5'phosphorylation of DNA in mammalian cells: identification of a polymin P-precipitable polynucleotide kinase.

Proteins that catalyze 5' phosphorylation of an oligodeoxyribonucleotide substrate can be fractionated by polymin P treatment of whole cell extracts of calf thymus glands. Anion exchange chromatography on Q-Sepharose revealed three separable peaks of activity in the polymin P supernatant fraction, and one peak of activity in the Polymin P pellet fraction. The latter activity, Polymin P-precipitable polynucleotide kinase (PP-PNK), was further purified with a 1,500-fold increase of specific activity compared to the crude Polymin P pellet fraction. Oligonucleotides, a dephosphorylated 2.9-kb EcoRI fragment, and poly(A) were phosphorylated by the enzyme preparation, but thymidine 3' monophosphate was not a substrate. PP-PNK preparations exhibited an apparent KM of 52 microM for ATP and 8 microM for oligo dT25. The enzyme preparation displayed no detectable 3' phosphatase or cyclic 2',3' phosphohydrolase activities. The sedimentation coefficient of the PP-PNK activity was 3.8S as determined by sucrose density gradient analysis; the Stokes radius was 45 A, leading to an estimated molecular mass of 72 kDa. The enzyme had a pH optimum in the neutral to alkaline range in several buffer systems and is distinct from the DNA kinase with an acidic pH optimum previously described in calf thymus.