H. Yagi scite author profile

H. Yagi

5Publications

52Citation Statements Received

7Citation Statements Given

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104

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Affiliations

New Japan Chemical (Japan), Central Research Laboratories (United Kingdom), Fujisawa City Hospital

Publications

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Electrochemistry of natural products. II. Electrolytic oxidation of some simple 1,2,3,4-tetrahydroisoquinoline phenols

Bobbitt¹,

Yagi²,

Shibuya³

et al. 1971

J. Org. Chem.

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A series of derivatives of 1,2,3,4-tetrahydroisoquinoline has been oxidized electrolytically. Those containing phenol groups were dimerized to yield carbon-carbon dimers and carbon-oxygen-carbon dimers. Some of the variables such as the nature of the anode, the cell design, the solvent, the pH, and the reaction time were considered. The optimum conditions for the coupling of these phenols would seem to be oxidation of their sodium salts in CHsCN using tetraethylammonium perchlorate as supporting electrolyte and a graphite felt anode.The results of a number of experiments are presented. The products of the reactions depend strongly upon the relative location of the phenol group in the aromatic ring and the nitrogen in the heterocyclic ring. An explanation for this phenomenon is proposed.We have been interested in the electrolytic oxidations of phenolic tetrahydroisoquinolines8 as model compounds for some of the more important biosynthetic oxidation reactions. In the previous paper of this series,1 we studied the ratio of C-C dimers to C-O-C dimers as a function of the steric hindrance around the incipient bond between the isoquinolines. In this paper, we would like to present a more general and random study of some simple compounds.The compounds oxidized fell into several groups.Compounds 1-3 were nonphenolic and were examined to see how easily the various forms of the nitrogen ring were oxidized. Three oxygenation patterns were examined for the phenols themselves. The pattern in 4-6 is the most common one in nature.4 5The isomeric patterns in 7 and 8 and in 9 and 10 were chosen for comparison. Three possible nitrogen functions, 4-6, were studied for the natural system, and two were studied for the others. Compound 4, the alkaloid, corypalline,6 has been the starting point of several of our investiga-tions6 (Scheme I).Reaction Conditions. The Working Electrode. -The oxidation of 4 was studied in a two-compartment cell in aqueous systems with five different working electrodes. The results are given in Table I. The best yields at the lowest voltages were given on the Hg pool and graphite anodes. However, Hg failed to yield any product with the other phenols and was, itself, attacked in CH3CN solutions. Graphite felt was chosen as the anode for most of our work because of its high surface area and its low cost.Cell Design.-Two different cell designs were used. One was a two-compartment system and has been described.615 The other was a simple one-compartment system as described in the Experimental Section. Both worked well. However, when limited amounts of base were used, the base tended to concentrate in the cathode chamber of a two-compartment system and change the (1) (a) Paper I:

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Phenolic cyclisation. Part I. Novel synthesis of 1-substituted isoquinoline and spiro[cycloalkane-1,1′-isoquinoline] derivatives and its application to the total synthesis of isoquinoline alkaloids

Kametani¹,

Fukumoto²,

Agui³

et al. 1968

J. Chem. Soc. C

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Synthesis and stereochemistry of 1,2,3,4-tetrahydro-6-methoxy-2-methyl-1-phenylisoquinoline and related compounds

Kametani¹,

Sugi²,

Yagi³

et al. 1970

J. Chem. Soc., C

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Electrochemistry of natural products. IV. Electrochemical and chemical oxidative dimerization of 1,2-dimethyl-7-hydroxy-6-methoxy-1,2,3,4-tetrahydroisoquinoline

Bobbitt¹,

Noguchi²,

Yagi³

et al. 1976

J. Org. Chem.

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Total syntheses of (±)-glaziovine and (±)-pronuciferine by phenolic oxidative coupling

Kametani¹,

Yagi²

1967

J. Chem. Soc. C

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Phenolic oxidative coupling of (i)-N-methylcoclaurine with potassium ferricyanide afforded (h) -glaziovine (111). whose methylation with diazomethane gave (*) -pronuciferine (VI). A very interesting dimeric compound (VIII) was also obtained.IT has been appreciated for many years that aporphine alkaloids could occur in Nature by phenolic oxidative coupling. Considering the biogenesis of roemerine (I) as an apparently abnormal alkaloid, Barton and Cohen proposed that the precursor, N-methylcoclaurine (11) , 7 Preliminary Communication, T.

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H. Yagi

Electrochemistry of natural products. II. Electrolytic oxidation of some simple 1,2,3,4-tetrahydroisoquinoline phenols

Phenolic cyclisation. Part I. Novel synthesis of 1-substituted isoquinoline and spiro[cycloalkane-1,1′-isoquinoline] derivatives and its application to the total synthesis of isoquinoline alkaloids

Synthesis and stereochemistry of 1,2,3,4-tetrahydro-6-methoxy-2-methyl-1-phenylisoquinoline and related compounds

Electrochemistry of natural products. IV. Electrochemical and chemical oxidative dimerization of 1,2-dimethyl-7-hydroxy-6-methoxy-1,2,3,4-tetrahydroisoquinoline

Total syntheses of (±)-glaziovine and (±)-pronuciferine by phenolic oxidative coupling

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