Purification and in Vitro Reconstitution of the Essential Protein Components of an Aromatic Polyketide Synthase†

Abstract

A minimal set of proteins which catalyze the synthesis of aromatic polyketides from malonyl CoA has been purified and partially characterized. Plasmid-encoded actinorhodin (act) ketosynthase/chain-length factor (KS/CLF) complex was purified from Streptomyces coelicolor CH999/pSEK38, and assayed with purified aromatic PKS holo-ACPs which were overproduced and purified from Escherichia coli and phosphopantetheinylated in vitro using purified E. coli holo-ACP synthase. When highly purified preparations of KS/CLF, and holo-ACP failed to catalyze polyketide biosynthesis, a fourth protein was sought and purified from the S. coelicolor CH999 host on the basis of its ability to complement KS, CLF, and holo-ACP in polyketide synthesis. N-terminal sequencing identified this protein as the fatty acid synthase (fabD) malonyl CoA:ACP transacylase (MAT), recruited from primary metabolism. A α₂β₂ structure was shown for the act KS/CLF complex, and three malonyl-enzyme biosynthetic intermediates were identified, defining an escorted path followed by malonyl groups en route from CoA to polyketide.