• P-ISSN1225-0163
  • E-ISSN2288-8985
  • SCOPUS, ESCI, KCI

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  • P-ISSN 1225-0163
  • E-ISSN 2288-8985

Article Contents

    Analysis of selenoaminoacids and selenoproteins in blood serum of sows fed by selenium fortified feed

    Analytical Science and Technology / Analytical Science and Technology, (P)1225-0163; (E)2288-8985
    2015, v.28 no.3, pp.196-203
    https://doi.org/10.5806/AST.2015.28.3.196



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    Abstract

    Selenium species (inorganic selenium, selenoaminoacids, and selenoproteins) were analyzed using anion exchange and affinity chromatography, which were connected to ICP/MS for the blood serum of sows fed by seleniumfortified feed. The Anion Exchange PRP X-100 column was used for the analysis of inorganic selenium (Se4+ and Se6+) and selenoaminoacids. The HEP column was used to separate SelP from GPx+SeAlb in selenoproteins. A quantitative analysis was performed using the post-column isotope dilution technique. The lactating sows were divided into three groups and fed by selenium fortified feed (organic 0.3 mg/kg, 0.6 mg/kg and inorganic 0.6 mg/kg) for four weeks. The test groups showed increases in selenoaminoacids compared with the control group, except the inorganic feed group. There was no significant difference between the organic feed groups. All test groups showed increases in selenoproteins. In particular, SelP showed a large increase that was 1.5 times higher than the other proteins.

    keywords
    sow blood serum, AE & AF HPLC-ICP/MS, selenoproteins, selenoaminoacids, selenium fortified feed


    Reference

    1

    1. S. Palioura, R. L. Sherrer, T. A. Steitz, D. Söll and M. Simonovic, Science, 325, 321-325 (2009).

    2

    2. F. Ursini and S. Heim, M. Kiess, Science, 285, 1393-1396 (1999).

    3

    3. L. H. Foster and S. Sumar, Crit Rev Food Sci Nutr., 37(3), 211-228 (1997).

    4

    4. H.-Y. Jang, H. Min, J. Lee and Y.-N. Pak, Analytical Sci. & Technol., 26(3), 182-189 (2013).

    5

    5. J. Y. Ahn, H. Kwon and Y. N. Pak, Analytical Sci. & Technol., 27(2), 357-363 (2014).

    6

    6. A. J. Duffield-Lillico, E. H. Slate and M. E. Reid, J. Natl Cancer Inst., 95(19), 1477-1481 (2003).

    7

    7. E. A. Klein, I. M. Thompson and S. M. Lippman, Prostate Cancer Prostatic Dis., 3(3), 145-151 (2000).

    8

    8. S. M. Lippman, E. A. Klein and P. J. Goodman, JAMA, 301(1), 39-51 (2009).

    9

    9. Z. Pedrero and Y. Madrid, Anal. Chim. Acta, 634, 135-152 (2009).

    10

    10. D. Juresa, J. Darrouze’s, N. Kienzl, M. Bueno, F. Pannier, M. Potin-Gautier, A. Kevin and D. Kuehnelt, J. Anal. At. Spectrom., 21, 684-690 (2006).

    11

    11. P. Jitaru, C. Giulio, G. Andrea, C. Paolo and B. Carlo, Anal Bioanal Chem., 391, 661-669 (2008).

    12

    12. M. Roman, P. Jitaru and C. Barbante, Metallomics, 6, 25-54 (2014).

    13

    13. F. A. Aborode, A. Raab, S. Foster, E. Lombi, W. Maher, E. M. Kruppa and J. Feldmann, Metallomics, 7(3), Mar 9, in press, (2015).

    14

    14. J. Bianga, Z. Touat-Hamici, K. Bierla, S. Mounicou, J. Szpunar, L. Chavatte and R. Lobinski, J Proteomics., 108, 316-24 (2014).

    15

    15. K. Bierla, J. Bianga, L. Ouerdane, J. Szpunar and A. Yiannikouris, R. Lobinski, J. Proteomics., 87, 26-39 (2013).

    16

    16. J. Bianga, E. Govasmark and J. Szpunar, Anal Chem., 85(4), 2037-2043 (2013).

    17

    17. D. H. Vanesa, L. F. S. Maria and S. M. Alfredo, Analytica Chimica Acta, 538, 99-105 (2005).

    18

    18. T. Celine, R. Ann, D. T. Ludwig, S. Yves-Jacques and P. Luc, Food Chemistry, 130, 767-784 (2012).

    19

    19. H. H. Kim, H. Yang and H. Y. Kim, Korean J. Nutr., 44(2), 112-118 (2011).

    20

    20. Y. Park, I.-S. Kim, S. H. Lee, S. H. lee, D. W. Jung, C. J. Park and Y. M. Kim, J. Life Sci., 2(1), 55-61 (2012).

    21

    21. I. H. Jo, S. H. Lee, G. W. Kim, S. Hwangbo, O. K. Han, T. H. Song, T. I. Park and I. B. Choi, J Korean Soc Grassl Forage Sci., 32(1), 39-48 (2012).

    22

    22. Y. D. Jang, H. B. Choi, S. Durosoy, P. Schlegel, B. R. Choi and Y. Y. Kim, Asian-Aust. J. Anim. Sci., 23(7), 931-936 (2010).

    23

    23. J. Travnicek, L. Pisek, I. Herzig, J. Doucha, H. Kvicala, V. Kroupova and H. Rodinova, Veterinarni Medicina, 52, 42-48 (2007).

    24

    24. O. S. Kwon, J.-W. Hong, B.-J. Min, W.-B. Lee, K.-S. Shon, I.-H. Kim and J.-M. Kim, J. Korean Soc. Food Sci Nutr., 33(7), 1206-1211 (2004).

    25

    25. J. S. Jung, J. H. Lee and Y. N. Pak, Bull. Korean Chem. Soc., 34(12), 3817-3824 (2013).

    26

    26. H. A. Meyer, T. Endermann, C. Stephan, M. Stoedter, T. Behrends, I. Wolff, K. Jung and L. Schomburg, PLOS ONE, issue 10, e46644 (2012).

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