INITIATOR RNA OF NASCENT DNA FROM ANIMAL-CELLS

Nascent DNA synthesized by intact cells has been examined for the presence of RNA that may function as a primer in the discontinuous synthesis of DNA. A low molecular weight fraction that contains nascent DNA was isolated from a human lymphoblastoid cell line in logarithmic growth. After labeling the 5′ ends with bacteriophage T4 polynucleotide kinase and [γ-32P]ATP, and digestion of the DNA with DNAase, a DNAase-resistant oligonucleotide was isolated. This fragment consisted of approximately 9 ribonucleotide residues, with 5′ terminal purines ( A G = 3·5 1), plus one to three 3′ terminal deoxynucleotides resulting from incomplete removal by DNAase. Approximately 10% of short nascent DNA chains contained the nonanucleotide molecule. An additional 20% of the nascent DNA contained ribooligomers shorter than 9 residues, with 5′ termini substantially increased in pyrimidines, which may result from degradation of the nonanucleotide. These results extend previous studies that demonstrated a similar ribooligonucleotide present at the 5′ end of most or all short nascent DNA chains synthesized in broken cell systems. Together with the results obtained by Reichard and co-workers (Reichard et al., 1974) with polyoma virus, the data support a mechanism by which a short initiator RNA serves as primer for discontinuously synthesized DNA in animal cells. © 1979.