Haem-ligand switching during catalysis in crystals of a nitrogen-cycle enzyme

Cytochrome cd 1 nitrite reductase catalyses the conversion of nitrite to nitric oxide in the nitrogen cycle 1 , 2 . The crystal structure of the oxidized enzyme 3 , 4 shows that the d 1 haem iron of the active site is ligated by His/Tyr side chains, and the c haem iron is ligated by a His/His ligand pair. Here we show that both haems undergo re-ligation during catalysis. Upon reduction, the tyrosine ligand of the d 1 haem is released to allow substrate binding. Concomitantly, a refolding of the cytochrome c domain takes place, resulting in an unexpected change of the c haem iron coordination from His 17/His 69 to Met106/His69. This step is similar to the last steps in the folding of cytochrome c 5 , 6 , 7 , 8 . The changes must affect the redox potential of the haems, and suggest a mechanism by which internal electron transfer is regulated. Structures of reaction intermediates show how nitric oxide is formed and expelled from the active-site iron, as well as how both haems return to their starting coordination. These results show how redox energy can be switched into conformational energy within a haem protein.