Hiromichi Jin scite author profile

Heme oxygenase (HO) catalyzes heme catabolism through three successive oxygenation steps where the substrate heme itself activates O2. It has been thought that the reactive species responsible for the first heme oxygenation, meso-hydroxylation, is the hydroperoxy-ferric heme intermediate (Fe-OOH) rather than an oxo ferryl porphyrin cation radical, so-called compound I. A recent theoretical study (Kamachi, T.; Yoshizawa, K. J. Am. Chem. Soc. 2005, 127, 10686), however, proposed that compound I can oxidize its meso-carbon atom with the assistance of a bridging water molecule. In this communication, we report the first direct observation of compound I of a heme-HO-1 complex, generated by reaction of ferric-HO-1 with m-chloroperbenzoic acid. HO compound I slowly decays to compound II without producing any meso-hydroxylated products. It does react with guaiacol and thioanisole, however. Our findings unambiguously rule out involvement of compound I in the HO catalysis.

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Alkyl Peroxides Reveal the Ring Opening Mechanism of Verdoheme Catalyzed by Heme Oxygenase

Matsui

Omori

Jin

et al. 2008

J. Am. Chem. Soc.

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Heme oxygenase (HO) catalyzes heme catabolism through three successive oxygenation steps where the substrate heme itself activates O2. Although a rate-determining step of the HO catalysis is considered as third oxygenation, the verdoheme degradation mechanism has been the least understood in the HO catalysis. In order to discriminate three possible pathways proposed for the verdoheme ring-opening, we have examined reactions of the verdoheme-HO-1 complex with alkyl peroxides, namely MeOOH. Under reducing conditions, the MeOOH reaction afforded two novel products whose absorption spectra are similar to but slightly different from that of biliverdin. HPLC, ESI-MS, and NMR analysis show that these products are 1- and 19-methoxy-deoxy-biliverdins. The addition of a methoxy group at one end of the linear tetrapyrrole unambiguously indicates transient formation of the Fe-OOMe intermediate and rearrangement of its terminal methoxy group to the alpha-pyrrole carbon. The corresponding OH transfer of the Fe-OOH species is highly probable in the H2O2-dependent verdoheme degradation and is likely to be the case in the O2-dependent reaction catalyzed by HO as well.

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Synthesis, Structure, and Reactivity of Novel 3,4-Diphosphacyclobutenes Bearing Silyl Groups

et al. 2005

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[reaction: see text] Copper-mediated homocoupling of sterically hindered 2-(2,4,6-tri-tert-butylphenyl)-1-trialkylsilyl-2-phosphaethenyllithiums afforded 1,2-bis(trialkylsilyl)-3,4-diphosphacyclobutenes (1,2-dihydrodiphosphetenes) through a formal electrocyclic [2+2] cyclization in the P=C-C=P skeleton as well as 2-trimethylsilyl-1,4-diphosphabuta-1,3-diene. Reduction of 1,2-bis(trimethylsilyl)-3,4-diphosphacyclobutenes followed by quenching with electrophiles afforded ring-opened products, (E)-1,2-bis(phosphino)-1,2-bis(trimethylsilyl)ethene and (Z)-2,3-bis(trimethylsilyl)-1,4-diphosphabut-1-ene. The structures of the ring-opened products indicated E/Z isomerization around the C=C bond after P-P bond cleavage of 5, and the isomerization of the P-C=C skeleton. Ring opening of 1,2-bis(trimethylsilyl)-3,4-diphosphacyclobutenes affording (E,E)- and (Z,Z)-1,4-diphosphabuta-1,3-dienes was observed upon desilylation.

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Preparation and X-ray analyses of siloxane-bridged acyclic and 8-membered cyclic phosphaethenes

Ito

Jin

Yoshifuji

2007

Journal of Organometallic Chemistry

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Hiromichi Jin

Compound I of Heme Oxygenase Cannot Hydroxylate Its Heme meso-Carbon

Alkyl Peroxides Reveal the Ring Opening Mechanism of Verdoheme Catalyzed by Heme Oxygenase

Synthesis, Structure, and Reactivity of Novel 3,4-Diphosphacyclobutenes Bearing Silyl Groups

Preparation and X-ray analyses of siloxane-bridged acyclic and 8-membered cyclic phosphaethenes

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