White light-induced sugar distribution controls growth and osmotic properties in the coleoptile and the first leaf in Zea mays seedlings.

The correlation of white light-induced changes in osmotic concentration in the coleoptile and the first leaf and the growth rate of these organs in maize seedlings, was examined in relation to sugar distribution and invertase activity. One hour irradiation with white light decreased the osmotic concentration in basal zones of the coleoptile and increased it in the apical zones of the first leaf. The change in the osmotic concentration was positively correlated with the growth rate of both organs. The amount of total osmotic solutes in each zone was highly correlated with that of soluble sugars. Light decreased the activity of wall-bound invertase in the coleoptile, but increased it in the first leaf. A high correlation existed between the content of soluble sugars and invertase activity in both organs. During 1 h incubation in the light, ca 2 µmol of soluble sugars per seedling was lost from the coleoptile and gained in the first leaf. Light promoted sugar exudation from the excised coleoptile, but the amount of soluble sugar exuded represented 5% of sugar loss from the coleoptile in intact seedlings. These results indicate that in maize seedlings white light controls the growth rate of the coleoptile and the first leaf through the osmotic concentration. Light may have an osmoregulatory function in the control of sugar distribution between the coleoptile and the first leaf by regulating the activity of wall-bound invertase.