Results 301 to 310 of about 412,357 (324)
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1996
Abstract The superoxide anion radical (02) is considered to be a highly toxic entity in many biological systems (1–4). It is formed in normal metabolism as well as through the action of many drugs, poisons, and radiation (1–4). It is also involved in radiation damage, DNA damage, phagocytosis, ageing, cancer, etc.
Sara Goldstein, Gidon Czapski
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Abstract The superoxide anion radical (02) is considered to be a highly toxic entity in many biological systems (1–4). It is formed in normal metabolism as well as through the action of many drugs, poisons, and radiation (1–4). It is also involved in radiation damage, DNA damage, phagocytosis, ageing, cancer, etc.
Sara Goldstein, Gidon Czapski
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Ciba Foundation symposium, 1981
Superoxide dismutases (EC 1.15.1.1) are metalloenzymes that catalytically scavenge the superoxide radical. They are essential for the aerobic survival of all forms of life. There are three types of superoxide dismutase, containing manganese, iron, or copper and zinc. The copper--zinc type has generally been isolated from eukaryotic cells except for the
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Superoxide dismutases (EC 1.15.1.1) are metalloenzymes that catalytically scavenge the superoxide radical. They are essential for the aerobic survival of all forms of life. There are three types of superoxide dismutase, containing manganese, iron, or copper and zinc. The copper--zinc type has generally been isolated from eukaryotic cells except for the
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International Journal of Radiation Biology and Related Studies in Physics, Chemistry and Medicine, 1983
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