Abstract
Bacterial modular polyketide synthases (PKSs) generate diverse, complex and bioactive natural products that are constructed mainly based on principles of fatty acid biosynthesis. The cytotoxic oocydin-type polyketides contain a vinyl chloride moiety introduced during polyketide chain elongation. Required for modular polyketide backbone halogenation are a non-heme iron and ɑ-ketoglutarate-dependent halogenase OocP and OocQ lacking characterized homologs. This work provides structural insights into these unusual PKS components and their interactions via a high-resolution X-ray crystallography structure of the heterocomplex. By mapping the protein-protein interactions and comparison with structures of similar halogenases, we illustrate the potential of this heterodimer complex as a replacement for the conserved homodimeric structure of homologous enzymes. The OocPQ protein pair has thus evolved as a means of stabilizing the halogenase and facilitating chemical transformations with great synthetic utility.
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