BACKGROUND: Tocopherol (vitamin E) is an antioxidant essential in human nutrition. Several approaches have aimed to enhance tocopherol content in crops by the genetic modification of plants, a practice that generates some social concern. As tocopherol accumulates with leaf age in some wild plants and the antioxidant mechanisms respond with flexibility to stress conditions, it is hypothesised that tocopherol content can be increased in edible plants by the manipulation of harvesting time and growth conditions, in particular irradiance. RESULTS: Ontogenic changes in tocopherol concentration have been studied in photosynthetic tissues of edible leaves (lettuce, spinach, corn salad and dandelion) and green fruits (cucumber and pepper). In all species, tocopherol content increased with tissue age. Spinach showed the fastest rate of tocopherol accumulation, and growth at higher irradiance had a synergistic effect on the rate of accumulation. The same irradiance dependence of this accumulation was observed in fruits, but a final decrease with senescence occurred in cucumber. CONCLUSION: This study demonstrates that the content of tocopherol in vegetables can be notably enhanced (or reduced) by simply selecting the appropriate harvesting time and/or by manipulating the environmental conditions during the growth period. Copyright 2010 Society of Chemical Industry.
BACKGROUND:Tocopherol (vitamin E) is an antioxidant essential in human nutrition. Several approaches have aimed to enhance tocopherol content in crops by the genetic modification of plants, a practice that generates some social concern. As tocopherol accumulates with leaf age in some wild plants and the antioxidant mechanisms respond with flexibility to stress conditions, it is hypothesised that tocopherol content can be increased in edible plants by the manipulation of harvesting time and growth conditions, in particular irradiance. RESULTS: Ontogenic changes in tocopherol concentration have been studied in photosynthetic tissues of edible leaves (lettuce, spinach, corn salad and dandelion) and green fruits (cucumber and pepper). In all species, tocopherol content increased with tissue age. Spinach showed the fastest rate of tocopherol accumulation, and growth at higher irradiance had a synergistic effect on the rate of accumulation. The same irradiance dependence of this accumulation was observed in fruits, but a final decrease with senescence occurred in cucumber. CONCLUSION: This study demonstrates that the content of tocopherol in vegetables can be notably enhanced (or reduced) by simply selecting the appropriate harvesting time and/or by manipulating the environmental conditions during the growth period. Copyright 2010 Society of Chemical Industry.
Authors: Beatriz Fernández-Marín; Marina López-Pozo; Alicia V Perera-Castro; Miren Irati Arzac; Ana Sáenz-Ceniceros; Claudia Colesie; Asunción De Los Ríos; Leo G Sancho; Ana Pintado; José M Laza; Sergio Pérez-Ortega; José I García-Plazaola Journal: Ann Bot Date: 2020-01-06 Impact factor: 4.357
Authors: Christian Schuy; Jennifer Groth; Alexandra Ammon; Julia Eydam; Steffen Baier; Günther Schweizer; Anja Hanemann; Markus Herz; Lars M Voll; Uwe Sonnewald Journal: Sci Rep Date: 2019-07-01 Impact factor: 4.379