Ray T. Syvitski scite author profile

The presence of variable static hemin orientational disorder about the ␣-␥-meso axis in the substrate complexes of mammalian heme oxygenase, together with the incomplete averaging of a second, dynamic disorder, for each hemin orientation, has led to NMR spectra with severe spectral overlap and loss of key two-dimensional correlations that seriously interfere with structural characterization in solution. We demonstrate that the symmetric substrate, 2,4-dimethyldeuterohemin, yields a single solution species for which the dynamic disorder is sufficiently rapid to allow effective and informative Mammalian heme oxygenase (HO)1 is a ϳ300-residue, membrane-bound, non-heme enzyme that, using heme as cofactor and substrate, catalyzes the regiospecific conversion of heme to ␣-biliverdin, iron, and CO (1). The physiological roles of HO are heme catabolism (HO-1) (2-4) and the generation of CO as a putative neural messenger (HO-2) (5, 6). Detailed mechanistic (7-13) and spectroscopic (13-17) studies of the fully active recombinant, soluble 265-residue portion of HO-1 have shown that, in contrast to heme peroxidase and cytochrome P450, HO does not act through a ferryl intermediate. Recent crystal structures (18,19) of the substrate-bound, water-ligated complexes of a more truncated 233-residue human HO, hHO (20), and the complete rat HO (18), rHO, have revealed a largely helical enzyme that confirms the binding of heme by His-25 and locates a highly bent distal helix that is sufficiently close to the heme to sterically block all but the ␣-meso position (see Fig.

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Solution 1H NMR Investigation of the Active Site Molecular and Electronic Structures of Substrate-bound, Cyanide-inhibited HmuO, a Bacterial Heme Oxygenase fromCorynebacterium diphtheriae

Syvitski

Chu

et al. 2003

Journal of Biological Chemistry

117

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Solution ¹H NMR Characterization of Equilibrium Heme Orientational Disorder with Functional Consequences in Mouse Neuroglobin

Syvitski

Dewilde

et al. 2003

J. Am. Chem. Soc.

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The solution 1H NMR spectrum of oxidized (met) mouse neuroglobin, metNgb, demonstrates that it is low-spin and hexacoordinate with strong spectral similarities to ferricytochrome b5. The axial ligands are identified as His(F8) and His(E7), with the latter exhibiting an unstrained Fe-His bond. The presence of two sets of resonances is shown to arise from equilibrium heme orientational isomers ( approximately 2:1). The ligation of cyanide is shown to be extraordinarily slow with a factor approximately 2 difference in rate for the two heme orientations. Not only is Ngb the first mamalian globin with equilibrium heme disorder, but the disorder also has additional functional consequences.

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H NMR Detection of Immobilized Water Molecules within a Strong Distal Hydrogen-Bonding Network of Substrate-Bound Human Heme Oxygenase-1

Syvitski

Auclair

et al. 2002

J. Am. Chem. Soc.

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Solution 1H NMR is used to probe the environments of the donor protons of eight strong hydrogen bonds on the distal side of the heme substrate in the cyanide-inhibited, substrate-bound complex of human heme oxygenase, hHO. It is demonstrated that significant magnetization transfer from the bulk water signal to the eight labile protons does not result from chemical exchange, but from direct nuclear Overhauser effect due to the dipolar interaction of these labile protons with "ordered" water molecules. The enzyme labile proton to water proton distances are estimated at approximately 3 A. It is proposed that the role of the strong hydrogen-bonding network is to immobilize numerous water molecules which both stabilize the activated hydroperoxy species and funnel protons to the active site.

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Stereochemical Integrity of Oxazolone Ring‐Containing Jadomycins

et al. 2007

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The jadomycins are a series of natural products produced by Streptomyces venzuelae ISP5230 in response to ethanol shock. A unique structural feature of these angucyclines is the oxazolone ring, the formation of which is catalyzed by condensation of a biosynthetic aldehyde intermediate and an amino acid. The feeding of enantiomeric forms of alpha-amino acids indicates that the amino acid is incorporated by S. venezuelae ISP5230 without isomerization at the alpha-carbon. The characterization of the first two six-membered E-ring-containing jadomycins is reported. These precursor-directed biosynthesis studies indicate flexibility in the acceptor substrate specificity of the glycosyltransferase, JadS. Analysis of cytotoxicity data against two human breast cancer cell lines indicates that the nature of the substitution at the alpha-carbon, rather than the stereochemistry, influences biological activity.

