5-Bromodeoxyuridine labeling of monomeric and catenated circular mitochondrial DNA in hela cells

Abstract

Bromouracil labeling of the mitochondrial DNA in exponentially growing HeLa cells produces two hybrid mitochondrial DNA species, with density shifts of 41.9 and 54.0 mg/ml relative to unlabeled mitochondrial DNA, as well as heavy mitochondrial DNA, with a shift of 95.3 mg/ml. The two hybrid species result from the difference in thymine composition of the complementary strands of mitochondrial DNA. In addition, mitochondrial DNA with a density intermediate between the hybrid and unlabeled species was found. This quarter heavy mitochondrial DNA represents 25% (w/w) of the total DNA after eight hours of labeling, and forms two peaks with shifts of 20.6 and 27.0 mg/ml relative to unlabeled mitochondrial DNA. 70% (w/w) of the quarter heavy mitochondrial DNA is in catenated forms, while 30% (w/w) is monomeric. Degradation of the catenanes by shearing of purified quarter heavy mitochondrial DNA results in the appearance of hybrid and unlabeled mitochondrial DNA bands, demonstrating that the quarter heavy catenanes contain both hybrid and unlabeled submolecules. The implications of the structure of the quarter heavy catenanes on the mechanism of formation of catenanes are discussed.