Diiron-tyrosinate proteins

Dihydroxyproline 80 Diiron desaturases 863 Diiron oxygenases 863 Diiron proteins 862-864 Diiron-tyrosinate proteins 862-863 Diisopropylfluorophosphate (DFP, diisopropylphosphofluoridate) 610s Dimethylallyl diphosphate 712s Dimethylallyl pyrophosphate, condensation of 527... 

Purple acid phosphatases. Diiron-tyrosinate proteins with acid phosphatase activity occur in mammals, plants, and bacteria. Most are basic glycoproteins with an intense 510- to 550-nm light absorption band. Well-studied members come from beef spleen, from the uterine fluid of pregnant sows (uteroferrin), and from human macrophages and osteoclasts. " " One of the two iron atoms is usually in the Fe(III) oxidation state, but the second can be reduced to Fe(II) by mild reductants such as ascorbate. This half-reduced form is enzymatically active and has a pink color and a characteristic EPR signal. Treatment with oxidants such as H2O2 or hexacyannoferrate (III)... 

Each polypeptide chain of the P2 dimer or R2 protein contains a diiron center which serves as a free radical generator 354a b/C A few bacteria utilize a dimanganese center.355 Oxygenation of this center is linked to the uptake of both a proton and an electron and to the removal of a hydrogen atom from the ring of tyrosine 166 to form HzO and an organic radical (Eq. 16-23) 356-360... 

RNRs catalyze the reduction of ribonucleotides to deoxyribonucleotides, which represents the first committed step in DNA biosynthesis and repair.These enzymes are therefore required for all known life forms. Three classes of RNRs have been identified, all of which turn out to be metalloenzymes. The so-called class I RNRs contain a diiron site (see Cobalt Bn Enzymes Coenzymes and Iron-Sulfur Proteins for the other two types of RNRs). As diagrammed in Figure 5, these enzymes generate first a tyrosyl radical proximal to the diiron site in the protein subunit labeled R2, and then a thiyl radical in an adjacent subunit (Rl) that ultimately abstracts a hydrogen atom from the ribonucleotide substrate. This controlled tyrosine/thiol radical transfer must occur over an estimated distance of 35 A, and a highly choreographed proton-coupled electron transfer (PCET) mechanism across intervening aromatic residues has been proposed. Perhaps, even more remarkably,... 

Spectroscopic data support location of the radical in GAO on the Y272-C228 unit. The first indication came from UV-vis, EPR, and ENDOR studies of a one-electron oxidized form of Cu-depleted (apo) GAO, which showed the formation of a thioether-modified tyrosyl radical. " " This radical was found to be quite stable, as reflected by the oxidation potential of about-1-0.4 V (vs. normal hydrogen electrode (NHE)) which is significantly less than that of other tyrosine/ tyrosyl radical couples (cf.+0.93V for free tyrosine or +1.0V for the tyrosyl residue near the diiron site in ribonucleotide reductase, vide infra). Possible origins of this unusual stability that have been considered are the thioether substituent," the nearby W290, and/or other unspecified protein environmental effects. Coordination of this radical to Cu was then proposed for the... 

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