Engineered biosynthetic assembly lines could revolutionize the sustainable production of bioactive natural product analogs. Although yeast display is a proven, powerful tool for altering the substrate specificity of gatekeeper adenylation domains in nonribosomal peptide synthetases (NRPSs), comparable strategies for other components of these megaenzymes have not been described. Here we report a high-throughput approach for engineering condensation (C) domains responsible for peptide elongation. We show that a 120-kDa NRPS module, displayed in functional form on yeast, can productively interact with an upstream module, provided in solution, to produce amide products tethered to the yeast surface. Using this system to screen a large C-domain library, we reprogrammed a surfactin synthetase module to accept a fatty acid donor, increasing catalytic efficiency for this noncanonical substrate >40-fold. Because C domains can function as selectivity filters in NRPSs, this methodology should facilitate the precision engineering of these molecular assembly lines. (Figure presented.).
CITATION STYLE
Folger, I. B., Frota, N. F., Pistofidis, A., Niquille, D. L., Hansen, D. A., Schmeing, T. M., & Hilvert, D. (2024). High-throughput reprogramming of an NRPS condensation domain. Nature Chemical Biology, 20(6), 761–769. https://doi.org/10.1038/s41589-023-01532-x
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