Hideo Kakuta scite author profile

Hideo Kakuta

4Publications

102Citation Statements Received

52Citation Statements Given

How they've been cited

173

How they cite others

Affiliations

Keio University, Institute of Applied Biochemistry, University of Tsukuba

Publications

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Antioxidation Capacities of Extracts from Green, Purple, and White Asparagus Spears Related to Polyphenol Concentration

Maeda¹,

Kakuta²,

Sonoda³

et al. 2005

HortSci

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The antioxidation capacities of green `Welcome', green and white `Gijnlim', and purple `Purple passion' asparagus spears were evaluated. Analyses of rutin and total polyphenols, and assays of DPPH radical absorbing and low-density lipoprotein (LDL) antioxidation were conducted. Varietal differences associated with the colors of spears were observed both in the amounts of rutin, total polyphenols and in DPPH radical absorbing activities, although not in LDL antioxidation activities. DPPH radical absorbing activities seemed to be affected by both rutin and other polyphenolic compounds. However, LDL antioxidation activities were likely to be influenced more by other polyphenolic compounds than by rutin. Total polyphenol content showed a fairly close relationship with rutin content, DPPH radical absorbing activity and LDL antioxidation activity. To determinate total polyphenol content using the Folin–Denis' method seemed to be useful for selecting the breeding lines that show high antioxidative capacities.

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Production of Recombinant Miraculin Using Transgenic Tomatoes in a Closed Cultivation System

Hirai¹,

Fukukawa²,

Kakuta³

et al. 2010

J. Agric. Food Chem.

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We constructed a cultivation system with a controlled light period, light intensity, temperature, and CO(2) concentration for mass production of the taste-modifying protein miraculin from transgenic tomatoes. The tomato plants exhibited normal growth and produced over 270 g of fresh weight (FW) fruit per plant, with the recombinant miraculin concentration reaching up to 90 microg per g FW of tomatoes. The recombinant miraculin content of transgenic tomatoes was compared to that of plants grown in a netted greenhouse. The recombinant miraculin content of transgenic tomatoes grown in a closed cultivation system was more stable than that of tomatoes grown in a netted greenhouse, suggesting that the closed cultivation system is suitable for the production of recombinant miraculin. We estimate that 45 tFW of tomatoes and 4 kg of recombinant miraculin per 1,000 m(2) of cultivation area can be harvested per year.

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Ent-kaurenic Acid and Its Related Compounds from Glandular Trichome Exudate and Leaf Extracts ofPolymnia sonchifolia

Kakuta¹,

Seki²,

Hashidoko³

et al. 1992

Bioscience, Biotechnology, and Biochemistry

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Light-induced auxin-inhibiting substance from sunflower seedlings

et al. 1997

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Hideo Kakuta

Antioxidation Capacities of Extracts from Green, Purple, and White Asparagus Spears Related to Polyphenol Concentration

Production of Recombinant Miraculin Using Transgenic Tomatoes in a Closed Cultivation System

Ent-kaurenic Acid and Its Related Compounds from Glandular Trichome Exudate and Leaf Extracts ofPolymnia sonchifolia

Light-induced auxin-inhibiting substance from sunflower seedlings

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