Detection and identification of hydrophilic selenium compounds in selenium-rich yeast by size exclusion-microbore normal-phase HPLC with the on-line ICP-MS and electrospray Q-TOF-MS detection
Far, Johann; Preud'homme, Hugues; Lobinski, Ryszard
[en] Normal-phase HPLC and hydrophilic interaction HPLC (HILIC) were investigated for the separation of selenometabolites in a water extract of Se-rich yeast prior to their detection by ICP-MS and identification by electrospray MS/MS. The targeted fraction was a low-abundant fraction co-eluting with salt and sulfur analogues in size-exclusion chromatography which has so far been inaccessible to Se speciation studies. The optimization of the separation conditions resulted in the highest separation efficiency when HILIC was used and elution was carried out isocratically with a low concentration ammonium acetate buffer (1 mM ammonium acetate/10mM acetic acid) in 80% acetonitrile. Out of 15 peaks observed with the Se-specific ICP-MS detection 12 was identified by electrospray Q-TOF MS/MS (2,3-dihydroxypropionyl (DHP)-Se-methylselenocysteine [M+H](+): 272, Se-methyl-gamma-glutamyl-selenocysteinylglycine dioxide [M+H](+): 402, gamma-glutanlyl-Se-methylselenocysteine[M+H](+): 313; isomers of gamma-glutamylselenocystathionine [M+H](+): 400; Se-methyl-selenoglutathione [M+H](+): 370, isomers of N-acetylselenocystathionine [M+H](+): 313, 2,3-DHP-selenohomolanthionine [M+H](+): 373, isomers of 2,3-DHP-seienocystathionine[M+H](+): 359,2,3-DHP-selenolanthionine [M+H](+): 345 and selenohomolanthionine [M+H](+): 285). (C) 2009 Elsevier B.V. All rights reserved.
Detection and identification of hydrophilic selenium compounds in selenium-rich yeast by size exclusion-microbore normal-phase HPLC with the on-line ICP-MS and electrospray Q-TOF-MS detection
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Bibliography
Rayman M.P. The importance of selenium to human health. Lancet 356 (2000) 233-241
Rayman M.P. Selenium in cancer prevention: a review of the evidence and mechanism of action. Proc. Nutr. Soc. 64 (2005) 527-542
Rayman M.P. Dietary selenium: time to act. Brit. Med. J. 314 (1997) 387-388
Schrauzer G.N. Selenomethionine: a review of its nutritional significance, metabolism and toxicity. J. Nutr. 130 (2000) 1653-1656
Lobinski R., Edmonds J.S., Suzuki K.T., and Uden P.C. Species-selective determination of selenium compounds in biological materials (Technical report). Pure Appl. Chem. 72 (2000) 447-461
Bird S.M., Uden P.C., Tyson J.F., Block E., and Denoyer E. Speciation of selenoamino acids and organoselenium compounds in selenium-enriched yeast using high-performance liquid chromatography-inductively coupled plasma mass spectrometry. J. Anal. Atom. Spectrom. 12 (1997) 785-788
Kotrebai M., Birringer M., Tyson J.F., Block E., and Uden P.C. Identification of the principal selenium compounds in selenium-enriched natural sample extracts by ion-pair liquid chromatography with inductively coupled plasma- and electrospray ionization-mass spectrometric detection. Anal. Commun. 36 (1999) 249-252
Casiot C., Szpunar J., Lobinski R., and Potin-Gautier M. Sample preparation and HPLC separation approaches to speciation analysis of selenium in yeast by ICP-MS. J. Anal. Atom. Spectrom. 14 (1999) 645-650
B'Hymer C., and Caruso J.A. Evaluation of yeast-based selenium food supplements using high performance liquid chromatography and inductively coupled plasma mass spectrometry. J. Anal. Atom. Spectrom. 15 (2000) 1531-1539
Larsen E.H., Hansen M., Fan T., and Vahl M. Speciation of selenoamino acids, selenonium ions and inorganic selenium by ion exchange HPLC with mass spectrometric detection and its application to yeast and algae. J. Anal. Atom. Spectrom. 16 (2001) 1403-1408
Casiot C., Vacchina V., Chassaigne H., Szpunar J., Potin-Gautier M., and Lobinski R. An approach to the identification of selenium species in yeast extracts using pneumatically-assisted electrospray tandem mass spectrometry. Anal. Commun. 36 (1999) 77-80
Infante H.G., Hearn R., and Catterick T. Current mass spectrometry strategies for selenium speciation in dietary sources of high-selenium. Anal. Bioanal. Chem. 382 (2005) 957-967
Polatajko A., Jakubowski N., and Szpunar J. State of the art report of selenium speciation in biological samples. J. Anal. Atom. Spectrom. 21 (2006) 639-654
Szpunar J., and Lobinski R. Multidimensional approaches in biochemical speciation analysis. Anal. Bioanal. Chem. 373 (2002) 404-411
Dernovics M., and Lobinski R. Characterization of the selenocysteine-containing metabolome in selenium-rich yeast: Part 1. Identification of new species by multi-dimensional liquid chromatography with parallel ICP-MS and electrospray Q-TOF MS/MS detection. J. Anal. Atom. Spectrom. 23 (2007) 72-83
