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Kurtz, Donald
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overview A major aspect of our research focuses on the structure, function, and catalytic mechanisms of bacterial and archaeal non-heme iron enzymes that reductively scavenge diatomic oxygen and nitrogen species. These scavenging and sensing reactions require specialized active sites with novel iron coordination environments and novel mechanisms, which we follow by rapid kinetic and spectroscopic techniques as well as protein X-ray crystallography. We are also attempting to develop an oxygen-carrying protein as a blood substitute. A related project focuses on proteins that catalyze storage and release of intracellular iron. An exciting new development is the use of these iron storage proteins as scaffolds to enclose metal and semiconductor nanoparticles for photochemical H2 production and photo-initiated delivery of toxic iron to cancer cells.
One or more keywords matched the following items that are connected to Kurtz, Donald
Item TypeName
Academic Article Treponema denticola superoxide reductase: in vivo role, in vitro reactivities, and a novel [Fe(Cys)(4)] site.
Academic Article An HD-GYP cyclic di-guanosine monophosphate phosphodiesterase with a non-heme diiron-carboxylate active site.
Academic Article Crystal structure, exogenous ligand binding, and redox properties of an engineered diiron active site in a bacterial hemerythrin.
Academic Article The nitric oxide reductase mechanism of a flavo-diiron protein: identification of active-site intermediates and products.
Academic Article Dioxygen and nitric oxide scavenging by Treponema denticola flavodiiron protein: a mechanistic paradigm for catalysis.
Academic Article CD/MCD/VTVH-MCD Studies of Escherichia coli Bacterioferritin Support a Binuclear Iron Cofactor Site.
Academic Article Active Site Metal Occupancy and Cyclic Di-GMP Phosphodiesterase Activity of Thermotoga maritima HD-GYP.
Academic Article Kinetics and equilibria of active site core extrusion from spinach ferredoxin in aqueous N,N-dimethylformamide/Triton X-100 solutions.
Academic Article Spectroscopy and DFT Calculations of a Flavo-diiron Enzyme Implicate New Diiron Site Structures.
Academic Article Computational study of the non-heme iron active site in superoxide reductase and its reaction with superoxide.
Academic Article Kinetics of the superoxide reductase catalytic cycle.
Academic Article Geometries and electronic structures of cyanide adducts of the non-heme iron active site of superoxide reductases: vibrational and ENDOR studies.
Academic Article Comparing the electronic properties of the low-spin cyano-ferric [Fe(N4)(Cys)] active sites of superoxide reductase and p450cam using ENDOR spectroscopy and DFT calculations.
Concept Catalytic Domain
Academic Article Particle Swarm Fitting of Spin Hamiltonians: Magnetic Circular Dichroism of Reduced and NO-Bound Flavodiiron Protein.
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  • Catalytic Domain
RCMI CC is supported by the National Institute on Minority Health and Health Disparities, National Institutes of Health (NIH), through Grant Number U24MD015970. The contents of this site are solely the responsibility of the authors and do not necessarily represent the official views of the NIH

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