Fatty acid, polyketide, and nonribosomal peptide biosynthetic enzymes perform structural modifications upon small molecules that remain tethered to a carrier protein. This manuscript details the design and analysis of cross-linking substrates that are selective for acyl carrier proteins and their cognate condensing enzymes. These inactivators are engineered through a covalent linkage to fatty acid acyl carrier protein via post-translational modification to contain a reactive probe that traps the active site cysteine residue of ketosynthase domains. These proteomic tools are applied to Escherichia coli fatty acid synthase enzymes, where KASI and KASII selectively cross-link ACP-bound epoxide and chloroacrylate moieties. These mechanism-based, protein-protein fusion reagents also demonstrated cross-linking of KASI to type II polyketide ACPs, while nonribosomal peptide carrier proteins showed no reactivity. Similar investigations into protein-protein interactions, proximity effects, and substrate specificities will be required to complete the mechanistic understanding of these pathways.
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