scispace - formally typeset
Search or ask a question
Topic

Selenium

About: Selenium is a research topic. Over the lifetime, 21192 publications have been published within this topic receiving 429715 citations. The topic is also known as: Se & selen.


Papers
More filters
Journal Article
TL;DR: The substantial prophylactic efficacy of methylated selenides and the enhancement by arsenite suggest that partially methylated forms of selenium may be directly involved in the anticarcinogenic action of se lenium.
Abstract: The anticarcinogenic activity of selenium in animal models is well established. The active forms of selenium involved have not been identified to date, but conversion of selenium via hydrogen selenide (H2Se) to methylated forms such as dimethylselenide and trimethylselenonium ion is an important metabolic fate. By controlling the entry of selenium into various points within this pathway through selection of appropriate starting compounds, it is possible to pinpoint more closely the form(s) of selenium responsible for its anticarcinogenic activity. Selenobetaine in the chloride form [(CH3)2Se+CH2COOH] and its methyl ester are extensively metabolized in the rat to mono-, di-, and trimethylated selenides, largely bypassing the inorganic H2Se intermediary pool. The chemopreventive efficacy of these selenobetaines was determined at 1 and 2 ppm selenium supplemented in the diet throughout the duration of the experiment using the dimethylbenz(a)anthracene induced mammary tumor model in rats. There was a dose-dependent inhibitory response to both compounds, and they appeared to be slightly more active than selenite. These doses were without any adverse effects on the animals. Coadministration of selenobetaine with arsenite (5 ppm arsenic) enhanced the tumor-suppressive effect of selenobetaine, although arsenic by itself was totally inactive. Arsenite is known to inhibit certain steps in selenium methylation. The substantial prophylactic efficacy of methylated selenides and the enhancement by arsenite suggest that partially methylated forms of selenium may be directly involved in the anticarcinogenic action of selenium.

220 citations

Journal ArticleDOI
TL;DR: Evidence indicates that SLD1a-1 uses SeO(inf4)(sup2-) as an alternate electron acceptor and that the reaction occurs via a membrane-associated reductase(s) followed by rapid expulsion of the Se particles.
Abstract: A facultative bacterium capable of removing the selenium (Se) oxyanions selenate (SeO(inf4)(sup2-)) and selenite (SeO(inf3)(sup2-)) from solution culture in flasks open to the atmosphere was isolated and studied with the goal of assessing its potential for use in bioremediation of seleniferous agricultural drainage water. Elemental Se (Se(sup0)) was confirmed as a product of the reaction. The organism, identified as Enterobacter cloacae and designated strain SLD1a-1 (ATCC 700258), removed from 61.5 to 94.5% of added SeO(inf4)(sup2-) (the primary species present in agricultural drainage water) at concentrations from 13 to 1,266 (mu)M. Equimolar amounts of nitrate (NO(inf3)(sup-)), which interferes with SeO(inf4)(sup2-) reduction in some organisms, did not influence the reaction in growth experiments but had a slight inhibitory effect in a washed-cell suspension. Washed-cell suspension experiments also showed that (i) SeO(inf3)(sup2-) is a transitory intermediate in reduction of SeO(inf4)(sup2-), being produced and rapidly reduced concomitantly; (ii) NO(inf3)(sup-) is also reduced concomitantly and at a much higher rate than SeO(inf4)(sup2-); and (iii) although enzymatic, reduction of either oxyanion does not appear to be an inducible process. Transmission electron microscopy revealed that precipitate particles are <0.1 (mu)m in diameter, and these particles were observed free in the medium. Evidence indicates that SLD1a-1 uses SeO(inf4)(sup2-) as an alternate electron acceptor and that the reaction occurs via a membrane-associated reductase(s) followed by rapid expulsion of the Se particles.

220 citations

Journal ArticleDOI
TL;DR: It is shown here that selenite is rapidly reduced within one day by nanoparticulate mackinawite and magnetite, while only one third of selenites is reduced by micrometer-sized siderite.
Abstract: Suboxic soils and sediments often contain the Fe(II)-bearing minerals mackinawite (FeS), siderite (FeCO3) or magnetite (Fe3O4), which should be able to reduce aqueous selenite, thereby forming solids of low solubility. While the reduction of selenate or selenite to Se(0) by green rust, pyrite and by Fe2+ sorbed to montmorillonite is a slow (weeks), kinetically limited redox reaction as demonstrated earlier, we show here that selenite is rapidly reduced within one day by nanoparticulate mackinawite and magnetite, while only one third of selenite is reduced by micrometer-sized siderite. Depending on Fe(II)-bearing phase and pH, we observed four different reaction products, red and gray elemental Se, and two iron selenides with structures similar to Fe7Se8 and FeSe. The thermodynamically most stable iron selenide, ferroselite (FeSe2), was not observed. The local structures of the reaction products suggest formation of nanoscale clusters, which may be prone to colloid-facilitated transport, and may have a hig...

220 citations

Journal ArticleDOI
TL;DR: Data strongly demonstrate that selenite and Pi share similar uptake mechanisms and that OsPT2 is involved in selenites uptake, which provides a potential strategy for breeding Se-enriched rice varieties.
Abstract: • Selenite is a predominant form of selenium (Se) available to plants, especially in anaerobic soils, but the molecular mechanism of selenite uptake by plants is not well understood. • ltn1, a rice mutant previously shown to have increased phosphate (Pi) uptake, was found to exhibit higher selenite uptake than the wild-type in both concentration- and time-dependent selenite uptake assays. Respiratory inhibitors significantly inhibited selenite uptake in the wildtype and the ltn1 mutant, indicating that selenite uptake was coupled with H(+) and energy-dependent. Selenite uptake was greatly enhanced under Pi-starvation conditions, suggesting that Pi transporters are involved in selenite uptake. • OsPT2, the most abundantly expressed Pi transporter in the roots, is also significantly up-regulated in ltn1 and dramatically induced by Pi starvation. OsPT2-overexpressing and knockdown plants displayed significantly increased and decreased rates of selenite uptake, respectively, suggesting that OsPT2 plays a crucial role in selenite uptake. Se content in rice grains also increased significantly in OsPT2-overexpressing plants. • These data strongly demonstrate that selenite and Pi share similar uptake mechanisms and that OsPT2 is involved in selenite uptake, which provides a potential strategy for breeding Se-enriched rice varieties.

220 citations

Journal ArticleDOI
TL;DR: This combined iodine and selenium deficiency could be associated with the elevated frequency of endemic myxedematous cretinism in Central Africa.

219 citations


Network Information
Related Topics (5)
Amino acid
124.9K papers, 4M citations
83% related
Glutathione
42.5K papers, 1.8M citations
80% related
Fatty acid
74.5K papers, 2.2M citations
79% related
Aqueous solution
189.5K papers, 3.4M citations
79% related
Ascorbic acid
93.5K papers, 2.5M citations
79% related
Performance
Metrics
No. of papers in the topic in previous years
YearPapers
20231,062
20222,045
2021554
2020569
2019705
2018792