Abstract

AbstractTo provide mechanistic constraints to interpret nitrogen (N) and oxygen (O) isotope ratios of nitrate ( ), 15N/14N and 18O/16O, in the environment, we measured the enzymatic N and O isotope effects (15ε and 18ε) during its reduction by reductase enzymes, including (1) a prokaryotic respiratory reductase, Nar, from the heterotrophic denitrifier Paracoccus denitrificans, (2) eukaryotic assimilatory reductases, eukNR, from Pichia angusta and from Arabidopsis thaliana, and (3) a prokaryotic periplasmic reductase, Nap, from the photoheterotroph Rhodobacter sphaeroides. Enzymatic Nar and eukNR assays with artificial viologen electron donors yielded identical 18ε and 15ε of ∼28‰, regardless of [ ] or assay temperature, suggesting analogous kinetic mechanisms with viologen reductants. Nar assays fuelled with the physiological reductant hydroquinone (HQ) also yielded 18ε ≈ 15ε, but variable amplitudes from 21‰ to 33.0‰ in association with [ ], suggesting analogous substrate sensitivity in vivo. Nap assays fuelled by viologen revealed 18ε:15ε of 0.50, where 18ε ≈ 19‰ and 15ε ≈ 38‰, indicating a distinct catalytic mechanism than Nar and eukNR. Nap isotope effects measured in vivo showed a similar 18ε:15ε of 0.57, but reduced 18ε ≈ 11‰ and 15ε ≈ 19‰. Together, the results confirm identical enzymatic 18ε and 15ε during assimilation and denitrification, reinforcing the reliability of this benchmark to identify consumption in the environment. However, the amplitude of enzymatic isotope effects is apt to vary in vivo. The distinctive signature of Nap is of interest for deciphering catalytic mechanisms but may be negligible in most environments given its physiological role.

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