McSheehy S., Pohl P., Szpunar J., Potin-Gautier M., and Lobinski R. Analysis for selenium speciation in selenized yeast extracts by two-dimensional liquid chromatography with ICP-MS and electrospray MS-MS detection. J. Anal. Atom. Spectrom. 16 (2001) 68-73
Dernovics M., and Lobinski R. Speciation analysis of selenium metabolites in yeast-based food supplements by ICPMS-assisted hydrophilic interaction HPLC-hybrid linear ion trap/orbitrap MSn. Anal. Chem. 80 (2008) 3975-3984
Schaumlöffel D., Encinar J.R., and Lobinski R. Development of a sheathless interface between reversed-phase capillary HPLC and ICPMS via a microflow total consumption nebulizer for selenopeptide mapping. Anal. Chem. 75 (2003) 6837-6842
Encinar J.R., Ouerdane L., Buchmann W., Tortajada J., Lobinski R., and Szpunar J. Identification of water-soluble selenium-containing proteins in selenized yeast by size-exclusion-reversed-phase HPLC/ICPMS followed by MALDI-TOF and electrospray Q-TOF mass spectrometry. Anal. Chem. 75 (2003) 3765-3774
Giusti P., Schaumloffel D., Preud'homme H., Szpunar J., and Lobinski R. Selenopeptide mapping in a selenium-yeast protein digest by parallel nanoHPLC-ICP-MS and nanoHPLC-electrospray-MS/MS after on-line preconcentration. J. Anal. Atom. Spectrom. 21 (2006) 26-32
García-Reyes J.F., Dernovics M., Ortega-Barrales P., Fernández-Alba A.R., and Molina-Díaz A. Accurate mass analysis and structure elucidation of selenium metabolites by liquid chromatography electrospray time-of-flight mass spectrometry. J. Anal. Atom. Spectrom. 22 (2007) 947-959
McSheehy S., Szpunar J., Haldys V., and Tortajada J. Identification of selenocompounds in yeast by electrospray quadrupole-time of flight mass spectrometry. J. Anal. Atom. Spectrom. 17 (2002) 507-514
Lindemann T., and Hintelmann H. Identification of selenium-containing glutathione S-conjugates in a yeast extract by two-dimensional liquid chromatography with inductively coupled plasma MS and nanoelectrospray MS/MS detection. Anal. Chem. 74 (2002) 4602-4610
Dernovics M., Ouerdane L., Tastet L., Giusti P., Preud'homme H., and Lobinski R. Detection and characterization of artefact compounds during selenium speciation analysis in yeast by ICP-MS-assisted MALDI MS, oMALDI MS/MS and LC-ES-MS/MS. J. Anal. Atom. Spectrom. 21 (2006) 703-707
Chassaigne H., and Lobinski R. Determination of cobalamins and cobinamides by microbore reversed-phase HPLC with spectrophotometric, ion-spray ionization MS and inductively coupled plasma MS detection. Anal. Chim. Acta 359 (1998) 227-235
Pesek J.J., Matyska M.T., Hearn M.T.W., and Boysen R.I. Aqueous normal-phase retention of nucleotides on silica hydride columns. J. Chromatogr. A 1216 (2009) 1140-1146
Infante H.G., O'Connor G., Rayman M.P., and R. Hearn C.K. Simultaneous identification of selenium-containing glutathione species in selenised yeast by on-line HPLC with ICP-MS and electrospray ionisation quadrupole time of flight (QTOF)-MS/MS. J. Anal. Atom. Spectrom. 21 (2006) 1256-1263
Infante H.G., O'Connor G., Rayman M., Wahlen R., Spallholz J.E., Hearn R., and Catterick T. Identification of water-soluble γ-glutamyl-Se-methylselenocysteine in yeast-based selenium supplements by reversed-phase HPLC with ICP-MS and electrospray tandem MS detection. J. Anal. Atom. Spectrom. 20 (2005) 864-870
Larsen E.H., Lobinski R., Burger-Meÿer K., Hansen M., Ruzik R., Mazurowska L., Rasmussen P.H., Sloth J.J., Scholten O., and Kik C. Uptake and speciation of selenium in garlic cultivated in soil amended with symbiotic fungi (mycorrhiza) and selenate. Anal. Bioanal. Chem. 385 (2006) 1098-1108
Ogra Y., Ishiwata K., Iwashita Y., and Suzuki K.T. Simultaneous speciation of selenium and sulfur species in selenized odorless garlic (Allium sativum L. Shiro) and shallot (Allium ascalonicum) by HPLC-inductively coupled plasma-(octopole reaction system)-mass spectrometry and electrospray ionization-tandem mass spectrometry. J. Chromatogr. A 1093 (2005) 118-125
Dernovics M., Garcia-Barrera T., Bierla K., Preud'homme H., and Lobinski R. Standardless identification of selenocystathionine and its γ-glutamyl derivatives in monkeypot nuts by 3D liquid chromatography with ICP-MS detection followed by nanoHPLC-Q-TOF-MS/MS. Analyst 132 (2007) 439-449
Ogra Y., Kitaguchi T., Ishiwata K., Suzuki N., Iwashita Y., and Suzuki K.T. Identification of selenohomolanthionine in selenium-enriched Japanese pungent radish. J. Anal. Atom. Spectrom. 22 (2007) 1390-1396
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