Mark Seymour scite author profile

Summary• The pool of endogenous water-soluble oligosaccharides found in the stems of wheat ( Triticum aestivum ) is being investigated as a potential indicator of grain yield. Techniques such as liquid chromatography with mass spectrometry (LC-MS) can profile these analytes but provide no spatial information regarding their distribution in the wheat stem. The imaging matrix-assisted laser desorption ionization (MALDI) mass spectrometry technique has not been utilized for the analysis of oligosaccharides in plant systems previously.• Imaging MALDI mass spectrometry was used to analyse cross and longitudinal sections from the stems of Triticum aestivum .• A range of oligosaccharides up to Hex 11 were observed. Water-soluble oligosaccharides were ionized as potassiated molecules, and found to be located in the stem pith that is retained predominantly around the inner stem wall.• Imaging MALDI analyses provided spatial information on endogenous oligosaccharides present in wheat stems. The technique was found to offer comparable sensitivities for oligosaccharide detection to those of our established LC-MS method, and has potential for broad application in studying the in situ localization of other compound types in plant material.

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Study of the metabolism of testosterone, nandrolone and estradiol in cattle†

Samuels¹,

Nedderman²,

Seymour³

et al. 1998

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The current metabolism study was undertaken to identify key analytes in urine, plasma and bile following testosterone, nandrolone and estradiol administrations to cull cows, heifers and steers. This information will be used to develop confirmatory analysis procedures. In the present study, mixtures (1:1) of testosterone, nandrolone or estradiol and their deuterium labelled analogues were administered to cull cows, heifers and steers. Two analogues of deuterium labelled testosterone were synthesised and administered, to facilitate identification of metabolites. Following administration, urine, plasma and bile samples were collected and subjected to solid phase extraction. The extracts were derivatised and analysed by GC-MS. The major analytes derived from the administered steroids were identified on the basis of the twin ion peaks produced for their non-labelled and deuterium labelled analogues and their stereochemistries determined by comparison of retention times with appropriate reference standards. Using suitable internal markers, excretion profiles for the major analytes in urine and plasma have been determined and levels in isolated bile samples estimated. This work is on-going, and this paper is a summary of some of the studies completed to date.

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A microdose study of 14C-AR-709 in healthy men: pharmacokinetics, absolute bioavailability and concentrations in key compartments of the lung

Lappin

Boyce

Matzow

et al. 2013

Eur J Clin Pharmacol

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The results of this microdose study indicate that AR-709 attains concentrations appreciably higher within the lung than in plasma. Its low oral bioavailability however, precludes oral administration. Although IV administration would appear to be an effective route of administration, this would limit the use of AR-709 to a clinical setting and would therefore be economically unsustainable. If further clinical development were to be undertaken, therefore, an alternative route of administration would be necessary.

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Screening of Underivatized Oligosaccharides Extracted from the Stems of Triticum aestivum Using Porous Graphitized Carbon Liquid Chromatography−Mass Spectrometry

et al. 2007

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Highly polar oligosaccharide analytes are notoriously difficult to separate by HPLC without prior derivatization or the use of highly alkaline eluent systems. Using a porous graphitic carbon (PGC) HPLC column, we have studied a pool of endogenous underivatized water-soluble oligosaccharides that were extracted from the stems of a range of wheat cultivars. The aqueous/organic eluents that are used with this stationary phase are ideal electrospray solvents and hence facilitate the on-line coupling of the analysis to mass spectrometry. Our on-line PGC-LC-MS method has allowed the separation of native oligosaccharides, dp 2-20, in under 30 min. The method is robust and suitable for the separation of other complex oligosaccharide mixtures. We propose that isomers of fructan structures are separated and that the branching in these structures can affect their elution order. Further, our findings on the size and type of oligosaccharides extracted from wheat stems have been compared to grain yield data. Cultivars known to be high in stem carbohydrate content have been shown to contain larger oligosaccharide structures than cultivars classified as low in stem carbohydrate content. Interestingly, the largest oligosaccharides were present in the stems of wheat plants harvested 14 days after flowering, which correlates directly with the time that grain filling occurs.

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Mark Seymour

Localization of water‐soluble carbohydrates in wheat stems using imaging matrix‐assisted laser desorption ionization mass spectrometry

Study of the metabolism of testosterone, nandrolone and estradiol in cattle†

A microdose study of 14C-AR-709 in healthy men: pharmacokinetics, absolute bioavailability and concentrations in key compartments of the lung

Screening of Underivatized Oligosaccharides Extracted from the Stems of Triticum aestivum Using Porous Graphitized Carbon Liquid Chromatography−Mass Spectrometry

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