ABSTRACT: The intramolecular passage of substrate between the component enzymes of the pyruvate dehydrogenase multienzyme complex of Escherichia coli was examined. A series of partly reassembled complexes, varying only in their E1 (pyruvate decarboxylase, EC 1.2.4.1) content, was incubated with pyruvate in the absence of CoA, conditions under which the lipoic acid residues covalently bound to the E2 (lipoate acetyltransferase, EC2.3.1.12) chains of the complex become reductively acetylated, and the reaction then ceases. The fraction of E2 chains thus acetylated was estimated by specific reaction of the thiol groups in the acetyl-lipoic acid moieties with N-ethyl[2,3-14C]maleimide. The simplest interpretation of the results was that a single E1 dimer is capable of catalysing the rapid acetylation of 8-12 E2 chains, in good agreement with the results of Bates, Danson, Hale, Hooper & Perham [(1977) Nature (London) 268, 313-316]. This novel functional connexion of active sites must be brought about by transacetylation reactions between lipoic acid residues of neighbouring E2 chains in the enzyme complex. There was also a slow transacylation process between the rapidly acetylated lipoic acid residues and those that did not react in the initial, faster phase. This interaction was not investigated in detail, since it is too slow to be of kinetic significance in the normal enzymic reaction.