Protection by Trehalose of DNA from Radiation Damage
スポンサーリンク
概要
- 論文の詳細を見る
The most serious damage to cells exposed to radiation is attributed mostly to effects on the structure of cellular DNA. We found that trehalose protects DNA from irradiation. In the presence of 10 mM trehalose, DNA can be protected from about 4 timed higher doses of β-and y-ray irradiation. The protective effect increases with the amount of the sugar. Other disaccharides, sucrose, and maltose had similar effects.
- 社団法人日本農芸化学会の論文
- 1997-01-23
著者
-
Hasegawa Kunihiko
Department Of System Engineering Of Materials And Life Science Faculty Of Engineering Toyama Univers
-
Yoshioka Hiroe
Department Of Chemistry Faculty Of Science And Radiochemistry Research Laboratory Shizuoka Universit
-
Uritani Masahiro
Department Of Chemistry Faculty Of Science And Radiochemistry Research Laboratory Shizuoka Universit
-
Yoshinaga Koichi
Department of Chemistry, Faculty of Science and Radiochemistry Research Laboratory, Shizuoka Univers
-
Kurosaki Hiromu
Department of Chemistry, Faculty of Science and Radiochemistry Research Laboratory, Shizuoka Univers
-
Hirasawa Miyuki
Department of Chemistry, Faculty of Science and Radiochemistry Research Laboratory, Shizuoka Univers
-
YOSHINAGA Kouichi
Department of Chemistry, Faculty of Science, Shizuoka University
-
Yoshinaga K
Shizuoka Univ. Shizuoka‐shi Jpn
-
Yoshinaga Koichi
Department Of Chemistry Faculty Of Science Shizuoka University
-
Kurosaki Hiromu
Department Of Chemistry Faculty Of Science And Radiochemistry Research Laboratory Shizuoka Universit
-
Hirasawa Miyuki
Department Of Chemistry Faculty Of Science And Radiochemistry Research Laboratory Shizuoka Universit
-
Hasegawa Kunihiko
Department Of Chemistry Faculty Of Science And Radiochemistry Research Laboratory Shizuoka Universit
関連論文
- Involvement of a CCAAT-binding Complex in the Expression of a Nitrogen-Starvation-Specific Gene, isp6^+, in Schizosaccharomyces pombe(Biochemistry & Molecular Biology)
- Genes for a Nuclease and a Protease Are Involved in the Drastic Decrease in Cellular RNA Amount in Fission Yeast Cells during Nitrogen Starvation
- Activation of the 20S Proteasome of Xenopus Oocytes by Cardiolipin : Blockage of the Activation of Trypsin-like Activity by the Substrate
- Beta Ray-induced Scission of DNA in Tritiated Water and Protection by a Green Tea Percolate and (-)-Epigallocatechin Gallate
- Protecting Effect of a Green Tea Percolate and Its Main Constituents against Gamma Ray-induced Scission of DNA
- Experimental Investigation of the Electrochemically Induced Nuclear Fusion
- On a Mechanism of the Electrochemically Induced Nuclear Fusion II
- Detection and Analysis of Translation Elongation Factor 3 Genes from Various Yeasts
- Protection by Trehalose of DNA from Radiation Damage
- DNA Damage by Low Concentration of Hydrogen Peroxide(Biological Chemistry)
- Counting Effeciencies of Neutrons from ^252Cf by a Neutron Survey Meter and a Scintillation Probe
- Solid-state Spin Trapping of the Hydroxyl Radical Formed by Gamma-irradiation in Ice and the Scavenging Effect of Sodium L-Ascorbate
- Protective Effect of Disaccharides on Restriction Endonucleases during Drying under Vacuum
- Characterization of a Temperature-sensitive Escherichia coli RNA Polymerase with an Altered β' Subunit
- Rapid Preparation of Plasmid by Gel Permeation Chromatography on Toyopearl HW75S
- Genes for a Nuclease and a Protease Are Involved in the Drastic Decrease in Cellular RNA Amount in Fission Yeast Cells during Nitrogen Starvation.