Arsenic toxicity: The effects on plant metabolism
Patrick M. Finnegan,Weihua Chen +1 more
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TLDR
The two forms of inorganic arsenic, arsenate (AsV) and arsenite (AsIII), are easily taken up by the cells of the plant root Once in the cell, AsV can be readily converted to AsIII, the more toxic of the two forms AsV and AsIII both disrupt plant metabolism, but through distinct mechanisms as mentioned in this paper.Abstract:
The two forms of inorganic arsenic, arsenate (AsV) and arsenite (AsIII), are easily taken up by the cells of the plant root Once in the cell, AsV can be readily converted to AsIII, the more toxic of the two forms AsV and AsIII both disrupt plant metabolism, but through distinct mechanisms AsV is a chemical analog of phosphate that can disrupt at least some phosphate-dependent aspects of metabolism AsV can be translocated across cellular membranes by phosphate transport proteins, leading to imbalances in phosphate supply It can compete with phosphate during phosphorylation reactions, leading to the formation of AsV adducts that are often unstable and short-lived As an example, the formation and rapid autohydrolysis of AsV-ADP sets in place a futile cycle that uncouples photophosphorylation and oxidative phosphorylation, decreasing the ability of cells to produce ATP and carry out normal metabolism AsIII is a dithiol reactive compound that binds to and potentially inactivates enzymes containing closely spaced cysteine residues or dithiol co-factors Arsenic exposure generally induces the production of reactive oxygen species that can lead to the production of antioxidant metabolites and numerous enzymes involved in antioxidant defense Oxidative carbon metabolism, amino acid and protein relationships, and nitrogen and sulfur assimilation pathways are also impacted by As exposure Readjustment of several metabolic pathways, such as glutathione production, has been shown to lead to increased arsenic tolerance in plants Species- and cultivar-dependent variation in arsenic sensitivity and the remodeling of metabolite pools that occurs in response to As exposure gives hope that additional metabolic pathways associated with As tolerance will be identifiedread more
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Antioxidant enzymes responses in shoots of arsenic hyperaccumulator, Isatis cappadocica Desv., under interaction of arsenate and phosphate
TL;DR: High arsenate treatment could cause an increasing oxidative stress, which can be scavenged by the antioxidant enzyme, and high phosphate treatments had a positive effect on GR activity, which may be due to regulation of glutathione biosynthesis within the plants.
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Oryza sativa class III peroxidase (OsPRX38) overexpression in Arabidopsis thaliana reduces arsenic accumulation due to apoplastic lignification.
Maria Kidwai,Yogeshwar Vikram Dhar,Neelam Gautam,Madhu Tiwari,Iffat Zareen Ahmad,Mehar Hasan Asif,Debasis Chakrabarty,Debasis Chakrabarty +7 more
TL;DR: The study suggests that overexpression of OsPRX38 in Arabidopsis thaliana activates the signaling network of different antioxidant systems under As stress condition, enhancing the plant tolerance by reducing As accumulation due to high lignification.
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Phytoremediation of arsenic from the contaminated soil using transgenic tobacco plants expressing ACR2 gene of Arabidopsis thaliana.
TL;DR: It is demonstrated that Arabidopsis thaliana AtACR2 gene is a potential candidate for genetic engineering of plants to develop new crop cultivars that can be grown on arsenic contaminated fields to reduce arsenic content of the soil and can become a source of food containing no arsenic or exhibiting substantially reduced amount of this metalloid.
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Contamination, sources and risk assessments of metals in media from Anka artisanal gold mining area, Northwest Nigeria.
TL;DR: High carcinogenic and non-carcinogenic health risks are associated with metals in media from this area and further epidemiological studies should be carried to know the extent of occurrence of diseases associated with mining in the area.
References
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Journal ArticleDOI
A review of the source, behaviour and distribution of arsenic in natural waters
TL;DR: The scale of the problem in terms of population exposed to high As concentrations is greatest in the Bengal Basin with more than 40 million people drinking water containing ‘excessive’ As as mentioned in this paper.
Journal ArticleDOI
Ascorbate and glutathione: the heart of the redox hub.
Christine H. Foyer,Graham Noctor +1 more
TL;DR: The discovery that there is a close relationship between ascorbate and glutathione dates from soon after the characterization of the chemical formulae of the two molecules.
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A fern that hyperaccumulates arsenic
TL;DR: A hardy, versatile, fast-growing plant that helps to remove arsenic from contaminated soils.
Journal ArticleDOI
Oxidative Modifications to Cellular Components in Plants
TL;DR: The fate of the modified components, the energetic costs to the cell of replacing such components, as well as strategies to minimize transfer of oxidatively damaged components to the next generation are considered.