Patrick Ward scite author profile

The trace mineral selenium (Se) is an essential element for human and animal nutrition. The addition of Se to the diet through dietary supplements or fortified food/feed is increasingly common owing to the often sub-optimal content of standard diets of many countries. Se supplements commercially available include the inorganic mineral salts such as sodium selenite or selenate, and organic forms such as Se-enriched yeast. Today, Se yeast is produced by several manufacturers and has become the most widely used source of Se for human supplementation and is also widely employed in animal nutrition where approval in all species has been granted by regulatory bodies such as the European Food Safety Authority (EFSA). Characterisation and comparison of Se-enriched yeast products has traditionally been made by quantifying total selenomethionine (SeMet) content. A disadvantage of this approach, however, is that it does not consider the effects of Se deposition on subsequent digestive availability. In this study, an assessment was made of the water-soluble extracts of commercially available Se-enriched yeast samples for free, peptide-bound and total water-soluble SeMet. Using LC-MS/MS, a total of 62 Se-containing proteins were identified across four Se yeast products, displaying quantitative/ qualitative changes in abundance relative to the certified reference material, SELM-1 (P value <0.05; fold change ≥2). Overall, the study indicates that significant differences exist between Se yeast products in terms of SeMet content, Secontaining protein abundance and associated metabolic pathways.

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Unexpected fluctuations of trace element levels in cell culture medium in vitro: caveat emptor

Keenan

Horgan

Clynes

et al. 2018

In Vitro Cell.Dev.Biol.-Animal

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Copper is an essential trace element micronutrient in human and animal nutrition. Trace amounts present even in ultrapure water, serum and other cell culture medium components are sufficient to support the health requirements of most cell types in culture. Analysis of a variety of different types of basal media from a number of different suppliers revealed large fluctuations in the levels of copper, and also of other micronutrients including zinc, iron, selenium and cobalt. Investigations on proliferating Caco-2 cells revealed reductions in growth with increasing copper concentrations within the range seen in the commercial media and changes in expression of apoptosis- and autophagy-related proteins were noted. Even at concentrations of 1 μM CuSO where there was no significant change in cell growth, there was a significant decrease in procaspase-3 expression. These results stress the importance of batch testing of basal media when undertaking trace metal research since the baseline levels may vary. Batch variation of serum is well established but our results suggest that batch variation of the media may also be important.

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A comparative assessment of water-soluble selenium metabolites in commercial selenised yeast supplements by liquid chromatography-electrospray ionisation QTOF-MS

Ward

Chadha

Connolly

et al. 2019

International Journal of Mass Spectrometry

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Accelerated Determination of Selenomethionine in Selenized Yeast: Validation of Analytical Method

Ward

Connolly

Murphy

2012

Biol Trace Elem Res

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The purpose of this study was to reduce the extraction time, to hours instead of days, for quantification of the selenomethionine (SeMet) content of selenized yeast. An accelerated method using microwave-assisted enzymatic extraction and ultrasonication was optimized and applied to certified reference material (selenized yeast reference material (SELM)-1). Quantitation of SeMet in the extracts was performed by liquid chromatography with inductively coupled plasma mass spectrometry. The limits of detection and quantitation were 5 ppb SeMet and 15 ppb SeMet respectively and the signal response was linear up to 1,500 ppb SeMet. The average recovery of spiked SeMet from the selenized yeast matrix was 97.7 %. Analysis of an SELM-1 using this method resulted in 100.9 % recovery of the certified value (3448 ± 146 ppm SeMet). This method is suitable for fast reliable determination of SeMet in selenized yeast.

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Patrick Ward

Biochemical Comparison of Commercial Selenium Yeast Preparations

Unexpected fluctuations of trace element levels in cell culture medium in vitro: caveat emptor

A comparative assessment of water-soluble selenium metabolites in commercial selenised yeast supplements by liquid chromatography-electrospray ionisation QTOF-MS

Accelerated Determination of Selenomethionine in Selenized Yeast: Validation of Analytical Method

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