A study of substrate specificity of mammalian and bacterial DNA polymerases with 5-alkyl-2'-deoxyuridine 5'-triphosphates.

DNA polymerases from procaryotic sources can utilize a variety of dTTP analogues as substrates. We studied here in vitro DNA syntheses catalyzed by DNA polymerase alpha and beta of calf thymus, and for comparison, by the Escherichia coli DNA polymerase I large fragment enzyme in the presence of 5-alkyl derivatives of dUTP as dTTP substrate analogues, using activated DNA as template-primer. The alkyl substituents were n-alkyl (from ethyl to hexyl) and iso-alkyl (isopropyl and tert-butyl) groups. All enzymes were active in the presence of each modified dTTP, incorporation rates of [3H]dAMP or [3H]dGMP were, however, much lower with the analogues than with dTTP. According to relative incorporation rates, alpha-polymerase in DNA synthesis was found to be less sensitive to changes in the length of the alkyl substituent of 5-n-alkyl-dUTPs than beta-polymerase or the E. coli enzyme. Evidence for the incorporation of the analogues was presented for 5-[2-14C]isopropyl-dUTP.