Dynamics of selenium uptake and metabolism of organic selenium species in the leaves and seeds of Brassica napus L.

Authors

  • Mervi M Seppänen Department of Agricultural Sciences, University of Helsinki, Finland
  • Nashmin Ebrahimi Department of Agricultural Sciences, University of Helsinki, Finland
  • Juha Kontturi Department of Agricultural Sciences, University of Helsinki, Finland
  • Helinä Hartikainen Department of Food and Environmental Sciences, University of Helsinki, Finland
  • Isabel Lopez Heras Department of Analytical Chemistry, Complutense University of Madrid ES-28040 Madrid, Spain
  • Carmen Cámara Department of Analytical Chemistry, Complutense University of Madrid ES-28040 Madrid, Spain
  • Yolanda Madrid Department of Analytical chemistry, Complutense university of Madrid ES-28040 Madrid, Spain

Keywords:

selenomethionine, selenomethylselenocysteine, Se biofortification, Adenosine triphosphate sulphurylase, selenocysteine methyltransferase

Abstract

The essential micronutrient selenium (Se) is retained better in animal and human tissues in its organic forms while nonprotein selenoamino acids, such as selenomethylselenocysteine (SeMetSeCys), are considered as functional organic Se species. We studied the ability of oilseed rape Brassica napus to metabolize inorganic selenate/selenite (SeVI/SeIV) into various organic Se species, including SeMetSeCys. At 14 d after the inorganic Se application, 33% of the Se had accumulated as selenomethionine (SeMet) and 60% as SeVI, whereas no SeMetSeCys was detected. SeMet was the main organic Se species (53−94%) in seeds. Brassica napus selenocysteine methyltransferase (SMT) protein sequence revealed a substitution typical of nonaccumulators explaining the low SeMetSeCys accumulation. Brassica napus absorbs rapidly inorganic Se and converts it into organic Se forms, mainly SeMet, that are suitable for augmenting animal feed and thereby supplementing the human food chain in Se-deficient countries. In contrast, Se biofortification did not result in accumulation of the more valuable SeMetSeCys.

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Articles

Published

2018-03-31

How to Cite

Seppänen, M. M., Ebrahimi, N., Kontturi, J., Hartikainen, H., Lopez Heras, I., Cámara, C., & Madrid, Y. (2018). Dynamics of selenium uptake and metabolism of organic selenium species in the leaves and seeds of Brassica napus L. Agricultural and Food Science, 27(1), 38–49. https://doi.org/10.23986/afsci.67837
Received 2017-12-13
Accepted 2018-03-25
Published 2018-03-31