore size of the matrix is consistent with values determined by other methods.