Import and Implications of Vanadium in Live Aspects
In Earth’s regions accessible for living organisms (Earth’s crust, crude oil, water sanctuaries and lower atmosphere), vanadium is present in the oxidation states +III and—essentially—+IV (cationic) and +V (cationic and anionic), with the redox interchange and biochemical recycling often monitored b...
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MDPI AG
2023-06-01
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Series: | Inorganics |
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Online Access: | https://www.mdpi.com/2304-6740/11/6/256 |
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author | Dieter Rehder |
author_facet | Dieter Rehder |
author_sort | Dieter Rehder |
collection | DOAJ |
description | In Earth’s regions accessible for living organisms (Earth’s crust, crude oil, water sanctuaries and lower atmosphere), vanadium is present in the oxidation states +III and—essentially—+IV (cationic) and +V (cationic and anionic), with the redox interchange and biochemical recycling often monitored by bacteria. Organisms having available vanadium-containing (bio)molecules with essential functions for life include marine brown algae (haloperoxidases), ascidians and fan worms, as well as terrestrial organisms, viz., nitrogen-fixing bacteria (associated with the roots of legumes), and the fly agaric mushroom. The hypohalite generated by the algal haloperoxidases in turn is involved in the emission of bromoform into the atmosphere. Nitrogen fixation (N<sub>2</sub> ε NH<sub>4</sub><sup>+</sup>) is a process of immanent importance for life on our planet. Other bacterial issues include the reduction of vanadate to VO<sup>2+</sup>. Medicinal applications of vanadium coordination compounds are directed towards the treatment of diabetes mellitus (vanadium complexes with hypoglycemic activity) and cancer—although boundaries are set due to side effects such as oxidative damage elicited by vanadium-induced hyperoxide formation. Physiological actions of vanadium are often invoked due to the structural and physiological similarity between vanadate and phosphate. An additional field of medicinal applications addresses the treatment of cancer, such as leukaemia, malignant melanoma and bone cancer. |
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institution | Directory Open Access Journal |
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language | English |
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series | Inorganics |
spelling | doaj.art-82f61f17ce6141b0b68efd8cec27b0e52023-11-18T10:55:25ZengMDPI AGInorganics2304-67402023-06-0111625610.3390/inorganics11060256Import and Implications of Vanadium in Live AspectsDieter Rehder0Chemistry Department, University of Hamburg, D-20146 Hamburg, GermanyIn Earth’s regions accessible for living organisms (Earth’s crust, crude oil, water sanctuaries and lower atmosphere), vanadium is present in the oxidation states +III and—essentially—+IV (cationic) and +V (cationic and anionic), with the redox interchange and biochemical recycling often monitored by bacteria. Organisms having available vanadium-containing (bio)molecules with essential functions for life include marine brown algae (haloperoxidases), ascidians and fan worms, as well as terrestrial organisms, viz., nitrogen-fixing bacteria (associated with the roots of legumes), and the fly agaric mushroom. The hypohalite generated by the algal haloperoxidases in turn is involved in the emission of bromoform into the atmosphere. Nitrogen fixation (N<sub>2</sub> ε NH<sub>4</sub><sup>+</sup>) is a process of immanent importance for life on our planet. Other bacterial issues include the reduction of vanadate to VO<sup>2+</sup>. Medicinal applications of vanadium coordination compounds are directed towards the treatment of diabetes mellitus (vanadium complexes with hypoglycemic activity) and cancer—although boundaries are set due to side effects such as oxidative damage elicited by vanadium-induced hyperoxide formation. Physiological actions of vanadium are often invoked due to the structural and physiological similarity between vanadate and phosphate. An additional field of medicinal applications addresses the treatment of cancer, such as leukaemia, malignant melanoma and bone cancer.https://www.mdpi.com/2304-6740/11/6/256halide oxidationdinitrogen reductionmarine organismsvanadate–phosphate antagonismdiabetescancer |
spellingShingle | Dieter Rehder Import and Implications of Vanadium in Live Aspects Inorganics halide oxidation dinitrogen reduction marine organisms vanadate–phosphate antagonism diabetes cancer |
title | Import and Implications of Vanadium in Live Aspects |
title_full | Import and Implications of Vanadium in Live Aspects |
title_fullStr | Import and Implications of Vanadium in Live Aspects |
title_full_unstemmed | Import and Implications of Vanadium in Live Aspects |
title_short | Import and Implications of Vanadium in Live Aspects |
title_sort | import and implications of vanadium in live aspects |
topic | halide oxidation dinitrogen reduction marine organisms vanadate–phosphate antagonism diabetes cancer |
url | https://www.mdpi.com/2304-6740/11/6/256 |
work_keys_str_mv | AT dieterrehder importandimplicationsofvanadiuminliveaspects |