Kenji Yagi scite author profile

Reflecting the importance of fluorinated organic compounds in medicinal chemistry, development of an efficient method for catalytic enantioselective fluorination is increasingly desirable. Using a novel palladium complex 2 (1-2.5 mol %), various beta-ketoesters including cyclic and acyclic substrates were fluorinated with excellent enantioselectivity in the range of 83-94% ee. It is environmentally advantageous that this reaction proceeds well in solvents such as EtOH, rather than usual organic solvents. Furthermore, the product was successfully tranformed into both alpha-fluoro beta-hydroxy and beta-amino acid derivatives, which should be extremely useful in developing novel drugs.

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Biosynthesis of macrophomic acid: plausible involvement of intermolecular Diels–Alder reaction

Oikawa¹,

Yagi²,

Watanabe³

et al. 1997

Chem. Commun.

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Macrophomate synthase: unusual enzyme catalyzing multiple reactions from pyrones to benzoates

Oikawa

Watanabe

Yagi

et al. 1999

Tetrahedron Letters

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Proposal of mechanically jointed superconducting magnet using high critical temperature superconductors

Hashizume

Yagi

Kitajima

2002

Fusion Engineering and Design

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Macrophomate Synthase: Characterization, Sequence, and Expression in Escherichia coli of the Novel Enzyme Catalyzing Unusual Multistep Transformation of 2-Pyrones to Benzoates

Watanabe

Oikawa

Yagi

et al. 2000

Journal of Biochemistry

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Macrophoma commelinae isolated from spots on leaves of Commelina communis has the ability to transform 5-acetyl-4-methoxy-6-methyl-2-pyrone (1) to 4-acetyl-3-methoxy-5-methylbenzoic acid (macrophomic acid, 2). This biotransformation includes the condensation of the 2-pyrone ring with a C3-unit precursor to form a substituted benzoic acid. We optimized conditions for induction of enzyme activity in M. commelinae, identified oxalacetate as a C3-unit precursor with cell extract, and purified the novel enzyme, macrophomate synthase. Oxalacetate inhibited the enzyme activity at a concentration higher than 5 mM, and magnesium chloride stimulated the enzyme activity. Kinetic analyses gave K(m) of 1.7 mM for 1 at 5 mM oxalacetate, K(m) of 1.2 mM for oxalacetate at 5 mM 1, and k(cat) of 0.46 s(-1) per subunit. Pyruvate was a weak substrate, with K(m) of 35.2 mM and k(cat) of 0.027 s(-1) at 5 mM 1. We cloned and sequenced a cDNA encoding the macrophomate synthase. The cDNA of 1,225 bp contained an open reading frame that encoded a polypeptide of 339 amino acid residues and 36,244 Da, the sequence of which showed no significant similarity with known proteins in a homology search with BLAST programs. Transformed E. coli cells carrying the cDNA encoding the mature protein of macrophomate synthase overproduced macrophomate synthase under the control of the T7 phage promoter induced by IPTG. The purified enzyme showed the same values of K(m) and optimum pH as the native macrophomate synthase.

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Kenji Yagi

An Efficient Enantioselective Fluorination of Various β-Ketoesters Catalyzed by Chiral Palladium Complexes

Biosynthesis of macrophomic acid: plausible involvement of intermolecular Diels–Alder reaction

Macrophomate synthase: unusual enzyme catalyzing multiple reactions from pyrones to benzoates

Proposal of mechanically jointed superconducting magnet using high critical temperature superconductors

Macrophomate Synthase: Characterization, Sequence, and Expression in Escherichia coli of the Novel Enzyme Catalyzing Unusual Multistep Transformation of 2-Pyrones to Benzoates

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