A homogeneous preparation of glyoxylate synthetase from greening potato tubers was used to study the functional role of disulphide groups, lysine and tryptophan residues in enzyme catalysis. The formation of a thioisoindole derivative was demonstrated by spectral analysis of the reduced and o-phthalaldehyde-treated enzymes. o-Phthalaldehyde modification resulted in about a 25 % loss of tryptophan emission at 336 nm and the appearance of a 410-nm emission peak characteristic of a thioisoindole. Ferrous iron was capable of generating thiol groups and addition of substrate resulted in a faster disappearance of these thiols. The optimal time for maximum glyoxylate synthesis by glyoxylate synthetase paralleled the disappearance of these thiols. Involvement of lysine and tryptophan residues in the enzyme reaction was demonstrated by the inhibition of activity by pyridoxal 5'-phosphate and dimethyl(2-hydroxy 5-nitrobenzyl) sulphonium bromide (DMHNB), respectively. Pyridoxal phosphate strongly and reversibly inhibited glyoxylate synthetase, and substrate and metal ion provided significant protection against inhibition. The results suggest that the lysine residue may be at or near the active binding site. The lysyl residue formed a Schiff base with pyridoxal phosphate which was stabilised by NaBH,. Glyoxylate synthetase was also irreversibly inactivated by a tryptophan selective reagent, DMHNB, while substrate provided substantial protection against inactivation. Kinetic analysis and correlation of the spectral data at 410 nm indicated that complete inactivation by DMHNB resulted from the modification of 5 tryptophan residues/subunit, of which one was essential for activity. The available evidence suggests a possible concerted action of enzyme disulphides, ferrous iron, lysine and aromatic amino acid residues in the synthesis of glyoxylate by this enzyme. 0 Elsevier, Paris Active site amino acids I C,-pathway I glyoxylate synthetase I Schiff base I Solanum tuberosum I thioisoindole DMHNB, dimethyl-(2-hydroxy 5-nitro-benzyl) sulphonium bromide / DNFR, dinitrofluorobenzene / IAC, iodoacetate /