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Solution ¹H, ¹⁵N NMR Spectroscopic Characterization of Substrate-Bound, Cyanide-Inhibited Human Heme Oxygenase: Water Occupation of the Distal Cavity

Syvitski

Auclair

et al. 2003

J. Am. Chem. Soc.

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A solution NMR spectroscopic study of the cyanide-inhibited, substrate-bound complex of uniformly (15)N-labeled human heme oxygenase, hHO, has led to characterization of the active site with respect to the nature and identity of strong hydrogen bonds and the occupation of ordered water molecules within both the hydrogen bonding network and an aromatic cluster on the distal side. [(1)H-(15)N]-HSQC spectra confirm the functionalities of several key donors in particularly robust H-bonds, and [(1)H-(15)N]HSQC-NOESY spectra lead to the identification of three additional robust H-bonds, as well as the detection of two more relatively strong H-bonds whose identities could not be established. The 3D NMR experiments provided only a modest, but important, extension of assignments because of the loss of key TOCSY cross-peaks due to the line broadening from a dynamic heterogeneity in the active site. Steady-state NOEs upon saturating the water signal locate nine ordered water molecules in the immediate vicinity of the H-bond donors, six of which are readily identified in the crystal structure. The additional three are positioned in available spaces to account for the observed NOEs. (15)N-filtered steady-state NOEs upon saturating the water resonances and (15)N-filtered NOESY spectra demonstrate significant negative NOEs between water molecules and the protons of five aromatic rings. Many of the NOEs can be rationalized by water molecules located in the crystal structure, but strong water NOEs, particularly to the rings of Phe47 and Trp96, demand the presence of at least an additional two immobilized water molecules near these rings. The H-bond network appears to function to order water molecules to provide stabilization for the hydroperoxy intermediate and to serve as a conduit to the active site for the nine protons required per HO turnover.

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Synthetic diversification of natural products: semi-synthesis and evaluation of triazole jadomycins

et al. 2012

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Synthesis and enzymatic evaluation of ketose phosphonates: the interplay between mutarotation, monofluorination and acidity

et al. 2012

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Ray T. Syvitski

Solution NMR Characterization of an Unusual Distal H-bond Network in the Active Site of the Cyanide-inhibited, Human Heme Oxygenase Complex of the Symmetric Substrate, 2,4-Dimethyldeuterohemin

Solution 1H NMR Investigation of the Active Site Molecular and Electronic Structures of Substrate-bound, Cyanide-inhibited HmuO, a Bacterial Heme Oxygenase fromCorynebacterium diphtheriae

Solution ¹H NMR Characterization of Equilibrium Heme Orientational Disorder with Functional Consequences in Mouse Neuroglobin

H NMR Detection of Immobilized Water Molecules within a Strong Distal Hydrogen-Bonding Network of Substrate-Bound Human Heme Oxygenase-1

Stereochemical Integrity of Oxazolone Ring‐Containing Jadomycins

Solution ¹H, ¹⁵N NMR Spectroscopic Characterization of Substrate-Bound, Cyanide-Inhibited Human Heme Oxygenase: Water Occupation of the Distal Cavity

Synthetic diversification of natural products: semi-synthesis and evaluation of triazole jadomycins

Synthesis and enzymatic evaluation of ketose phosphonates: the interplay between mutarotation, monofluorination and acidity

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Ray T. Syvitski

Solution NMR Characterization of an Unusual Distal H-bond Network in the Active Site of the Cyanide-inhibited, Human Heme Oxygenase Complex of the Symmetric Substrate, 2,4-Dimethyldeuterohemin

Solution 1H NMR Investigation of the Active Site Molecular and Electronic Structures of Substrate-bound, Cyanide-inhibited HmuO, a Bacterial Heme Oxygenase fromCorynebacterium diphtheriae

Solution 1H NMR Characterization of Equilibrium Heme Orientational Disorder with Functional Consequences in Mouse Neuroglobin

H NMR Detection of Immobilized Water Molecules within a Strong Distal Hydrogen-Bonding Network of Substrate-Bound Human Heme Oxygenase-1

Stereochemical Integrity of Oxazolone Ring‐Containing Jadomycins

Solution 1H, 15N NMR Spectroscopic Characterization of Substrate-Bound, Cyanide-Inhibited Human Heme Oxygenase: Water Occupation of the Distal Cavity

Synthetic diversification of natural products: semi-synthesis and evaluation of triazole jadomycins

Synthesis and enzymatic evaluation of ketose phosphonates: the interplay between mutarotation, monofluorination and acidity

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Product

Resources

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Solution ¹H NMR Characterization of Equilibrium Heme Orientational Disorder with Functional Consequences in Mouse Neuroglobin

Solution ¹H, ¹⁵N NMR Spectroscopic Characterization of Substrate-Bound, Cyanide-Inhibited Human Heme Oxygenase: Water Occupation of the Distal Cavity