Overexpression of ATP sulfurylase in indian mustard leads to increased selenate uptake, reduction, and tolerance
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Production of Se-methylselenocysteine in transgenic plants expressing selenocysteine methyltransferasePotential Biotechnological Strategies for the Cleanup of Heavy Metals and MetalloidsHeavy Metal Tolerance in Plants: Role of Transcriptomics, Proteomics, Metabolomics, and IonomicsSelenium assimilation and volatilization from dimethylselenoniopropionate by Indian mustardVariation in sulfur and selenium accumulation is controlled by naturally occurring isoforms of the key sulfur assimilation enzyme ADENOSINE 5'-PHOSPHOSULFATE REDUCTASE2 across the Arabidopsis species rangeThe contribution of transgenic plants to better health through improved nutrition: opportunities and constraintsSelenium accumulation by plants.Cell-specific measurement of cytosolic glutathione in poplar leaves.Characterization of a selenate-resistant Arabidopsis mutant. Root growth as a potential target for selenate toxicity.Agrobacterium-mediated gene transfer in plants and biosafety considerations.Chemical forms of selenium in the metal-resistant bacterium Ralstonia metallidurans CH34 exposed to selenite and selenateTranscriptome sequencing of transgenic poplar (Populus × euramericana 'Guariento') expressing multiple resistance genes.Possible molecular mechanisms involved in nickel, zinc and selenium hyperaccumulation in plants.Cadmium tolerance and accumulation in Indian mustard is enhanced by overexpressing gamma-glutamylcysteine synthetase.Heavy metal tolerance and accumulation in Indian mustard (Brassica juncea L.) expressing bacterial gamma-glutamylcysteine synthetase or glutathione synthetase.Exploring the importance of sulfate transporters and ATP sulphurylases for selenium hyperaccumulation-a comparison of Stanleya pinnata and Brassica juncea (Brassicaceae)Effects of selenium biofortification on crop nutritional quality.Effects of selenium accumulation on reproductive functions in Brassica juncea and Stanleya pinnata.Sulfate metabolism.Prioritization of copper for the use in photosynthetic electron transport in developing leaves of hybrid poplar.Chloroplast iron-sulfur cluster protein maturation requires the essential cysteine desulfurase CpNifSMetal phytoextraction--a survey of potential risks.Biofortification of UK food crops with selenium.Sulfur metabolism in plants: are trees different?New insights into the roles of ethylene and jasmonic acid in the acquisition of selenium resistance in plants.Metabolic control analysis: a tool for designing strategies to manipulate metabolic pathways.Selenium Biofortification in Radish Enhances Nutritional Quality via Accumulation of Methyl-Selenocysteine and Promotion of Transcripts and Metabolites Related to Glucosinolates, Phenolics, and Amino Acids.Quantitative, chemically specific imaging of selenium transformation in plants.Selenium accumulation in plants--phytotechnological applications and ecological implications.Ecological aspects of plant selenium hyperaccumulation.Biological responses related to agonistic, antagonistic and synergistic interactions of chemical species.Molecular mechanisms of regulation of sulfate assimilation: first steps on a long roadDe novo assembly and characterization of the Welsh onion (Allium fistulosum L.) transcriptome using Illumina technology.Mechanisms of Selenium Enrichment and Measurement in Brassicaceous Vegetables, and Their Application to Human Health.The fascinating facets of plant selenium accumulation - biochemistry, physiology, evolution and ecology.The potential of genetic engineering of plants for the remediation of soils contaminated with heavy metals.Sulfur Protects Pakchoi (Brassica chinensis L.) Seedlings against Cadmium Stress by Regulating Ascorbate-Glutathione Metabolism.Reduction and coordination of arsenic in Indian mustard.Selenium distribution and speciation in the hyperaccumulator Astragalus bisulcatus and associated ecological partners.Chromium-induced modulation in the antioxidant defense system during phenological growth stages of Indian mustard.
P2860
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P2860
Overexpression of ATP sulfurylase in indian mustard leads to increased selenate uptake, reduction, and tolerance
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年学术文章
@wuu
1999年学术文章
@zh-cn
1999年学术文章
@zh-hans
1999年学术文章
@zh-my
1999年学术文章
@zh-sg
1999年學術文章
@yue
1999年學術文章
@zh
1999年學術文章
@zh-hant
name
Overexpression of ATP sulfuryl ...... take, reduction, and tolerance
@en
Overexpression of ATP sulfuryl ...... take, reduction, and tolerance
@nl
type
label
Overexpression of ATP sulfuryl ...... take, reduction, and tolerance
@en
Overexpression of ATP sulfuryl ...... take, reduction, and tolerance
@nl
prefLabel
Overexpression of ATP sulfuryl ...... take, reduction, and tolerance
@en
Overexpression of ATP sulfuryl ...... take, reduction, and tolerance
@nl
P2093
P356
P1433
P1476
Overexpression of ATP sulfuryl ...... take, reduction, and tolerance
@en
P2093
Mel Lytle C
Pilon-Smits EA
P304
P356
10.1104/PP.119.1.123
P407
P577
1999-01-01T00:00:00Z