Isolation of Circular DNA from a Mitochondrial Fraction from Yeast

Abstract

Breakage and fractionation of respiratory competent yeast in the presence of ethidium bromide, and subsequent centrifugation of a detergent lysate of the mitochondrial fraction by the dye-buoyant-density technique, results in the isolation of closed-circular DNA. After removal of bound dye, this DNA has two components when analyzed by equilibrium buoyant density in the analytical ultracentrifuge. A minor component has a buoyant density of 1.684 g/cm(3), which is characteristic of mitochondrial DNA, but the major component has a buoyant density of 1.701 g/cm(3). This species of DNA is also present in yeast that have been mutagenized to respiratory deficiency in the presence of the highest concentration of ethidium bromide compatible with cell growth. The closed-circular DNA of buoyant density 1.701 g/cm(3), and free of linear DNA, is associated with the sole particulate band obtained on sucrose gradient centrifugation of a mitochondrial preparation from respiratory-deficient cells. Two particulate bands are obtained on sucrose gradient centrifugation of a mitochondrial preparation from respiratory-competent cells, the upper band containing DNA of buoyant density 1.701 g/cm(3) and the lower band DNA of buoyant density 1.684 g/cm(3). The suggestion is advanced, in view of the reputed sedimentation behaviour of yeast peroxisomes, that the closed-circular DNA of buoyant density 1.701 g/cm(3) may be located in peroxisomes.