The first pre-steady-state kinetic analysis of the stereoselectivity of a DNA polymerase, Pol beta from rat brain, toward Rp and Sp isomers of dATPalphaS, and alteration of the stereoselectivity by various metal ions and by site-directed mutagenesis are reported. Diastereomers of dATPalphaS were synthesized by enzymatic methods to >98% purity. The rate of polymerization (k(pol)) and the apparent dissociation constant (K(d,app)) were measured with dATP, Rp-dATPalphaS, and Sp-dATPalphaS in the presence of Mg(2+), Mn(2+), or Cd(2+). The results indicate that wild type (WT) polymerase (Pol) beta can incorporate both Sp- and Rp-dATPalphaS in the presence of Mg(2+), but Sp is the preferred isomer. The stereoselectivity, defined as (k(pol)/K(d))(Sp)/(k(pol)/K(d))(Rp) (abbreviated Sp/Rp ratio), is 57.5 in the presence of Mg(2+). When Mg(2+) was substituted with Mn(2+) and Cd(2+), the Sp/Rp ratio decreased to 7.6 and 21, respectively. These results are discussed in relation to the crystal structures of various Pol beta complexes, as well as previous steady-state kinetic studies of other DNA polymerases. In addition, the D276R mutant was designed to introduce a potential extra hydrogen bonding interaction between the arginine side chain and the pro-Sp oxygen of the alpha-phosphate of dNTP. The kinetic data of the D276R mutant showed a pronounced relaxation of stereoselectivity of dATPalphaS (Sp/Rp ratio = 1.5, 3.7, and 1.5 for Mg(2+), Mn(2+), and Cd(2+), respectively). Furthermore, the D276R mutant showed a 5-fold enhanced reactivity toward Rp-dATPalphaS relative to WT Pol beta, suggesting that this mutant Pol beta can be used to incorporate Rp-dNTPalphaS into DNA oligomers.