scholarly article | Q13442814 |
review article | Q7318358 |
P356 | DOI | 10.1016/S1369-5266(03)00030-X |
P698 | PubMed publication ID | 12753978 |
P2093 | author name string | David E Salt | |
Danielle R Ellis | |||
P2860 | cites work | Selenium assimilation and volatilization from dimethylselenoniopropionate by Indian mustard | Q28344121 |
A selenoprotein in the plant kingdom. Mass spectrometry confirms that an opal codon (UGA) encodes selenocysteine in Chlamydomonas reinhardtii gluththione peroxidase | Q30730172 | ||
Methylation of inorganic and organic selenium by the bacterial thiopurine methyltransferase. | Q31052950 | ||
Selenoproteins and selenocysteine insertion system in the model plant cell system, Chlamydomonas reinhardtii | Q34089718 | ||
Bacterial cysteine desulfurases: their function and mechanisms | Q34154611 | ||
Food system-based approaches to improving micronutrient nutrition: the case for selenium | Q34160768 | ||
SELENIUM IN HIGHER PLANTS. | Q34304426 | ||
Evolution of selenocysteine-containing proteins: significance of identification and functional characterization of selenoproteins. | Q34377761 | ||
Selenocompounds in plants and animals and their biological significance | Q34695589 | ||
Onions--a global benefit to health | Q34985899 | ||
Sulfate metabolism | Q35625659 | ||
PATHWAYS AND REGULATION OF SULFUR METABOLISM REVEALED THROUGH MOLECULAR AND GENETIC STUDIES. | Q35687112 | ||
Quantitative, chemically specific imaging of selenium transformation in plants | Q37257426 | ||
Activation of selenate by adenosine 5′-triphosphate sulphurylase from Saccharomyces cerevisiae | Q40786875 | ||
Comparative enzymology of the adenosine triphosphate sulphurylases from leaf tissue of selenium-accumulator and non-accumulator plants | Q41809065 | ||
The AtNFS2 gene from Arabidopsis thaliana encodes a NifS-like plastidial cysteine desulphurase. | Q41954449 | ||
Selenate-resistant mutants of Arabidopsis thaliana identify Sultr1;2, a sulfate transporter required for efficient transport of sulfate into roots | Q42517447 | ||
Purification, properties and substrate specificity of adenosine triphosphate sulphurylase from spinach leaf tissue | Q42924855 | ||
Overexpression of ATP sulfurylase in indian mustard leads to increased selenate uptake, reduction, and tolerance | Q43526732 | ||
An essential role of s-adenosyl-L-methionine:L-methionine s-methyltransferase in selenium volatilization by plants. Methylation of selenomethionine to selenium-methyl-L-selenium- methionine, the precursor of volatile selenium | Q44177258 | ||
Characterization of a NifS-like chloroplast protein from Arabidopsis. Implications for its role in sulfur and selenium metabolism | Q44213653 | ||
Simultaneous monitoring of volatile selenium and sulfur species from se accumulating plants (wild type and genetically modified) by GC/MS and GC/ICPMS using solid-phase microextraction for sample introduction | Q44236884 | ||
Rate-limiting steps in selenium assimilation and volatilization by indian mustard | Q44542615 | ||
Distribution of free seleno-amino acids in plant tissue of Melilotus indica L. grown in selenium-laden soils | Q46882600 | ||
Variability of essential amino acid content in seeds of 22 Phaseolus species | Q47698364 | ||
Exclusion of selenium from proteins of selenium-tolerant astragalus species | Q47937316 | ||
A family of S-methylmethionine-dependent thiol/selenol methyltransferases. Role in selenium tolerance and evolutionary relation | Q47986703 | ||
Two distinct high-affinity sulfate transporters with different inducibilities mediate uptake of sulfate in Arabidopsis roots | Q48318412 | ||
Selenocysteyl-tRNAs recognize UGA in Beta vulgaris, a higher plant, and in Gliocladium virens, a filamentous fungus. | Q53490849 | ||
The S-Methylmethionine Cycle in Lemna paucicostata. | Q55041921 | ||
Chemical form and distribution of selenium and sulfur in the selenium hyperaccumulator Astragalus bisulcatus | Q57610314 | ||
The path of unspecific incorporation of selenium in Escherichia coli | Q73770965 | ||
Dimethylsulfoniopropionate biosynthesis in Spartina alterniflora1. Evidence that S-methylmethionine and dimethylsulfoniopropylamine are intermediates | Q74520320 | ||
Acquisition of selenium tolerance by a selenium non-accumulating Astragalus species via selection | Q77377180 | ||
Seleno-amino acid found in Astragalus bisulcatus | Q79291598 | ||
Biosynthesis of s-methylcysteine in radish leaves | Q83241630 | ||
P433 | issue | 3 | |
P921 | main subject | selenium | Q876 |
P304 | page(s) | 273-279 | |
P577 | publication date | 2003-06-01 | |
P1433 | published in | Current Opinion in Plant Biology | Q15756095 |
P1476 | title | Plants, selenium and human health | |
P478 | volume | 6 |
Q44102362 | A comparison of sulfate and selenium accumulation in relation to the expression of sulfate transporter genes in Astragalus species |
Q37967184 | A review of recent developments in the speciation and location of arsenic and selenium in rice grain. |
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Q28566376 | An Overview of Selenium Uptake, Metabolism, and Toxicity in Plants |
Q38061890 | An overview of health-promoting compounds of broccoli (Brassica oleracea var. italica) and the effect of processing |
Q43285325 | Arabidopsis putative selenium-binding protein1 expression is tightly linked to cellular sulfur demand and can reduce sensitivity to stresses requiring glutathione for tolerance |
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Q36467467 | Biofortification of UK food crops with selenium. |
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Q47387151 | Differences in uptake and translocation of selenate and selenite by the weeping willow and hybrid willow |
Q46755104 | Distribution and accumulation of selenium in wild plants growing naturally in the Gumuskoy (Kutahya) mining area, Turkey |
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