AI Article Synopsis
- The study examined how light affects glucosinolate (GLS) levels in germinating seeds of various plants, including mustard and radishes.
- Seeds germinated in light showed a significant decrease in total GLS (30-70%), while those in the dark had declines of only about 25%.
- While dark-germinated seeds had higher total indole GLS content, the proportion of these compounds remained mostly stable across species, except for rapeseeds, where indole GLS increased significantly when exposed to light.
Article Abstract
The study was aimed at determining the effect of light conditions on contents of glucosinolates (GLS) in germinating seeds of white mustard, red radish, white radish, and rapeseed. The seeds were germinated in light and dark, at 25 degrees C, for up to 7 days. As compared to the nongerminated seeds, in seeds exposed to light and germinated for 4, 5, 6, and 7 days the content of total GLS was observed to decrease by 30 to 70% depending on the species. Germination in conducted the dark for the respective periods of time resulted in decreases of total GLS not exceeding 25%. The changes in the concentration of total GLS were attributed to aliphatic GLS predominating in seeds, yet in the case of white mustard to sinalbin belonging to aralkyl glucosinolates. Although seeds germinated in the dark, as compared to those exposed to light, were characterized by a higher total content of indole GLS, the percentage contribution of that group of compounds in white mustard, red radish, and white radish remained at a similar level, irrespective of germination time. Only in the case of rapeseed was the percentage of the sum of indole GLS observed to increase from 17 to up to 45% once the seeds were exposed to light and to 50% once they were germinated in the dark.
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| http://dx.doi.org/10.1021/jf801206g | DOI Listing |
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