Effects of mutations in aspartate 14 on the spectroscopic properties of the [Fe3S4]+,0 clusters in Pyrococcus furiosus ferredoxin.

The properties of [Fe(3)S(4)](+,0) clusters in wild-type and mutant forms of Pf Fd with Asp, Ser, Cys, Val, His, Asn, and Tyr residues occupying position 14, i.e., proximal to the three micro(2)-S atoms of the cluster, have been investigated by the combination of EPR, variable-temperature magnetic circular dichroism (VTMCD), and resonance Raman (RR) spectroscopies. Two distinct types of [Fe(3)S(4)] clusters are identified on the basis of the breadth of the S = (1)/(2) [Fe(3)S(4)](+) EPR resonances and the marked differences in the VTMCD spectra of the S = 2 [Fe(3)S(4)](0) clusters. On the basis of the available NMR data for [Fe(3)S(4)](+, 0) clusters in ferredoxins, the distinctive properties of these two types of [Fe(3)S(4)] clusters are interpreted in terms of different locations of the more strongly coupled pair of irons in the oxidized clusters and the valence-delocalized pair in the reduced clusters. Near-IR VTMCD measurements indicate the presence of S = (9)/(2) valence-delocalized pairs in both types of [Fe(3)S(4)](0) clusters, and the spin-dependent delocalization energies associated with the Fe-Fe interactions were determined to be approximately 4300 cm(-)(1) in both cases. We conclude that the nature of the residue at position 14 in Pyrococcus furiosus ferredoxin is an important determinant of the location of the reducible pair of irons in a [Fe(3)S(4)](+,0) cluster, and the redox properties of the wild-type and mutant ferredoxins are discussed in light of these new results.