Atypical sieving of open circular DNA during pulsed field agarose gel electrophoresis

Pulsed field agarose gel (PFG) electrophoresis, originally used to improve the resolution by length of linear DNA [Cantor et al. (1988) Annu. Rev. Biophys. Biophys. Chem. 17, 287-304], is found here to cause atypical sieving of 48.5-97.0-kb open circular DNA. Two procedures of PFG electrophoresis are used: rotating gel electrophoresis with rotation of 2 pi radians [2 pi RGE; Serwer, P., & Hayes, S.J. (1989) Appl. Theor. Electrophor. (in press)] and field inversion gel electrophoresis [FIGE; Carle, G.F., Frank, M., & Olson, M. V. (1986) Science 232, 65-68]. During 2 pi RGE at 6 V/cm, the electrophoretic mobility (mu) of 48.5-kb open circular DNA increases in magnitude as agarose percentage (A) increases from 0.4 to 1.5. The sieving revealed by this mu vs A relationship is highly atypical (possibly unique) for any particle. The extent of this atypical sieving increases as electrical potential gradient, DNA length, and pulse time increase. In some cases a maximum is observed in a plot of mu's magnitude vs A. The mu of open circular lambda DNA is smaller in magnitude than the mu of equally long linear lambda DNA. Atypical sieving has also been observed by use of FIGE. As pulse times used during FIGE decrease below those achievable by 2 pi RGE, the progressive loss of circular DNA's atypical sieving is accompanied by both a dramatic increase in mu's magnitude at the lower A values and a decrease in mu's magnitude at the higher A values. At the lower A values, open circular DNA sometimes migrates more rapidly than linear DNA of the same length.