Replication of mitochondrial DNA in the early development of Misgurnus fossilis

Mitochondria isolated from Misgurnus fossilis embryos at various developmental stages were incubated with ³H-dTTP in vitro and the incorporation into mtDNA was determined. It has been found that the rate of mtDNA labeling increases exponentially with a doubling time of 7 hr from 0.01 pmole of ³H-dTMP/mg protein/hr in mitochondria from unfertilized eggs to 0.4 pmoles of ³H-dTMP/mg protein/hr in mitochondria of 35 hr embryos. The pool of intramitochondrial dTTP decreases 2.5 times during the first 10 hr after fertilization, then remains practically constant up to 35 hr of development. The rate of exogenous ³H-dTTP incorporation into the acid soluble pool of isolated mitochondria at two stages is approximately proportional to the pool size. Thus identical specific activities of ³H-dTTP inside mitochondria would be obtained even with pools of different sizes. We conclude that the increase of ³H-dTMP incorporation into mtDNA in development reflects genuine activation of mtDNA synthesis. As early as 6 hr after fertilization the bulk of the label incorporated into mtDNA is found in the fraction associated with covalently closed molecules. This pattern of labeling characteristic for replicating mtDNA is maintained throughout early development. In contrast such preferential label incorporation into the closed circular fraction was not found with mitochondria of unfertilized eggs. Closed mtDNA from unfertilized eggs contains not more than 1% of molecules with D-loops. In 35 hr embryos the corresponding value is equal to about 4%. Activation of mtDNA replication in embryogenesis is probably due to the activation of mechanisms responsible for the generation of primers for replication. DNA polymerase activity solubilized from mitochondria remains unchanged in the course of embryogenesis.