We will investigate the fundamental parameters which control electron transfer reactions redox enzymes. Kinetic laser photolysis coupled with site-specific mutagenesis will elucidate the roles of amino acid side chains and other structural features in the generation of productive protein-protein or domain-domain interactions, and in electron transfer between prosthetic groups. Both interprotein and intraprotein reactions will be studied in the following specific systems. Ferredoxin/ferredoxin : NADP+ reductase: We will investigate the interactions of site-specific reductase mutants with both wild-type and mutant ferredoxins in order to provide new insights int the association/recognition and electron transfer events which occur during productive encounter Flavocytochrome b2 (lactate dehydrogenase): Conservative mutations will be made at the heme-flavin domain interface, and the effects of such changes on intramolecular electron transfer between the prosthetic groups will be determined. Coupled with x-ray structures of the mutant proteins, these studies should provide important insights into the role of distance and orientation on redox cents communication. Cytochrome P4SOBM-3 (fatty acid monooxygenase): The electron transfer properties of the holoenzyme will be compared with those of expressible subdomains of the protein (heme, FAD-FMN, FAD, FMN, and FMN-heme). This will provide information on the effects of interactions between these domains on intercenter electron transfer. We will also study the effect of mutations in the polypeptide linker region on interdomain electron transfer. p-Cresol methylhydroxylase ( flavocytochrome c): We will study intersubunit electron transfer kinetics in mutants which are alterated at the flavin site or in the subunit interface region. These studies, along with x-ray structure determinations of mutant proteins, should provide information on et pathways and distance and orientation effects on flavin-heme electron transfer.

Agency
National Institute of Health (NIH)
Institute
National Institute of Diabetes and Digestive and Kidney Diseases (NIDDK)
Type
Research Project (R01)
Project #
5R01DK015057-28
Application #
2733958
Study Section
Physical Biochemistry Study Section (PB)
Program Officer
May, Michael K
Project Start
1978-07-01
Project End
2002-06-30
Budget Start
1998-07-01
Budget End
1999-06-30
Support Year
28
Fiscal Year
1998
Total Cost
Indirect Cost
Name
University of Arizona
Department
Biochemistry
Type
Schools of Arts and Sciences
DUNS #
City
Tucson
State
AZ
Country
United States
Zip Code
85721
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Santagostini, Laura; Gullotti, Michele; Hazzard, James T et al. (2005) Inhibition of intramolecular electron transfer in ascorbate oxidase by Ag+: redox state dependent binding. J Inorg Biochem 99:600-5
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Feng, Changjian; Wilson, Heather L; Hurley, John K et al. (2003) Role of conserved tyrosine 343 in intramolecular electron transfer in human sulfite oxidase. J Biol Chem 278:2913-20
Hurley, John K; Morales, Renaud; Martinez-Julvez, Marta et al. (2002) Structure-function relationships in Anabaena ferredoxin/ferredoxin:NADP(+) reductase electron transfer: insights from site-directed mutagenesis, transient absorption spectroscopy and X-ray crystallography. Biochim Biophys Acta 1554:5-21
Faro, Merche; Hurley, John K; Medina, Milagros et al. (2002) Flavin photochemistry in the analysis of electron transfer reactions: role of charged and hydrophobic residues at the carboxyl terminus of ferredoxin-NADP(+) reductase in the interaction with its substrates. Bioelectrochemistry 56:19-21

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