Physical properties of cytoplasmic membrane-associated DNA

Abstract

Some of the physical properties of a cytoplasmic membrane-associated DNA isolated from a diploid human lymphocyte cell line have been examined. Cytoplasmic membrane-associated DNA extracted from lymphocytes labeled with either [ 3H]or [ 14C]thymidine had a specific activity lower than nuclear DNA extracted from the same cells. Analysis of cytoplasmic membrane-associated DNA in the electron microscope shows that the molecules are linear and have a mean length of 1·75 μm; the average sedimentation coefficient of this DNA is 16·6 S, which corresponds to a molecular weight of 4·2×10 6. Cytoplasmic membrane-associated and nuclear DNA band at identical positions in both neutral and alkaline CsCl gradients with buoyant densities of 1·699 g/ml and 1·752 g/ml, respectively. Native cytoplasmic membrane-associated DNA is double-stranded and has a mole fraction of guanine plus cytosine of 40± l %. Sheared, denatured cytoplasmic membrane-associated DNA reassociates as two distinct fractions whose rates of reassociation differ by about four decades: the complexity of the reassociation of this DNA tends to rule out the possibility that it arises from either mycoplasmal or viral contamination of our cell cultures. The slowly reassociating fraction of cytoplasmic membrane-associated DNA reassociates about ten times faster than the unique sequences of nuclear DNA. This could represent potential genetic information for about 100,000 diverse genes of 1000 nucleotide pairs each. At present the function of cytoplasmic membrane-associated DNA in these cells is unknown.