The human cruciform binding protein (CBP), a member of the 14-3-3 protein family, has been recently identified as an origin of DNA replication binding protein and involved in DNA replication. Here, pure recombinant 14-3-3zeta tagged with maltose binding protein (r14-3-3zeta-MBP) at its N-terminus was tested for binding to cruciform DNA either in the absence or presence of F(TH), a CBP-enriched fraction, by electromobility shift assay (EMSA), followed by Western blot analysis of the electroeluted CBP-cruciform DNA complex. The r14-3-3zeta-MBP was found to have cruciform binding activity only after preincubation with F(TH). Anti-MBP antibody immunoprecipitation of F(TH) preincubated with r14-3-3zeta-MBP, followed by Western blot analysis with antibodies specific to the beta, gamma, epsilon, zeta, and sigma 14-3-3 isoforms showed that r14-3-3zeta-MBP heterodimerized with the endogenous beta, epsilon, and zeta isoforms present in the F(TH) but not with the gamma or sigma isoforms. Immunoprecipitation of endogenous 14-3-3zeta from nuclear extracts (NE) of HeLa cells that were either serum-starved (s-s) or blocked at the G(1)/S or G(2)/M phases of the cell cycle revealed that at G(1)/S and G(2)/M, the zeta isoform heterodimerized only with the beta and epsilon isoforms, while in s-s extracts, the 14-3-3zeta/epsilon heterodimer was never detected, and the 14-3-3zeta/beta heterodimer was seldom detected. Furthermore, addition of r14-3-3zeta-MBP to HeLa cell extracts used in a mammalian in vitro replication system increased the replication level of p186, a plasmid bearing the minimal 186-bp origin of the monkey origin of DNA replication ors8, by approximately 3.5-fold. The data suggest that specific dimeric combinations of the 14-3-3 isoforms have CBP activity and that upregulation of this activity leads to an increase in DNA replication.
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