Abstract

Spectroscopic studies of the activation of chemical reactivity of dioxygen by iron porphyrins in both model systems and in intact, functioning proteins are proposed. These studies are designed to study the mechanism of action of a number of heme utilizing proteins including peroxidases, catalases, cytochrome P-450, cytochrome-c oxidase and heme oxidase. In model studies, intermediates, particularly those involving the (FeO)2+ and (FeO)3+ groups, which have been previously proposed as important to the of action of these proteins will be prepared at low temperature and their their electronic structure and chemical reactivity will be examined. This involve spectgroscopic examination particularly by 1H-NMR spectroscopy, but but also be electronic, infrared and electron spin resonance spectroscopy. study of proteins involves 1H-NMR studies of paramagnetic proteins in their their native and reactive forms. Model studies will focus on the chemical transformation of the five-coordinate PFeO2 (P=porphyrin dianion), attempts to stabilize PFeO and examine its reactivity as an oxidant, studies of the interconversion of the (FeO)2+ and (FeO)3+ groups, studies of the axial coordination and oxidation states of iron oxyphlorins, studies of porphyrin N-oxides and their ability to act as hydroxylating agents, and studies of the reactions between peroxides and iron porphyrins. Studies on proteins will focus on further definition of the electronic structure of horseradish peroxidase compound I, further comparision of horseradish peroxidase compound II with models containing the (FeO)2+ unit, and identification of the free radical center in cytochrome c peroxidase as well as studies of the influence of hydrogen bonding near the active site. 1H-NMR studies on cytochrome P-450 will characterize the heme environment with regard to axial ligation, heme orientation, side chain mobility and ionizable protons. Direct detection of reactive intermediates and comparison with models will be attempted.

  Funding Agency

Agency
National Institute of Health (NIH)
Institute
National Institute of General Medical Sciences (NIGMS)
Type
Research Project (R01)
Project #
5R01GM026226-07
Application #
3273724
Study Section
Metallobiochemistry Study Section (BMT)
Project Start
1979-04-01
Project End
1987-03-31
Budget Start
1985-04-01
Budget End
1986-03-31
Support Year
7
Fiscal Year
1985
Total Cost
Indirect Cost

  Institution

Name
University of California Davis
Department
Type
Schools of Arts and Sciences
DUNS #
094878337
City
Davis
State
CA
Country
United States
Zip Code
95618

  Publications

Garcia, Thelma Y; Olmstead, Marilyn M; Fettinger, James C et al. (2008) Cleavage of the indium(III) octaethyloxophlorin dimer, {In(III)(OEPO)}2, with Lewis bases. Importance of outer-sphere hydrogen bonding in adduct structures. Inorg Chem 47:11417-22
La Mar, Gerd N (2007) Application of the paramagnetic dipole field for solution NMR active site structure determination in low-spin, cyanide-inhibited ferric hemoproteins. IUBMB Life 59:513-27
Rath, Sankar Prasad; Olmstead, Marilyn M; Balch, Alan L (2006) Electron distribution in iron octaethyloxophlorin complexes. Importance of the Fe(III) oxophlorin trianion form in the bis-pyridine and bis-imidazole complexes. Inorg Chem 45:6083-93
Bondarenko, Vasyl; Wang, Jingtao; Kalish, Heather et al. (2005) Solution 1H NMR study of the accommodation of the side chain of n-butyl-etiohemin-I incorporated into the active site of cyano-metmyoglobin. J Biol Inorg Chem 10:283-93
Sprutta, Natasza; Rath, Sankar Prasad; Olmstead, Marilyn M et al. (2005) Metal complexes of meso-amino-octaethylporphyrin and the oxidation of NiII(meso-amino-octaethylporphyrin). Inorg Chem 44:1452-9
Rath, Sankar Prasad; Olmstead, Marilyn M; Balch, Alan L (2004) The effects of axial ligands on electron distribution and spin states in iron complexes of octaethyloxophlorin, intermediates in heme degradation. J Am Chem Soc 126:6379-86
Rath, Sankar Prasad; Olmstead, Marilyn M; Balch, Alan L (2004) Reactions of meso-hydroxyhemes with carbon monoxide and reducing agents in search of the elusive species responsible for the g = 2.006 resonance of carbon monoxide-treated heme oxygenase. Isolation of diamagnetic iron(II) complexes of octaethyl-meso-hydro Inorg Chem 43:6357-65
Rath, Sankar Prasad; Kalish, Heather; Latos-Grazynski, Lechoslaw et al. (2004) Facile ring opening of iron(III) and iron(II) complexes of meso-amino-octaethylporphyrin by dioxygen. J Am Chem Soc 126:646-54
Kalish, Heather; Lee, Hon Man; Olmstead, Marilyn M et al. (2003) Heme cleavage with remarkable ease: paramagnetic intermediates formed by aerobic oxidation of a meso-amino-substituted iron porphyrin. J Am Chem Soc 125:4674-5
Ozarowski, Andrew; Lee, Hon Man; Balch, Alan L (2003) Crystal environments probed by EPR spectroscopy. Variations in the EPR spectra of Co(II)(octaethylporphyrin) doped in crystalline diamagnetic hosts and a reassessment of the electronic structure of four-coordinate cobalt(II). J Am Chem Soc 125:12606-14

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