Abstract
The R2 subunit of Escherichia coli ribonucleotide reductase (RNR) contains a stable tyrosyl radical (•Y122) diferric cluster cofactor. Earlier studies on the cofactor assembly reaction detected a paramagnetic intermediate, X, that was found to be kinetically competent to oxidize Y122. Studies using rapid freeze-quench (RFQ) Mossbauer and EPR spectroscopies led to the proposal that X is comprised of two high spin ferric ions and a S = 1/2 ligand radical, mutually spin coupled to give a S = 1/2 ground state (Ravi, N.; Bollinger, J. M., Jr.; Huynh, B. H.; Edmondson, D. E.; Stubbe, J. J. Am. Chem. Soc. 1994, 116, 8007−8014). An extension of RFQ methodology to Q-band ENDOR spectroscopy using 57Fe has shown that one of the irons has a very nearly isotropic hyperfine tensor (A(FeA) = −[74.2(2), 72.2(2), 73.2(2)] MHz) as expected for FeIII, but that the other iron site displays considerable anisotropy (A(FeB) = +[27.5(2), 36.8(2), 36.8(2)] MHz), indicative of substantial FeIV character. Reanalysis of the Mossbaue...
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