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J Biol Chem. 1979 Nov 25;254(22):11678-87.

Mouse DNA polymerase alpha. Subunit structure and identification of a species with associated exonuclease.


Two species of alpha-polymerase with very similar catalytic properties have been purified to near homogeneity from a soluble protein fraction of mouse myeloma. Sedimentation analysis in 0.5 M salt-containing glycerol gradients indicated that both species had a native Mr of about 190,000. Each species contained nonidentical subunits with apparent molecular weights of about 47,000 and 54,000. Subunits of Mr = approximately 50,000 had been found previously in calf thymus alpha-polymerase (Holmes, A. M., Hesslewood, I. P., and Johnston, I. R. (1974) Eur. J. Biochem. 43, 487-499; (1976) Eur. J. Biochem. 62, 229-235). Tryptic peptide mapping failed to reveal primary structure homology between the subunits of the two enzymes. Thus, the two alpha-polymerases are clearly different species. These two enzymes are further distinguished by the fact that one of them has associated exonuclease activities. One activity degraded single-stranded DNA to mononucleotides in the 3' leads to 5' direction and acted distributively. The other exonuclease activity also degraded single-stranded DNA to mononucleotides, but this degradation was in the 5' leads to 3' direction in a processive fashion. Both exonuclease activities co-migrated with the polymerase activity during the final purification step of polyacrylamide gradient gel electrophoresis, which yielded the essentially homogenous alpha-polymerase, and also during sedimentation of the purified enzyme through a high salt glycerol gradient.

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