Kazue Ohgami scite author profile

Kazue Ohgami

2Publications

12Citation Statements Received

64Citation Statements Given

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Kobe Women's University

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Isolation and characterization of DNA topoisomerase II from cauliflower inflorescences

1986

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Type II DNA topoisomerase has been isolated from inflorescences of cauliflower (Brassica oleracea var. botrytis) through a sequence of polyethylene glycol fractionation, ammonium sulfate precipitation, and column chromatography on CM-Sephadex, hydroxyapatite and phosphocellulose. The molecular weight of the native enzyme, based on sedimentation coefficient (9S) and gel filtration analysis (Stokes radius, 60 Å), was estimated to be 223 000. This enzyme was able to catalyze fully the relaxation of supercoiled DNA by breaking and then rejoining the double-stranded DNA. The breaking reaction was reversible by a change in salt concentrations. When an antitumor drug, 4'-(9-acridinylamino)-methanesulfon-m-anisidide, was added to the topoisomerase reaction, DNA cleavage fragments were accumulated; and this suggested that the drug interfered with the reaction at the rejoining step. This enzyme also catalyzed the formation of DNA catenanes in the presence of 8% polyethylene glycol or histone H1, while few catenanes were formed in the presence of spermidine, which was highly effective on a bacterial enzyme.

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Assembly of nucleosome-like structures mediated by cauliflower DNA topoisomerase

1989

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Nucleosome-like structures have been efficiently assembled in vitro by interaction of cauliflower histones, pBR322 DNA and cauliflower DNA topoisomerase, as assayed by supercoiling of relaxed circular DNA and by digestion with micrococcal nuclease. The optimum ionic strength for supercoiling was 150 mM KCl and the optimum weight ratio of histone to DNA was approximately 1.0. Four histones, H2A, H2B, H3 and H4, were necessary for the optimum assembling conditions, and the nucleosomes assembled protected DNA fragments of approximately 150 bp in length. It was found that cauliflower DNA topoisomerase acts not only as a DNA-relaxing enzyme but also as a chaperon factor for nucleosome assembly.

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Kazue Ohgami

Isolation and characterization of DNA topoisomerase II from cauliflower inflorescences

Assembly of nucleosome-like structures mediated by cauliflower DNA topoisomerase

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