Donald Kurtz to Crystallography, X-Ray
This is a "connection" page, showing publications Donald Kurtz has written about Crystallography, X-Ray.
Connection Strength
0.541
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Benavides BS, Valandro S, Cioloboc D, Taylor AB, Schanze KS, Kurtz DM. Structure of a Zinc Porphyrin-Substituted Bacterioferritin and Photophysical Properties of Iron Reduction. Biochemistry. 2020 04 28; 59(16):1618-1629.
Score: 0.179
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Fang H, Caranto JD, Mendoza R, Taylor AB, Hart PJ, Kurtz DM. Histidine ligand variants of a flavo-diiron protein: effects on structure and activities. J Biol Inorg Chem. 2012 Dec; 17(8):1231-9.
Score: 0.106
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Emerson JP, Coulter ED, Cabelli DE, Phillips RS, Kurtz DM. Kinetics and mechanism of superoxide reduction by two-iron superoxide reductase from Desulfovibrio vulgaris. Biochemistry. 2002 Apr 02; 41(13):4348-57.
Score: 0.051
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Richie KA, Teng Q, Elkin CJ, Kurtz DM. 2D 1H and 3D 1H-15N NMR of zinc-rubredoxins: contributions of the beta-sheet to thermostability. Protein Sci. 1996 May; 5(5):883-94.
Score: 0.034
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Okamoto Y, Onoda A, Sugimoto H, Takano Y, Hirota S, Kurtz DM, Shiro Y, Hayashi T. Crystal structure, exogenous ligand binding, and redox properties of an engineered diiron active site in a bacterial hemerythrin. Inorg Chem. 2013 Nov 18; 52(22):13014-20.
Score: 0.029
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Yang TC, McNaughton RL, Clay MD, Jenney FE, Krishnan R, Kurtz DM, Adams MW, Johnson MK, Hoffman BM. 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. J Am Chem Soc. 2006 Dec 27; 128(51):16566-78.
Score: 0.018
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Isaza CE, Silaghi-Dumitrescu R, Iyer RB, Kurtz DM, Chan MK. Structural basis for O2 sensing by the hemerythrin-like domain of a bacterial chemotaxis protein: substrate tunnel and fluxional N terminus. Biochemistry. 2006 Aug 01; 45(30):9023-31.
Score: 0.017
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Iyer RB, Silaghi-Dumitrescu R, Kurtz DM, Lanzilotta WN. High-resolution crystal structures of Desulfovibrio vulgaris (Hildenborough) nigerythrin: facile, redox-dependent iron movement, domain interface variability, and peroxidase activity in the rubrerythrins. J Biol Inorg Chem. 2005 Jun; 10(4):407-16.
Score: 0.016
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Silaghi-Dumitrescu R, Kurtz DM, Ljungdahl LG, Lanzilotta WN. X-ray crystal structures of Moorella thermoacetica FprA. Novel diiron site structure and mechanistic insights into a scavenging nitric oxide reductase. Biochemistry. 2005 May 03; 44(17):6492-501.
Score: 0.016
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Jin S, Kurtz DM, Liu ZJ, Rose J, Wang BC. Displacement of iron by zinc at the diiron site of Desulfovibrio vulgaris rubrerythrin: X-ray crystal structure and anomalous scattering analysis. J Inorg Biochem. 2004 May; 98(5):786-96.
Score: 0.015
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Jin S, Kurtz DM, Liu ZJ, Rose J, Wang BC. X-ray crystal structure of Desulfovibrio vulgaris rubrerythrin with zinc substituted into the [Fe(SCys)4] site and alternative diiron site structures. Biochemistry. 2004 Mar 23; 43(11):3204-13.
Score: 0.015
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Jin S, Kurtz DM, Liu ZJ, Rose J, Wang BC. X-ray crystal structures of reduced rubrerythrin and its azide adduct: a structure-based mechanism for a non-heme diiron peroxidase. J Am Chem Soc. 2002 Aug 21; 124(33):9845-55.
Score: 0.013
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Farmer CS, Kurtz DM, Liu ZJ, Wang BC, Rose J, Ai J, Sanders-Loehr J. The crystal structures of Phascolopsis gouldii wild type and L98Y methemerythrins: structural and functional alterations of the O2 binding pocket. J Biol Inorg Chem. 2001 Apr; 6(4):418-29.
Score: 0.012
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Eidsness MK, Burden AE, Richie KA, Kurtz DM, Scott RA, Smith ET, Ichiye T, Beard B, Min T, Kang C. Modulation of the redox potential of the [Fe(SCys)(4)] site in rubredoxin by the orientation of a peptide dipole. Biochemistry. 1999 Nov 09; 38(45):14803-9.
Score: 0.011
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deMar? F, Kurtz DM, Nordlund P. The structure of Desulfovibrio vulgaris rubrerythrin reveals a unique combination of rubredoxin-like FeS4 and ferritin-like diiron domains. Nat Struct Biol. 1996 Jun; 3(6):539-46.
Score: 0.009