Abstract
Pks13 is a type I polyketide synthase involved in the final biosynthesis step of mycolic acids, virulence factors, and essential components of the Mycobacterium tuberculosis envelope. Here, we report the biochemical and structural characterization of a 52-kDa fragment containing the acyltransferase domain of Pks13. This fragment retains the ability to load atypical extender units, unusually long chain acyl-CoA with a predilection for carboxylated substrates. High resolution crystal structures were determined for the apo, palmitoylated, and carboxypalmitoylated forms. Structural conservation with type I polyketide synthases and related fatty-acid synthases also extends to the interdomain connections. Subtle changes could be identified both in the active site and in the upstream and downstream linkers in line with the organization displayed by this singular polyketide synthase. More importantly, the crystallographic analysis illustrated for the first time how a long saturated chain can fit in the core structure of an acyltransferase domain through a dedicated channel. The structures also revealed the unexpected binding of a 12-mer peptide that might provide insight into domain-domain interaction.
Highlights
Pks13 is involved in the final biosynthesis step of mycolic acids
Production of a Functionally Active Acyltransferase Fragment of Pks13—The purified full-length Pks13 polyketide synthase from M. tuberculosis H37Rv was subjected to limited proteolysis using ␣-chymotrypsin
The MS/MS experiments revealed that this 52-kDa fragment comprises Pks13 residues 576 –1062 (80% sequence coverage), which correspond to the AT domain plus partial interdomain linkers between the upstream KS domain and the downstream acyl carrier protein (ACP) domain
Summary
Pks is involved in the final biosynthesis step of mycolic acids. Results: We report the full characterization of a 52-kDa fragment containing the acyltransferase domain of Pks. Pks is a type I polyketide synthase involved in the final biosynthesis step of mycolic acids, virulence factors, and essential components of the Mycobacterium tuberculosis envelope. Among the type I PKSs produced by M. tuberculosis, Pks is involved in the final assembly of mycolic acids, key structural components of the mycobacterial cell envelope, and is essential for the viability of mycobacteria [20]. We report the functional and structural characterization of a 52-kDa fragment of Pks from M. tuberculosis containing the AT domain and part of the upstream and downstream linkers We show that this protein preferentially binds long carboxyacylated chains. The high resolution crystallographic characterization of the protein in the apo form and in palmitoylated and carboxypalmitoylated states reveals for the first time how a long fatty acyl chain is accommodated inside the core structure of an AT domain
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