research papers
Tyrocidine, a macrocyclic decapeptide from Bacillus brevis, is nonribosomally assembled by a set of multimodular peptide synthetases, which condense two D-amino acids and eight L-amino acids to produce this membrane-disturbing antibiotic. D-Phenylalanine, the first amino acid incorporated into tyrocidine, is catalytically derived from enzyme-bound L-Phe by the C-terminal epimerization (E) domain of tyrocidine synthetase A (TycA). The 1.5 Å resolution structure of the cofactor-independent TycA E domain reveals an intimate relationship to the condensation (C) domains of peptide synthetases. In contrast to the latter, the TycA E domain uses an enlarged bridge region to plug the active-site canyon from the acceptor side, whereas at the donor side a latch-like floor loop is suitably extended to accommodate the αIII helix of the preceding peptide-carrier domain. Additionally, E domains exclusively harbour a conserved glutamate residue, Glu882, that is opposite the active-site residue His743. This active-site topology implies Glu882 as a candidate acid–base catalyst, whereas His743 stabilizes in the protonated state a transient enolate intermediate of the L↔D isomerization.
Keywords: nonribosomal peptide synthesis; tyrocidine antibiotics; cofactor-independent epimerization; enzymology.
Supporting information
Portable Document Format (PDF) file https://doi.org/10.1107/S1399004714004398/mh5117sup1.pdf |
PDB reference: E domain of TycA, 2xhg