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Nitric Oxide Reduces Aluminum Toxicity by Preventing Oxidative Stress in the Roots of Cassia tora L

2005

Wang, You-Sheng

AGROVOC Keywords
aluminum aluminum analysis antioxidants ascorbic acid bioaccumulation cassia catalase catalase chemistry enzymology fertilizers imidazoles lipid peroxidation lipid peroxidation lipoxygenase metabolism nitric oxide nitric oxide oxidative stress oxidative stress peroxidase peroxidase pharmacology physiology plant physiology reactive oxygen species senna tora soil fertility superoxide dismutase superoxide dismutase toxic substances toxicity
Bibliographic information
Plant & cell physiology
Volume 46 Issue 12 Pagination 1915 - 1923 ISSN 0032-0781
Other Subjects
Linoleate 13s-lipoxygenase; Drug effects; Sodium nitroprusside; Cyclic n-oxides; Plant physiology and biochemistry; Nitroprusside; Growth & development; Plant roots; Histocytochemistry; Root tips; Nitric oxide donors; Enzyme activation; Root growth; Plant biochemistry; And manures
Language
English
Note
2019-12-04
Type
Journal Article; Text
2024-02-28
MODS
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DOI DOI http://dx.doi.org/10.1093/pcp/pci202
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