Light‐Driven Uncoupling of Nitrogenase Catalysis from ATP Hydrolysis

Abstract As the sole artificial means to catalyze the reduction of atmospheric N 2 to NH 3 , the Haber–Bosch process carries an enormous industrial and agricultural importance. Yet, despite being developed nearly a century ago and its immense economic and environmental cost, no cleaner or more efficient alternative to this process has been found. Biological nitrogen fixation catalyzed by nitrogenase is an enticing place to look for inspiration for an alternative catalyst. However, this enzyme’s catalytic mechanism is poorly understood, because it relies upon ATP hydrolysis and protein interactions to coordinate electron transfer and substrate activation, creating a complex mixture of redox intermediates during turnover. Recently, new approaches have been presented to circumvent this problem. One such possibility is the use of covalently attached photosensitizers to directly transfer electrons to the active site of the enzyme, thereby uncoupling substrate reduction from ATP hydrolysis and allowing the population of discrete reaction intermediates for structural or spectroscopic investigation.