Reassociation and dissociation of cytoplasmic membrane-associated DNA

The relationship between nuclear DNA and cytoplasmic membrane-associated DNA, extracted from a human lymphocyte cell line, was examined by DNA-DNA reannealing and by dissociation of renatured molecules. Up to 2% of the total cellular DNA is found in the cytoplasm as cytoplasmic membrane-associated DNA and of this 2%, approximately 70% is comprised of repeated sequences. These sequences are homologous to only about 4% of the repeated sequences of nuclear DNA. The repeat fraction of cytoplasmic membrane-associated DNA consists of sequences which are only moderately repeated. The number of copies in the average “family” could range from about 1500 copies to as few as 25 copies. A small rapidly reannealing portion of cytoplasmic membrane-associated DNA (C₀t < 4 × 10^?3) appears to consist of sequences derived from a single “family”.About 30% of cytoplasmic membrane-associated DNA reassociates slowly with a $\text{C}{}_0\text{t}\text{1}\text{2}$ value of 223 (unique cytoplasmic membrane-associated DNA). This fraction has homology with about 11% of the unique sequences of nuclear DNA. However, unique cytoplasmic membrane-associated DNA comprises only about 0·6% of the total cellular DNA. If it is assumed that each cell has the same amount of cytoplasmic membrane-associated DNA, homology with 11% of the unique sequences of nuclear DNA suggests that different cells may have different unique nucleotide sequences in the cytoplasm.