Effects of low UV-B doses on the accumulation of UV-B absorbing compounds and total phenolics and carbohydrate metabolism in the peel of harvested lemons

INTERDONATO, ROQUE; ROSA, MARIANA; NIEVA, CECILIA; GONZÁLEZ, JUAN ANTONIO; HILAL, MIRNA; PRADO, FERNANDO

ENVIRONMENTAL AND EXPERIMENTAL BOTANY

PERGAMON-ELSEVIER SCIENCE LTD

Año: 2011 vol. 70 p. 204 - 211

0098-8472

This paper examined the peel (albedo and flavedo) of postharvest lemon fruits after UV-B exposure in order to analyze relationships between soluble carbohydrate metabolism and secondary metabolite accumulation. Lemons (Citrus limon, cv. Limoneira 8A) were harvested in winter months (June to August), treated with 0.43Wm−2 (22 kJm−2 d−1 UV-BBE) of UV-B radiation during 0 (control), 0.5, 1.0, 2.0, 3.0, and 5.0 min, and then stored at 25 ◦C for 24 h. Peel samples from irradiated areas were obtained with a razor blade and frozen in liquid nitrogen until use for measurements. Data obtained showed that 2 and 3 min of UV-B exposure effectively increased the level of UV-B absorbing compounds and total phenolics in flavedo without causing visual alterations of the peel colour as compared with non-irradiated lemons. By contrast, there were no significant changes in albedo secondary metabolite accumulation. The amount of secondary metabolites was depending upon UV-B time–dose. Exposure over 3.0 min did not further improve the accumulation of UV-B absorbing and phenolic compounds. Soluble sugars (sucrose, glucose and fructose) also accumulated in the lemon peel after UV-B exposure, but the distribution patterns were different. After 3 min time–dose, sucrose and hexoses increased in flavedo, whereas in albedo only increased the sucrose and glucose. This effect was related to UVB-induced changes in the activity of sucrose-hydrolyzing and sucrose-synthesizing enzymes: soluble and cell-bound invertase, sucrose synthase (SS) and sucrose phosphate synthase (SPS). Data indicate that lemon peel retains the capacity to modify the enzyme activity of sucrose metabolism in response to UV-B exposure. Our results also suggest that the exposure of postharvest lemons to low supplemental UV-B doses produces changes in the carbon allocation of peel tissues including synthesis, but probably not only limited to them, of UV-B absorbing and phenolic compounds.