The proposed research seeks to elucidate the structure and function of iron-containing enzymes involved in a diverse range of biochemical reactions in the metabolism of nucleic acids, amino acids, fatty acids, biodegradation of aromatic compounds, and the biosynthesis of antibiotics. This research will be complemented by the study of high-valent synthetic complexes that can serve as structural or electronic models of the biological systems. The studies will focus on preparing and characterizing high-valent states of iron such as FeIV and FeV. It is also proposed to continue studies of yeast mitochondria, in particular of deletion mutants that produce aggregates of ferric iron which have been implicated in various neurodegenerative diseases. The experimental techniques employed are M""""""""ssbauer spectroscopy and electron paramagnetic resonance. The research plan also includes theoretical studies based on density functional theory calculations. Specifically the following systems will be studied: (1) Homoprotochatechuate 2,3 dioxygenase, three Rieske dioxygenases, and methane monooxygenase. (2) Synthetic mononuclear FeIV and FeV complexes as well as dinuclear FeIVFeIII, and FeIVFeIV complexes that can serve as structural and/or electronic models for the active sites of iron proteins. (3) Activators involving Fe-tetraamido macrocyclic ligands that have a demonstrated potential in green chemistry and have proven very potent in killing anthrax spores and eliminating pollutants from our water supply. (4) Intact mitochondria from S. cerevisiae, to identify conditions where the particular strength of M""""""""ssbauer spectroscopy can be employed to address important health problems.

Public Health Relevance

Iron-containing enzymes involved in oxygen activation affect numerous chemical transformations in all biological systems. The proposed studies of these enzymes, coupled with investigations of novel synthetic complexes that mimic structural and functional features of the biological systems, will reveal how these important enzymes function. The research will be complemented by studies of a family of synthetic complexes that have proven to be effective in green chemistry and extremely potent in killing pathogens such as anthrax spores.

Agency
National Institute of Health (NIH)
Institute
National Institute of Biomedical Imaging and Bioengineering (NIBIB)
Type
Research Project (R01)
Project #
5R01EB001475-36
Application #
8019536
Study Section
Macromolecular Structure and Function A Study Section (MSFA)
Program Officer
Liu, Christina
Project Start
1990-05-01
Project End
2012-06-30
Budget Start
2011-03-01
Budget End
2012-06-30
Support Year
36
Fiscal Year
2011
Total Cost
$318,419
Indirect Cost
Name
Carnegie-Mellon University
Department
Chemistry
Type
Schools of Arts and Sciences
DUNS #
052184116
City
Pittsburgh
State
PA
Country
United States
Zip Code
15213
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Li, Feifei; Van Heuvelen, Katherine M; Meier, Katlyn K et al. (2013) Sc3+-triggered oxoiron(IV) formation from O2 and its non-heme iron(II) precursor via a Sc3+-peroxo-Fe3+ intermediate. J Am Chem Soc 135:10198-201
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Bruijnincx, Pieter C A; Buurmans, Inge L C; Huang, Yuxing et al. (2011) Mono- and dinuclear iron complexes of bis(1-methylimidazol-2-yl)ketone (bik): structure, magnetic properties, and catalytic oxidation studies. Inorg Chem 50:9243-55

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