Molecules (Nov 2018)

A QM/MM Study of Nitrite Binding Modes in a Three-Domain Heme-Cu Nitrite Reductase

  • Kakali Sen,
  • Michael A. Hough,
  • Richard W. Strange,
  • Chin W. Yong,
  • Thomas W. Keal

DOI
https://doi.org/10.3390/molecules23112997
Journal volume & issue
Vol. 23, no. 11
p. 2997

Abstract

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Copper-containing nitrite reductases (CuNiRs) play a key role in the global nitrogen cycle by reducing nitrite (NO2−) to nitric oxide, a reaction that involves one electron and two protons. In typical two-domain CuNiRs, the electron is acquired from an external electron-donating partner. The recently characterised Rastonia picketti (RpNiR) system is a three-domain CuNiR, where the cupredoxin domain is tethered to a heme c domain that can function as the electron donor. The nitrite reduction starts with the binding of NO2− to the T2Cu centre, but very little is known about how NO2− binds to native RpNiR. A recent crystallographic study of an RpNiR mutant suggests that NO2− may bind via nitrogen rather than through the bidentate oxygen mode typically observed in two-domain CuNiRs. In this work we have used combined quantum mechanical/molecular mechanical (QM/MM) methods to model the binding mode of NO2− with native RpNiR in order to determine whether the N-bound or O-bound orientation is preferred. Our results indicate that binding via nitrogen or oxygen is possible for the oxidised Cu(II) state of the T2Cu centre, but in the reduced Cu(I) state the N-binding mode is energetically preferred.

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