Fat metabolism in higher plants: The nonenzymatic acylation of dithiothreitol by acyl coenzyme A

A compound soluble in organic solvents and synthesized from ¹⁴C]acetate by isolated spinach chloroplasts incubated in the dark in the presence of dithiothreitol was shown to be O-acetyl dithiothreitol. The chloroplast system was required for the activation of acetate to acetyl CoA, but the transfer of the acetyl moiety to dithiothreitol was nonenzymatic. The first product of the reaction was shown to be S-acetyl dithiothreitol, but in the presence of an oxidant, simultaneous ring closure and migration of the acetyl group from the thiol to an adjacent hydroxyl group occurred to form an O-acetyl dithiothreitol.The acetyl transfer reaction involving acetyl CoA and dithiothreitol showed a marked pH dependence, being most active at about pH 9 and inoperative below pH 6. All acyl CoAs tested (C₂-C₁₈) rapidly labeled dithiothreitol; acetyl acyl carrier protein, and palmityl acyl carrier protein were much less reactive and free fatty acids were unreactive. The thiol reagents dithioerythritol, glutathione, and cysteine, in addition to dithiothreitol, reacted rapidly with acetyl CoA to form the corresponding acetyl mercaptans. 2-Mercaptoethanol was much less reactive; oxidized dithiothreitol was unreactive. The second-order rate constant for acetyl dithiothreitol synthesis was 12.3 m_?1 min^?1 at pH 8.5 and 30 °C.