Cysteinate axial ligand

Replacing the cysteinate axial ligand with either imidazole or phenolate models the related enzymes HRP and catalase, respectively. In contrast to cysteinate, an imidazole ligand hardly interacts with the porphyrin a2 orbital. As a result, the spin densities of the singly occupied 32 orbital in Cpd I(HRP) are primarily located on the porphyrin ring, while in Cpd I(P450), the spin... 

Ohta, T., K. Matsuura, K. Yoshizawa, and I. Morishima (2000). The electronic and vibrational structures of iron-oxo porphyrin with a methoxide or cysteinate axial ligand. J. Inorg. Biochem. 82, 141-152. 

Peroxidases are heme iron-containing proteins similar in structure to that of cytochromes P450. The major difference is that peroxidases have histidine as the axial ligand instead of cysteine, and there are also other polar amino acids close to the heme iron that help to catalyze the peroxidase function of the enzyme (41). The result is that the peroxidases very rapidly catalyze the reduction of hydroperoxides to alcohols (or water in the case of... 

Therefore, we investigated a molecular interaction of cardiolipin with cytochrome c. As shown in Figure 2, cytochrome c consists of 5 helices and inter-helical loops which harbor a heme c prosthehc group by covalent thioether-bonds through cysteine-14 and -17 residues. Ferric ion, centered in the pyrrole ring, is axially liganded by histidine-18 and methionine-80 residue. The lower half of the protein consishng of flexible random coils is a rather soft stmcture and has a space between the heme c plate and P-loops inside the smah basic protein. 

As with any metalloprotein, the chemical and physical properties of the metal ion in cytochromes are determined by the both the primary and secondary coordination spheres (58-60). The primary coordination sphere has two components, the heme macrocycle and the axial ligands, which directly affect the bound metal ion. The pyrrole nitrogen donors of the heme macrocycle that are influenced by the substitutents on the heme periphery establish the base heme properties. These properties are directly modulated by the number and type of axial ligands derived from the protein amino acids. Typical heme proteins utilize histidine, methionine, tyrosinate, and cysteinate ligands to affect five or six coordination at the metal center. 

Poulos et al., 1985,1986), also have a porphyrin-liganding group, but the axial ligands may vary. In catalase the axial groups are water and tyrosine, while in cytochrome P-450 (Fig. 24) they are cysteine and water or oxygen. 

Some small peptide-heme complexes have been prepared, including an undecapeptide (residues 11-21)668"669 and an octapeptide (residues 14-21). TTiese are useful models as they include the two cysteine residues that covalently link the heme to the peptide, and one of the axial ligands. The axial Met-80 residue is absent, but the position can be filled by methionine or by other ligands as required.670 Work with several octapeptide complexes shows that the rates of outer-sphere electron transfer appear to be independent of the axial ligand, and faster than the reaction for cytochrome c. Other comparisons show that the orientation of the axial methionine in cytochrome c and the contacts between heme and protein are important controlling factors in the electronic structure of the heme. Aqua and hydroxo complexes of iron(III) octapeptide complexes are also useful models for studying spin equilibria in iron(III) hemoproteins.671... 

Several diverse metal centres are involved in the catalysis of monooxygenation or hydroxylation reactions. The most important of these is cytochrome P-450, a hemoprotein with a cysteine residue as an axial ligand. Tyrosinase involves a coupled binuclear copper site, while dopamine jS-hydroxylase is also a copper protein but probably involves four binuclear copper sites, which are different from the tyrosinase sites. Putidamonooxin involves an iron-sulfur protein and a non-heme iron. In all cases a peroxo complex appears to be the active species. 

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