Several themes have emerged in the studies of biological control of nitrite and nitric‐oxide chemistry.[1‐2] Apparently, evolution has clearly selected means by which to take advantage of the unique NO2 and NO chemistry, and a number of enzymes have evolved that are able to activate NO2/NO kinetically, and control their redox chemistry. In bacterial respiration the reduction of NO2/NO to N2O by terminal oxidoreductases supports the hypothesis of a common evolutionary origin of bacterial denitrification and aerobic respiration. Comparison of the enzymes responsible for the activation of NO in denitrification and bacterial respiration may provide the means to identify conserved structural features, which can be assumed to be involved in basic functions common to both classes of enzymes. The most commonly encountered metals in the biological reduction of NO2 to NO and subsequently to N2O are iron and copper in mononuclear, binuclear, and dinuclear centers. In P450Nor the electrons needed for the reduction of NO are directly transferred from NADH. This way, a single molecule of NO binds at the heme Fe, and addition of two electrons to heme Fe3+‐NO yields the two electron reduced species Fe2+‐N=O‐. A second NO moleculeattacks the N atom of the ferrous‐NO species to transiently yield hyponitrite (HONNO–), and thus the N‐N bond formation. Cleavage of the N‐O bond produces the ferric enzyme, N2O and H2O. Resonance Raman studies of the NO2‐ligand binding properties of heme‐copper oxidases will be presented.References. Discrete Ligand Binding and Electron Transfer Properties of ba3‐Cytochrome c Oxidase from Thermus thermophilus: Evolutionary Adaption to Low Oxygen and …C Koutsoupakis, T Soulimane, C. Varotsis Accounts of chemical research 52 (5), 1380‐139, 2019. The structure of a ferrous heme‐nitro species in the binuclear heme a3/CuBcenter of ba3‐cytochrome c oxidase as determined by resonance Raman spectroscopy A. Loullis, MR Noor, T Soulimane, E Pinakoulaki Chemical Communications 51 (2), 286‐289, 2015.
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