Reconstitution and Characterization of the Human DNA Polymerase Delta Four-Subunit Holoenzyme

Mammalian DNA polymerase δ was originally characterized as a tightly associated heterodimer consisting of the catalytic subunit, p125, and the p50 subunit. Recently, two additional subunits, the third (p68) and fourth subunits (p12), have been identified. The heterotetrameric human pol δ complex was...

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Bibliographic Details
Published in:Biochemistry (Easton) 2002-11, Vol.41 (44), p.13133-13142
Main Authors: Xie, Bin, Mazloum, Nayef, Liu, Li, Rahmeh, Amal, Li, Hao, Lee, Marietta Y. W. T
Format: Article
Language:English
Subjects:
Animals
Baculoviridae - genetics
Centrifugation, Density Gradient
Chemical Phenomena
Chemistry, Physical
Chromatography, Gel
Dimerization
DNA Polymerase III - chemistry
DNA Polymerase III - genetics
DNA Polymerase III - isolation & purification
DNA Polymerase III - metabolism
Enzyme Activation
HeLa Cells
Holoenzymes - biosynthesis
Holoenzymes - chemistry
Holoenzymes - genetics
Holoenzymes - isolation & purification
Humans
Precipitin Tests
Proliferating Cell Nuclear Antigen - chemistry
Protein Processing, Post-Translational
Protein Subunits
Recombinant Proteins - biosynthesis
Recombinant Proteins - chemistry
Recombinant Proteins - isolation & purification
Recombinant Proteins - metabolism
Spodoptera - genetics
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Summary:Mammalian DNA polymerase δ was originally characterized as a tightly associated heterodimer consisting of the catalytic subunit, p125, and the p50 subunit. Recently, two additional subunits, the third (p68) and fourth subunits (p12), have been identified. The heterotetrameric human pol δ complex was reconstituted by overexpression of the four subunits in Sf9 cells, followed by purification to near-homogeneity using FPLC chromatography. The properties of the four-subunit enzyme were shown to be functionally indistinguishable from those of pol δ isolated from calf thymus. The physicochemical properties of both the reconstituted heterotetramer and the heterodimer of the p125 and p50 subunits were examined by gel filtration and glycerol gradient ultracentrifugation. These studies show quite clearly that the heterodimer and heterotetramer complexes do not behave in solution as dimeric structures. This issue is of significance because several studies of the yeast pol δ complexes have indicated that the third subunit is able to bring about the dimerization of the pol δ complex. The heterodimer is only weakly stimulated by PCNA, whereas the heterotetramer is strongly stimulated to a level with a specific activity comparable to that of the calf thymus enzyme. These results resolve earlier, conflicting reports on the response of the heterodimer to PCNA. Nevertheless, the heterodimer does have some ability to interact functionally with PCNA, consistent with evidence that the p125 subunit itself has an ability to interact with PCNA. The functional interaction of PCNA with the pol δ complex may likely involve multiple contacts.
ISSN:0006-2960
1520-4995
DOI:10.1021/bi0262707