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Yutaka Ebizuka
Researcher at University of Tokyo
Publications - 234
Citations - 9145
Yutaka Ebizuka is an academic researcher from University of Tokyo. The author has contributed to research in topics: Polyketide synthase & Complementary DNA. The author has an hindex of 53, co-authored 234 publications receiving 8578 citations. Previous affiliations of Yutaka Ebizuka include Musashino University.
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Effects of some phenolics on the prostaglandin synthesizing enzyme system.
Chen-Fang Tseng,Akihiro Mikajiri,Masaaki Shibuya,Yukihiro Goda,Yutaka Ebizuka,Kosasih Padmawinata,Ushio Sankawa +6 more
TL;DR: It has been shown that CaP inhibits cyclooxygenase and stimulates peroxidase in PG biosynthesis, and o__-- and m__--Hydroxycinnamic acids were found to act as "tryptophan-like cofactors" even at a very high concentration where p__--coumaric acid significantly inhibitPG biosynthesis.
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Synergistic action of phenolic signal compounds and carbohydrates in the induction of virulence gene expression of Agrobacterium tumefaciens.
TL;DR: D-glucose, L-rhamnose, D-xylose and D-galacturonic acid, the main components of plant cell wall polysaccharides, remarkedly potentiated the vir-inducing activity of AS, indicating the cooperative action of the signal compounds and sugars in Agrobacteria infection to plants.
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Constituents of Laurus nobilis L. inhibit recombinant human lanosterol synthase
TL;DR: Extracts from 37 kinds of foods and foodstuffs were tested for inhibitory activity against recombinant human lanosterol synthase and eremanthine showed the most potent activity, 70% inhibition, at the concentration of 500 μM.
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Hydroxyacetosyringone is the major virulence gene activating factor in belladonna hairy root cultures, and inositol enhances its activity
TL;DR: In this article, α-Hydroxyacetosyringone (HOAS) and acetosyric acid (AS) were identified as virulence gene inducing compounds of Agrobacterium from the hairy root cultures of belladonna.
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Biosynthesis of sitosterol in tissue cultures of Rabdosia japonica hara and ergosterol in yeast from [2-13C,2-2H3]acetate
Shujiro Seo,Ushio Sankawa,Haruo Seto,Atsuko Uomori,Yohko Yoshimura,Yutaka Ebizuka,Hiroshi Noguchi,Ken'ichi Takeda +7 more
TL;DR: The fate of the hydrogen atoms originating from [2-13C, 2-2-2H3]acetate was investigated in the biosynthesis of sitosterol in cultured cells of Rabdosia japonica Hara and ergosterol and the 1,2-hydride shifts, 20-H from C-17 and 17-H in yeast were verified.