Mitochondrial DNA copy number in bovine oocytes and somatic cells

Abstract

Restriction endonuclease analysis and direct nucleotide sequencing of bovine mitochondrial DNA have revealed a high apparent rate of sequence divergence between maternally related individuals. One possible mechanism that would account for the high rate involves nonuniform amplification and/or segregation of mitochondrial DNA during development of the oocyte. We report here experiments which quantitate the amount of mitochondrial DNA in the bovine oocyte as compared to bovine somatic cells. Total DNA was isolated from purified oocytes, separated by agarose gel electrophoresis, and immobilized on nitrocellulose filters. Hybridization with the complete mitochondrial DNA genome or cloned mitochondrial DNA restriction fragments revealed a 100-fold increase in oocyte mitochondrial DNA as compared to somatic cells. Developing oocytes contained about 4.5 pg or 2.6 × 10 5 copies per cell, whereas primary bovine tissue culture cells contained 0.045 pg or 2.6 × 10 3 copies per cell. These experiments demonstrate directly the amplification of mitochondrial DNA in mammalian oocytes and are consistent with models which could generate mitochondrial DNA polymorphisms by unequal amplification of mitochondrial genomes within an animal.