Leif Petersson scite author profile

Ribonucleotide reductases from Escherichia coli and from mammalian cells are heterodimeric enzymes. One of the subunits, in the bacterial enzyme protein B2 and in the mammalian enzyme protein M2, contains iron and a tyrosyl free radical that both are essential for enzyme activity. The iron center in protein B2 is an antiferromagnetically coupled pair of high-spin ferric ions. This study concerns magnetic interaction between the tyrosyl radical and the iron center in the two proteins. Studies of the temperature dependence of electron paramagnetic resonance (EPR) relaxation and line shape reveal significant differences between the free radicals in proteins B2 and M2. The observed temperature-dependent enhanced EPR relaxation and line broadening of the enzyme radicals are furthermore completely different from those of a model UV-induced free radical in tyrosine. The results are discussed in terms of magnetic dipolar as well as exchange interactions between the free radical and the iron center in both proteins. The free radical and the iron center are thus close enough in space to exhibit magnetic interaction. For protein M2 the effects are more pronounced than for protein B2, indicating a stronger magnetic interaction.

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Soluble tyrosine hydroxylase (tyrosine 3-monooxygenase) from bovine adrenal medulla: Large-scale purification and physicochemical properties

Haavik

Andersson

Petersson

et al. 1988

Biochimica et Biophysica Acta (BBA) - Protein Structure and Mol

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The iron center in ribonucleotide reductase from Escherichia coli.

Petersson¹,

Gräslund²,

Ehrenberg³

et al. 1980

Journal of Biological Chemistry

217

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Reduced forms of the iron-containing small subunit of ribonucleotide reductase from Escherichia coli

Sahlin

Graeslund²,

Petersson³

et al. 1989

Biochemistry

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The B2 subunit of ribonucleotide reductase from Escherichia coli contains a stable tyrosyl free radical and an antiferromagnetically coupled dimeric iron center with high-spin ferric ions. The tyrosyl radical is an oxidized form of tyrosine-122. This study shows that the B2 protein has a fully reduced state, denoted reduced B2, characterized by a normal nonradical tyrosine-122 residue and a dimeric ferrous iron center. Reduced B2 can be formed either from active B2 by a three-electron reduction in the presence of suitable mediators or from apoB2 by addition of two equimolar amounts of ferrous ions in the absence of oxygen. The oxidized tyrosyl radical and the ferric iron center can be generated from reduced B2 by the admission of air. The tyrosyl radical can be selectively reduced by one-electron reduction in the presence of a suitable mediator, yielding metB2, a form that seems identical with the form resulting from treatment of active B2 with hydroxyurea. 1H NMR was used to characterize the paramagnetically shifted resonances associated with the reduced iron center. Prominent resonances were observed around 45 ppm (nonexchangeable with solvent) and 57 ppm (exchangeable with solvent) at 37 degrees C. From the temperature dependence of the chemical shifts of these resonances it was concluded that the ferrous ions in reduced B2 are only weakly, if at all, antiferromagnetically coupled. By comparison with data on the similar iron center of deoxyhemerythrin it is suggested that the 57 ppm resonance should be assigned to protons in histidine ligands of the iron center.

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Leif Petersson

An ENDOR study of the tyrosyl free radical in ribonucleotide reductase from Escherichia coli

Magnetic interaction between the tyrosyl free radical and the antiferromagnetically coupled iron center in ribonucleotide reductase

Soluble tyrosine hydroxylase (tyrosine 3-monooxygenase) from bovine adrenal medulla: Large-scale purification and physicochemical properties

The iron center in ribonucleotide reductase from Escherichia coli.

Reduced forms of the iron-containing small subunit of ribonucleotide reductase from Escherichia coli

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