Sodium Selenate Fertilisation Increases Selenium Accumulation and Decreases Glucosinolate Concentration in Rapid-cycling Brassica OleraceaJournal of the Science of Food and Agriculture (2001)
AbstractGlucosinolates (GSs) are S-containing compounds found in Brassica species and whose degradation products may provide protection against cancer. Sulphoraphane, a product of 4-methylsulphinylbutyl GS degradation, is a particularly potent inhibitor of anticarcinogenic detoxification enzymes. Selenium also has anticancer properties, and consumption of plants containing Se may be an effective way to increase dietary Se. Since plant uptake of Se and S is competitive, GS synthesis may be affected by Se fertilisation. The objective of this study was to determine how Se fertilisation of rapid-cycling B oleracea would affect Se and GS concentrations. Plants were grown in hydroponic solutions containing 0.0, 1.0, 2.0, 3.0, 6.0, 7.2 or 9.0 mg l−1 Na2SeO4. Mineral and glucosinolate concentrations were measured in shoots harvested just before anthesis. Total GSs decreased from 5.84 µmol g−1 (0.0 mg l−1 Na2SeO4) to 1.90 µmol g−1 (9.0 mg l−1Na2SeO4). Levels of 4-methylsulphinylbutyl GS decreased 90% when Na2SeO4 fertilisation was increased from 0 to 1 mg l−1, and remained low at higher Na2SeO4 concentrations. Shoot Se concentration was undetectable at 0.0 mg l−1 Na2SeO4 and increased significantly with Na2SeO4 fertilisation. Although B oleracea may not simultaneously deliver high levels of dietary 4-methylsulphinylbutyl GS and Se, levels of other GSs with anticarcinogenic benefits may be beneficial even with Se fertilisation.
- glucosinolates; isothiocyanates; selenium; glucoraphanin; cancer
Publication DateJuly, 2001
Citation InformationDean A. Kopsell, Craig S. Charron, William M. Randle and Carl E. Sams. "Sodium Selenate Fertilisation Increases Selenium Accumulation and Decreases Glucosinolate Concentration in Rapid-cycling Brassica Oleracea" Journal of the Science of Food and Agriculture Vol. 81 Iss. 9 (2001)
Available at: http://works.bepress.com/dean_kopsell/21/