Artificial Biosynthetic Pathway for an Unnatural Terpenoid with an Iridiumcontaining P450

<div>Synthetic biology enables microbial hosts to produce complex molecules that are</div><div>otherwise produced by organisms that are rare or difficult to cultivate, but the structures of these</div><div>molecules are limited to chemical reactions catalyzed by natural enzymes. The integration of</div><div>artificial metalloenzymes (ArMs) that catalyze abiotic reactions into metabolic networks could</div><div>broaden the cache of molecules produced biosynthetically by microorgansms. We report the</div><div>assembly of an ArM containing an iridium-porphyrin complex in the cytoplasm of a terpene</div><div>producing Escherichia coli by a heterologous heme transport machinery, and insertion of this ArM</div><div>into a natural biosynthetic pathway to produce an unnatural terpenoid. This work shows that</div><div>synthetic biology and synthetic chemistry, incorporated together in whole cells, can produce</div><div>molecules previously inaccessible to nature.</div>