The mechanism of inorganic phosphate-mediated inhibition of calf thymus DNA polymerase β and Rauscher leukemia virus DNA polymerase

Calf thymus DNA polymerase β and mammalian type C retroviral DNA polymerases are strongly inhibited by low concentrations (1-2mM) of inorganic phosphate (Pi). A detailed analysis of this phenomenon revealed that Pi-mediated inhibition: a) requires the presence of Mn²⁺ (Mg²⁺ neither supports nor relieves this inhibition; b) is strongly affected by the stoichiometric relationship between Mn²⁺ and Pi concentrations; c) is competitive with respect to deoxynucleoside triphosphate (dNTP) concentration, and d) increasing the concentration of substrate or non-substrate dNTPs in reaction mixtures raised the concentration of Mn²⁺ at which significant inhibition by a fixed concentration of Pi was first seen. These findings suggested that Mn²⁺, dNTPs, and Pi may interact in Pi-mediated inhibition. Thin-layer chromatographic analysis revealed the formation of an Mn-dNTP-Pi complex, while Mg²⁺ did not participate in such complex formation. We propose that it is this tripartite complex which is responsible for the Pi-mediated inhibition of sensitive DNA polymerases.