ISSN:
1432-1327
Keywords:
Tungsten
;
Aldehyde ferredoxin oxidoreductase
;
Electron paramagnetic resonance
;
Magnetic circular dichroism
;
Iron-sulfur cluster
Source:
Springer Online Journal Archives 1860-2000
Topics:
Biology
,
Chemistry and Pharmacology
Notes:
Thermococcus litoralis (Tl) have been investigated by using the combination of EPR and variable-temperature magnetic circular dichroism (VTMCD) spectroscopies. The results reveal a [Fe4S4]2+,+ cluster (E m=−368 mV) that undergoes redox cycling between an oxidized form with an S=0 ground state and a reduced form that exists as a pH- and medium-dependent mixture of S=3/2 (g=5.4; E/D=0.33) and S=1/2 (g=2.03, 1.93, 1.86) ground states, with the former dominating in the presence of 50% (v/v) glycerol. Three distinct types of W(V) EPR signals have been observed during dye-mediated redox titration of as-isolated Tl FOR. The initial resonance observed upon oxidation, termed the “low-potential” W(V) species (g=1.977, 1.898, 1.843), corresponds to approximately 25–30% of the total W and undergoes redox cycling between W(IV)/W(V) and W(V)/W(VI) states at physiologically relevant potentials (E m=−335 and −280 mV, respectively). At higher potentials a minor “mid-potential” W(V) species, g=1.983, 1.956, 1.932, accounting for less than 5% of the total W, appears with a midpoint potential of −34 mV and persists up to at least +300 mV. At potentials above 0 mV, a major “high-potential” W(V) signal, g=1.981, 1.956, 1.883, accounting for 30–40% of the total W, appears at a midpoint potential of +184 mV. As-isolated samples of Tl FOR were found to undergo an approximately 8-fold enhancement in activity on incubation with excess Na2S under reducing conditions and the sulfide-activated Tl FOR was partially inactivated by cyanide. The spectroscopic and redox properties of the sulfide-activated Tl FOR are quite distinct from those of the as-isolated enzyme, with loss of the low-potential species and changes in both the mid-potential W(V) species (g=1.981, 1.950, 1.931; E m=−265 mV) and high-potential W(V) species (g=1.981, 1.952, 1.895; E m=+65 mV). Taken together, the W(V) species in sulfide-activated samples of Tl FOR maximally account for only 15% of the total W. Both types of high-potential W(V) species were lost upon incubation with cyanide and the sulfide-activated high-potential species is converted into the as-isolated high-potential species upon exposure to air. Structural models are proposed for each of the observed W(V) species and both types of mid-potential and high-potential species are proposed to be artifacts of ligand-based oxidation of W(VI) species. A W(VI) species with terminal sulfido or thiol ligands is proposed to be responsible for the catalytic activity in sulfide-activated samples of Tl FOR.
Type of Medium:
Electronic Resource
URL:
http://dx.doi.org/10.1007/PL00010660
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