Ammonia (NH)-oxidizing bacteria (AOB) derive total energy for life from the multi-electron oxidation of NH to nitrite (NO). One obligate intermediate of this metabolism is hydroxylamine (NHOH), which can be oxidized to the potent greenhouse agent nitrous oxide (NO) by the AOB enzyme cytochrome (cyt) P460. We have now spectroscopically characterized a 6-coordinate (6c) {FeNO} intermediate on the NHOH oxidation pathway of cyt P460. This species has two fates: it can either be oxidized to the {FeNO} that then undergoes attack by NHOH to ultimately generate NO, or it can lose its axial His ligand, thus generating a stable, off-pathway 5-coordinate (5c) {FeNO} species. We show that the wild type (WT) cyt P460 exhibits a slow nitric oxide (NO)-independent conversion ( = 2.90 × 10 s), whereas a cross-link-deficient Lys70Tyr cyt P460 mutant protein underwent His dissociation both a NO-independent ( = 3.8 × 10 s) and a NO-dependent pathway [ = 790 M s]. Eyring analyses of the NO-independent pathways for these two proteins revealed a significantly larger ( 27 cal mol K) activation entropy (Δ) in the cross-link-deficient mutant. Our results suggest that the Lys-heme cross-link confers rigidity to the positioning of the heme P460 cofactor to avoid the fast NO-dependent His dissociation pathway and subsequent formation of the off-pathway 5c {FeNO} species. The relevance of these findings to NO signaling proteins such as heme-nitric oxide/oxygen binding (H-NOX) is also discussed.
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| http://dx.doi.org/10.1039/c7sc03450d | DOI Listing |
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