Thymidylate synthase has been purified 1700-fold from fetal pig livers by using chromatography on Affigel-Blue, DEAE-52, and hydroxylapatite. Steady-state kinetic measurements indicate that catalysis proceeds via an ordered sequential mechanism. When 5,10-methylenetetrahydro-pteroylmonoglutamate (CH2-H4PteGlu1) is used as the substrate, dUMP is bound prior to CH2-H4PTeGlu1, and 7,8-dihydropteroylmonoglutamate (H2PteGlu1) is released prior to dTMP. Pteroylpolyglutamates (PteGlun) are inhibitors of thymidylate synthase activity and are competitive with respect to CH2-H4PteGlu1 and uncompetitive with respect to dUMP. Inhibition constants (Ki values), which correspond to dissociation constants for the dissociation of PteGlun from the enzyme-dUMP-PteGlun ternary complex, have been determined for PteGlun derivatives with one to seven glutamyl residues: PteGlu1, 10 microM; PteGlu2, 0.3 microM; PteGlu3, 0.2 microM; PteGlu4, 0.06 microM; PteGlu5, 0.10 microM; PteGlu6, 0.12 microM; PteGlu7, 0.15 microM. Thus, thymidylate synthase from fetal pig liver preferentially binds pteroylpolyglutamates with four glutamyl residues, but derivatives with two to seven glutamyl residues all bind at least 30-fold more tightly than the monoglutamate. When CH2-H4PteGlu4 is used as the one carbon donor for thymidylate biosynthesis, the order of substrate binding and product release is reversed, with binding of CH2-H4PteGlu4 preceding that of dUMP and release of dTMP preceding release of H2PteGlu4. Vmax and Km values for dUMP and CH2-H4PteGlun show relatively little change as the polyglutamate chain length of the substrate is varied.(ABSTRACT TRUNCATED AT 250 WORDS)