Abstract
Ribonucleotide reductases (RNR; EC 1.17.4.1) provide the 2′-deoxyribonucleotides for DNA replication of proliferating cells by a uniform radical mechanism using diverse metals. The native metallo-cofactor of the Corynebacterium glutamicum RNR contains manganese and is sensitive to EDTA and radical scavengers. Hybrid holoenzymes, capable of ribonucleotide reduction, were composed of the small manganese-containing (R2F) and the large catalytic subunit (R1E) from either of the two corynebacterial RNRs. A synthetic peptide deduced from the C-terminal region of the nrdF gene inhibited the C. glutamicum-RNR non-competitively and cross-reacted with the C. ammoniagenes-RNR. The C. glutamicum-R2F has a saturable organic radical signal at g=2.005 detected by electron paramagnetic resonance (EPR) spectroscopy and shows a distinct absorption at 408 nm indicative of a tyrosyl-like organic radical (Y·). Quantification of the metal content revealed 0.06 mol Fe but 0.8 mol Mn per mol R2F-monomer and would thus assign two manganese atoms bound to the dimeric metallo-cofactor, while a distinct enzymatic activity (32 µmol×mg−1×min−1) was observed in the biochemical complementation assay. Divergence of the C. glutamicum-RNR studied here from the prototypical Salmonella typhimurium class 1b enzyme and the Chlamydia trachomatis class Ic enzyme is discussed below.
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