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The aromatic substrate profile of the cobalt nitrile hydratase from <i>Rhodococcus rhodochrous</i> ATCC BAA 870 was evaluated against a wide range of nitrile containing compounds (&gt;60). To determine the substrate limits of this enzyme, compounds ranging in size from small (90 Da) to large (325 Da) were evaluated. Larger compounds included those with a bi-aryl axis, prepared by the Suzuki coupling reaction, Morita&#8722;Baylis&#8722;Hillman adducts, heteroatom-linked diarylpyridines prepared by Buchwald&#8722;Hartwig cross-coupling reactions and imidazo[1,2-<i>a</i>]pyridines prepared by the Groebke&#8722;Blackburn&#8722;Bienaym&#233; multicomponent reaction. The enzyme active site was moderately accommodating, accepting almost all of the small aromatic nitriles, the diarylpyridines and most of the bi-aryl compounds and Morita&#8722;Baylis&#8722;Hillman products but not the Groebke&#8722;Blackburn&#8722;Bienaym&#233; products. Nitrile conversion was influenced by steric hindrance around the cyano group, the presence of electron donating groups (e.g., methoxy) on the aromatic ring, and the overall size of the compound.