Masashi Fukaya scite author profile

Functional regulation of myoglobin (Mb) is thought to be achieved through the heme environment furnished by nearby amino acid residues, and subtle tuning of the intrinsic heme Fe reactivity. We have performed substitution of strongly electron-withdrawing perfluoromethyl (CF(3)) group(s) as heme side chain(s) of Mb to obtain large alterations of the heme electronic structure in order to elucidate the relationship between the O(2) affinity of Mb and the electronic properties of heme peripheral side chains. We have utilized the equilibrium constant (pK(a)) of the "acid-alkaline transition" in metmyoglobin in order to quantitatively assess the effects of the CF(3) substitutions for the electron density of heme Fe atom (rho(Fe)) of the protein. The pK(a) value of the protein was found to decrease by approximately 1 pH unit upon the introduction of one CF(3) group, and the decrease in the pK(a) value with decreasing the rho(Fe) value was confirmed by density functional theory calculations on some model compounds. The O(2) affinity of Mb was found to correlate well with the pK(a) value in such a manner that the P(50) value, which is the partial pressure of O(2) required to achieve 50% oxygenation, increases by a factor of 2.7 with a decrease of 1 pK(a) unit. Kinetic studies on the proteins revealed that the decrease in O(2) affinity upon the introduction of an electron-withdrawing CF(3) group is due to an increase in the O(2) dissociation rate. Since the introduction of a CF(3) group substitution is thought to prevent further Fe(2+)-O(2) bond polarization and hence formation of a putative Fe(3+)-O(2)(-)-like species of the oxy form of the protein [Maxwell, J. C.; Volpe, J. A.; Barlow, C. H.; Caughey, W. S. Biochem. Biophys. Res. Commun. 1974, 58, 166-171], the O(2) dissociation is expected to be enhanced by the substitution of electron-withdrawing groups as heme side chains. We also found that, in sharp contrast to the case of the O(2) binding to the protein, the CO association and dissociation rates are essentially independent of the rho(Fe) value. As a result, the introduction of electron-withdrawing group(s) enhances the preferential binding of CO to the protein over that of O(2). These findings not only resolve the long-standing issue of the mechanism underlying the subtle tuning of the intrinsic heme Fe reactivity, but also provide new insights into the structure-function relationship of the protein.

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Structural characterization of a carbon monoxide adduct of a heme–DNA complex

Saito

Tai

Fukaya

et al. 2011

J Biol Inorg Chem

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The structure of a carbon monoxide (CO) adduct of a complex between heme and a parallel G-quadruplex DNA formed from a single repeat sequence of the human telomere, d(TTAGGG), has been characterized using ¹H and ¹³C NMR spectroscopy and density function theory calculations. The study revealed that the heme binds to the 3'-terminal G-quartet of the DNA though a π-π stacking interaction between the porphyrin moiety of the heme and the G-quartet. The π-π stacking interaction between the pseudo-C₂-symmetric heme and the C₄-symmetric G-quartet in the complex resulted in the formation of two isomers possessing heme orientations differing by 180° rotation about the pseudo-C₂ axis with respect to the DNA. These two slowly interconverting heme orientational isomers were formed in a ratio of approximately 1:1, reflecting that their thermodynamic stabilities are identical. Exogenous CO is coordinated to heme Fe on the side of the heme opposite the G-quartet in the complex, and the nature of the Fe-CO bond in the complex is similar to that of the Fe-CO bonds in hemoproteins. These findings provide novel insights for the design of novel DNA enzymes possessing metalloporphyrins as prosthetic groups.

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Rare Sulfur-Containing Compounds, Kujounins A₁ and A₂ and Allium Sulfoxide A₁, from Allium fistulosum ‘Kujou’

et al. 2017

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Three sulfur-containing compounds, kujounins A (1) and A (2) and allium sulfoxide A (3), were isolated from the acetone extract of Allium fistulosum 'Kujou'. Their chemical structures were elucidated on the basis of physicochemical evidence, including X-ray crystallographic data. Compounds 1 and 2 possess three rings and an acetal structure and were obtained as complex compounds having disulfide and monosaccharide moieties. On the other hand, compound 3 has a thiolane skeleton derived from allicin. Naturally occurring compounds 1-3 have rare molecular skeletons. This study is the first to determine the absolute configuration of thiolane-type compounds.

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Chemical structures of constituents from the flowers of Osmanthus fragrans var. aurantiacus

Liu

Nakamura

et al. 2014

J Nat Med

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Three new megastigmane glycosides named floraosmanosides I-III and a new γ-decalactone named floraosmanolactone I together with 16 known constituents were isolated from the flowers of Osmanthus fragrans var. aurantiacus cultivated in Guangxi Zhuang Autonomous Region, China. The chemical structures of the new compounds were elucidated on the basis of chemical and physicochemical evidence. Among them, ligustroside and (+)-pinoresinol significantly inhibited nitric oxide production in lipopolysaccharide-activated RAW264.7 macrophages.

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Acylated oleanane-type triterpene oligoglycosides from the flower buds of Camellia sinensis var. assamica

et al. 2015

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Masashi Fukaya

Effect of Heme Modification on Oxygen Affinity of Myoglobin and Equilibrium of the Acid−Alkaline Transition in Metmyoglobin

Structural characterization of a carbon monoxide adduct of a heme–DNA complex

Rare Sulfur-Containing Compounds, Kujounins A₁ and A₂ and Allium Sulfoxide A₁, from Allium fistulosum ‘Kujou’

Chemical structures of constituents from the flowers of Osmanthus fragrans var. aurantiacus

Acylated oleanane-type triterpene oligoglycosides from the flower buds of Camellia sinensis var. assamica

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Masashi Fukaya

Effect of Heme Modification on Oxygen Affinity of Myoglobin and Equilibrium of the Acid−Alkaline Transition in Metmyoglobin

Structural characterization of a carbon monoxide adduct of a heme–DNA complex

Rare Sulfur-Containing Compounds, Kujounins A1 and A2 and Allium Sulfoxide A1, from Allium fistulosum ‘Kujou’

Chemical structures of constituents from the flowers of Osmanthus fragrans var. aurantiacus

Acylated oleanane-type triterpene oligoglycosides from the flower buds of Camellia sinensis var. assamica

Contact Info

Product

Resources

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Rare Sulfur-Containing Compounds, Kujounins A₁ and A₂ and Allium Sulfoxide A₁, from Allium fistulosum ‘Kujou’