Takashi Matsumoto scite author profile

The aryl C-glycoside structure is, among the plenty of biologically active natural products, one of the distinct motifs embedded. Because of the potential bioactivity as well as the synthetic challenges, these structures have attracted considerable interest, and extensive research toward the total synthesis has been performed. This Review focuses on the synthetic strategies and tactics employed in the total synthesis of this class of natural products. The Introduction describes the historical background, structural features, and synthetic problems associated with aryl C-glycoside natural products. Next the Review summarizes the methods for constructing the aryl C-glycoside bonds. Completed total syntheses-and, in some cases, selected examples of incomplete syntheses-of natural aryl C-glycosides are also summarized. Finally described are the strategies for constructing polycyclic structures, which were utilized in the total syntheses.

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Total Synthesis of the Gilvocarcins

Hosoya¹,

Takashiro²,

Matsumoto³

et al. 1994

J. Am. Chem. Soc.

243

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This account describes our synthesis of the gilvocarcin-class aryl C-glycoside antibiotics. Particular attention has been given to the strategies and tactics developed during the study, which include (1) regio-and stereocontrolled aryl C-glycoside formation, and (2) regioselective [4 + 2] cycloaddition of 2-methoxyfuran with a sugar-bearing benzyne. A new method for the efficient generation of benzyne species at low temperature is also discussed.

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Nitrated and Oxidized Products of a Single Tryptophan Residue in Human Cu,Zn-Superoxide Dismutase Treated with Either Peroxynitrite-Carbon Dioxide or Myeloperoxidase-Hydrogen Peroxide-Nitrite

Yamakura

Matsumoto²,

Ikeda³

et al. 2005

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We reported previously that a single tryptophan residue, Trp32, in human Cu,Zn-superoxide dismutase is specifically modified by peroxynitrite-CO2 [Yamakura et al. (2001) Biochim. Biophys. Acta 1548, 38-46]. In this study, we modified Cu,Zn-superoxide dismutase by using a combination of myeloperoxidase, hydrogen peroxide, and nitrite. The modified enzyme showed no loss of copper and zinc, and 15% less enzymatic activity. Trp32 was the only significant amino acid lost. After trypsin digestion of the modified SOD with peroxynitrite-CO2 and the myeloperoxidase system, six newly appearing peptides containing tryptophan derivatives were observed on microLC-ESI-Q-TOF mass analyses and HPLC with a photodiode-array detector. The derivatives of the tryptophan residue exhibiting mass increases of 4, 16 (2 peaks), 32, 45 (major), and 45 Da (minor) were identified as kynurenine, oxindole-3-alanine and its derivatives, dihydroxytryptophan, 6-nitrotryptophan and 5-nitrotryptophan, respectively. We further identified 6-nitrotryptophan from the 1H-NMR spectrum for the pronase-digested product and calculated the yield of 6-nitrotryptophan as being about 30% for each of the modification methods. The tryptophan residue in the modified human Cu,Zn-superoxide dismutase gave the same spectra for the products including 6-nitrotryptophan as the major nitrated product with the two different modification systems.

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On the stereochemistry of aryl C-glycosides: Unusual behavior of bis-TBDPS protected aryl C-olivosides

Hosoya

Ohashi

Matsumoto

et al. 1996

Tetrahedron Letters

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New efficient protocol for aryne generation. Selective synthesis of differentially protected 1,4,5-naphthalenetriols

Matsumoto

Hosoya

Katsuki

et al. 1991

Tetrahedron Letters

131

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