EPR characterization of a high-spin system in carbon monoxide dehydrogenase from Methanothrix soehngenii.

Carbon monoxide dehydrogenase and methyl-coenzyme M reductase were purified from 61Ni-enriched and natural-abundance nickel-grown cells of the methanogenic archae Methanothrix soehngenii. The nickel-EPR signal from cofactor F-430 in methyl-CoM reductase was of substoichiometric intensity and exhibited near-axial symmetry with g = 2.153, 2.221 and resolved porphinoid nitrogen superhyperfine splittings of approximately 1 mT. In the spectrum from 61Ni-enriched enzyme a well-resolved parallel I = 3/2 nickel hyperfine splitting was observed, A parallel = 4.4 mT. From a computer simulation of this spectrum the final enrichment in 61Ni was estimated to be 69%, while the original enrichment of the nickel metal was 87%. Carbon monoxide dehydrogenase isolated from the same batch exhibited four different EPR spectra. However, in none of these signals could any splitting or broadening from 61Ni be detected. Also, the characteristic g = 2.08 EPR signal found in some other carbon monoxide dehydrogenases and ascribed to a Ni-Fe-C complex, was never observed by us under any conditions of detection (4 to 100 K) and incubation in the presence of ferricyanide, dithionite, CO, coenzyme A, or acetyl-coenzyme A. Novel, high-spin EPR was found in the oxidized enzyme with effective g-values at g = 14.5, 9.6, 5.5, 4.6, 4.2, 3.8. The lines at g = 14.5 and 5.5 were tentatively ascribed to an S = 9/2 system (approximately 0.3 spins/alpha beta) with rhombicity E/D = 0.047 and D less than 0. The other signals were assigned to an S = 5/2 system (0.1 spins/alpha beta) with E/D = 0.27. Both sets of signals disappear upon reduction with Em,7.5 = - 280 mV. With a very similar reduction potential, Em,7.5 = - 261 mV, an S = 1/2 signal (0.1 spins/alpha beta) appears with the unusual g-tensor 2.005, 1.894, 1.733. Upon further lowering of the potential the putative double cubane signal also appears. At a potential E approximately - 320 mV the double cubane is only reduced by a few percent and this allows the detection of individual cubane EPR not subjected to dipolar interaction; a single spectral component is observed with g-tensor 2.048, 1.943, 1.894.