The Fe2+ ion that specifically replaces Mg2+ in the active center of RNA polymerase generates reactive hydroxyl radicals that cause highly localized cleavage of polypeptide chains. Mapping of the cleavage sites revealed the overall architecture of the active center. Nine distinct sites, five in the beta subunit and four in the beta' subunit of Escherichia coli RNA polymerase, all at or near highly conserved sequence motifs, are brought together in the enzyme's ternary structure within the distance of approximately 1 nm from the active center Me2+. These sites are located in at least six different domains of the subunits, reflecting modular organization of the active center.