A great many biological energy transduction pathways depend upon the rapid movement of electrons or holes over long distances (>30 ?) through proteins. Many redox enzymes, particularly those involved in oxygen activation and production, require the transfer of holes at high potentials where the sidechains of redox-active amino acids can become involved. Stringent design requirements must be met to transport charges rapidly and efficiently along specific pathways and prevent the off- path diffusion of redox equivalents and the disruption of energy flow. In this research program, the molecular parameters that control multistep electron tunneling through tryptophan (Aim 1) and tyrosine (Aim 2) radicals will be examined. Several azurin mutants in which tryptophan residues lie between the Cu active site and a surface-attached photosensitizer will be prepared. Kinetics measurements will be used to elucidate the roles of redox-site separation distance, driving force, and tryptophan environment on the dynamics of long-range charge transport. Tyrosine is postulated to mediate long-range hole transport in several redox enzymes. Azurin mutants in which tyrosine residues are placed to serve as mediators of long-range electron transfer will be prepared and studied. Mutant proteins in which proton accepting residues are within hydrogen-bonding distance of the intermediate tyrosine residue also will be prepared. These proximal proton acceptors are expected to facilitate long-range hopping via tyrosine radicals. Amino-acid sidechain radicals often are found in enzymes involved in oxygen activation and formation chemistry. Important members of this class of enzymes are the heme-thiolate mono- oxygenases such as cytochrome P450 and nitric oxide synthases (NOS). These enzymes utilize molecular oxygen to effect a wide range of hydroxylation reactions involving organic substrates. Despite extensive investigations in many laboratories, questions remain regarding the nature of the active hydroxylating reagent in these enzymes: ferryl species (i.e., Fe-oxo Compounds I and II) are often invoked. Protein labeling and laser flash-quench photochemistry will be used to develop new insights into the reactive intermediates in heme-thiolate mono-oxygenases. Rather than treating the enzymes with reactive oxygen compounds, photochemically generated one-electron, outer-sphere oxidants covalently bound to the protein periphery will be used to remove electrons from the resting enzyme and produce ferryl compounds. Efforts will focus on oxidative generation of Compounds I and II in cytochromes P450 (Aim 3) and a bacterial enzyme that exhibits NOS-like reactivity (Aim 4).
Reduction and oxidation (redox) reactions are vital transformations in a wide array of metabolic processes. Countless diseases are associated with failures or disruptions of redox pathways. Elucidation of the fundamental chemical factors that control biological redox processes will lead to deeper understanding of disease mechanisms and guide the development of new therapies.
| Kozak, John J; Gray, Harry B; Garza-López, Roberto A (2018) Relaxation of structural constraints during Amicyanin unfolding. J Inorg Biochem 179:135-145 |
| Kretchmer, Joshua S; Boekelheide, Nicholas; Warren, Jeffrey J et al. (2018) Fluctuating hydrogen-bond networks govern anomalous electron transfer kinetics in a blue copper protein. Proc Natl Acad Sci U S A 115:6129-6134 |
| Teo, Ruijie D; Hwang, Jae Youn; Termini, John et al. (2017) Fighting Cancer with Corroles. Chem Rev 117:2711-2729 |
| Ener, Maraia E; Gray, Harry B; Winkler, Jay R (2017) Hole Hopping through Tryptophan in Cytochrome P450. Biochemistry 56:3531-3538 |
| Messina, Marco S; Axtell, Jonathan C; Wang, Yiqun et al. (2016) Visible-Light-Induced Olefin Activation Using 3D Aromatic Boron-Rich Cluster Photooxidants. J Am Chem Soc 138:6952-5 |
| Pribisko, Melanie; Palmer, Joshua; Grubbs, Robert H et al. (2016) Cellular uptake and anticancer activity of carboxylated gallium corroles. Proc Natl Acad Sci U S A 113:E2258-66 |
| Teo, Ruijie D; Termini, John; Gray, Harry B (2016) Lanthanides: Applications in Cancer Diagnosis and Therapy. J Med Chem 59:6012-24 |
| Kozak, John J; Gray, Harry B; Garza-López, Roberto A (2016) Structural Stability of Intelectin-1. J Phys Chem B 120:11888-11896 |
| Warren, Jeffrey J; Shafaat, Oliver S; Winkler, Jay R et al. (2016) Proton-coupled electron hopping in Ru-modified P. aeruginosa azurin. J Biol Inorg Chem 21:113-9 |
| Kozak, John J; Gray, Harry B; Garza-López, Roberto A (2016) Cytochrome unfolding pathways from computational analysis of crystal structures. J Inorg Biochem 155:44-55 |
Showing the most recent 10 out of 99 publications
