Abstract
An important challenge in natural product biosynthesis is the biosynthetic design and production of artificial peptides. One of the most promising strategies is reprogramming adenylation (A) domains to expand the substrate repertoire of nonribosomal peptide synthetases (NRPSs). Therefore, the precise detection of subtle structural changes in the substrate binding pockets of A domains might accelerate their reprogramming. Here we show that an enzyme-linked immunosorbent assay (ELISA) using a combination of small-molecule probes can detect the effects of substrate binding pocket residue substitutions in A-domains. When coupled with a set of aryl acid A-domain variants (total of nine variants), the ELISA can analyze the subtle differences in their active-site architectures. Furthermore, the ELISA-based screening was able to identify the variants with substrate binding pockets that accepted a non-cognate substrate from an original pool of 45. These studies demonstrate that ELISA is a reliable platform for providing insights into the active-site properties of A-domains and can be applied for the reprogramming of NRPS A-domains.
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