1 research outputs found
Sodium-Dependent Movement of Covalently Bound FMN Residue(s) in Na<sup>+</sup>-Translocating NADH:Quinone Oxidoreductase
Na<sup>+</sup>-translocating NADH:quinone oxidoreductase
(Na<sup>+</sup>-NQR) is a component of respiratory electron-transport
chain
of various bacteria generating redox-driven transmembrane electrochemical
Na<sup>+</sup> potential. We found that the change in Na<sup>+</sup> concentration in the reaction medium has no effect on the thermodynamic
properties of prosthetic groups of Na<sup>+</sup>-NQR from <i>Vibrio harveyi</i>, as was revealed by the anaerobic equilibrium
redox titration of the enzyme’s EPR spectra. On the other hand,
the change in Na<sup>+</sup> concentration strongly alters the EPR
spectral properties of the radical pair formed by the two anionic
semiquinones of FMN residues bound to the NqrB and NqrC subunits (FMN<sub>NqrB</sub> and FMN<sub>NqrC</sub>). Using data obtained by pulse
X- and Q-band EPR as well as by pulse ENDOR and ELDOR spectroscopy,
the interspin distance between FMN<sub>NqrB</sub> and FMN<sub>NqrC</sub> was found to be 15.3 Ã… in the absence and 20.4 Ã… in the
presence of Na<sup>+</sup>, respectively. Thus, the distance between
the covalently bound FMN residues can vary by about 5 Ã… upon
changes in Na<sup>+</sup> concentration. Using these results, we propose
a scheme of the sodium potential generation by Na<sup>+</sup>-NQR
based on the redox- and sodium-dependent conformational changes in
the enzyme