Magnesium reduces nickel inhibition of DNA polymerization

The activities of DNA polymerization and DNA ligation in extract of Chinese hamster ovary cells were both stimulated by MgCl₂. DNA polymerization was stimulated by MgCl₂ above 0.25 mM, whereas, MgCl₂ above 2 mM was required to stimulate DNA ligation. The activity of DNA polymerization maintained a plateau at MgCl₂ 1–12 mM, whereas DNA ligation reached a maximal activity at MgCl₂ 6 mM and decreased thereafter. NiCl₂ 0.1-0.2 mM also had a stimulatory effect on DNA polymerization, but was much less potent than MgCl₂. However, nickel ion (Ni²⁺) had no detectable stimulating effect on the activity of DNA ligation. In the presence of MgCl₂, the activities of DNA polymerization and DNA ligation decreased with increasing concentration of NiCl₂. Ni₂₊ inhibition of DNA polymerization was reduced by increasing the concentration of MgCl2, but increasing the concentration of MgCl₂ did not reduce Ni²⁺ inhibition of DNA ligation. Preincubating cell extract with MgCl₂ decreased the Ni²⁺ inhibition of DNA polymerization but not DNA ligation. These results suggest that Ni²⁺ may compete with magnesium ion (Mg²⁺) to reduce DNA polymerization, but this mechanism seems not applicable to Ni²⁺ inhibition of DNA ligation.