Three-dimensional Structure of the Lipoyl domain from Bacillus stearothermophilus Pyruvate Dehydrogenase Multienzyme Complex

Abstract

The structure of the lipoyl domain from the pyruvate dehydrogenase multienzyme complex of Bacillus stearothermophilus has been determined by means of nuclear magnetic resonance spectroscopy. A total of 452 nuclear Overhauser effect distance constraints and 76 dihedral angle restraints were employed as the input for the structure calculations, which were performed using a hybrid distance geometry-simulated annealing strategy and the programs DISGEO and X-PLOR. The overall structure of the lipoyl domain (residues 1 to 79 of the dihydrolipoamide acetyltransferase polypeptide chain) is that of a flattened eight-stranded β-barrel folded around a core of well-defined hydrophobic residues. The lipoylation site, lysine 42, is located in the middle of a β-turn, and the N and C-terminal residues of the domain are close together in adjacent β-strands at the opposite end of the molecule. The polypeptide backbone exhibits a 2-fold axis of quasi-symmetry, with the C α atoms of residues 15 to 39 and 52 to 76 being almost superimposalble on those of residues 52 to 76 and 15 to 39, respectively (root-mean-square deviation = 1·48 Å). The amino acid residues at key positions in the structure are conserved among all the reported primary structures of lipoyl domains, suggesting that the domains all fold in a similar way.