Formation of the Pigment Apparatus in Etiolated Barley Leaves under the Influence of Levulinic Acid

Abstract

The effects of levulinic acid (LA) on the synthesis of pigments and the membrane system of etioplasts were studied in etiolated leaves of barley (Hordeum vulgare L.). Growing in the solution of LA during a six-day period, which started one day after the soaking of seeds, resulted in a retardation of leaf growth, more than a twofold decrease in the level of carotenoids and protochlorophyllide (Pd) in the leaf tissue, and suppression of the synthesis of long-wave form of Pd655; these effects depended on the LA concentration. In etioplasts isolated from the seedlings treated with 50 μM LA and containing predominantly a short-wave form of Pd with a peak of fluorescence at 632 nm (–196°C), there was a membrane fraction whose location in the sucrose density gradient was identical to that of prolamellar bodies (PLB) in the control plants. The content of Pd and carotenoids in this fraction calculated on a protein basis was 2.46 and 1.3 times lower than in control seedlings, while the relative content of Pd oxidoreductase (POR) essentially did not change. Thus, the suppression of Pd synthesis did not affect translocation of POR from the cytoplasm to the membranes of etioplasts. In the PLB membranes, there was no transfer of energy from the molecules of lipophilic fluorescent probe pyrene (excitation at 337, 278, and 296 nm) to Pd; however, under pigment deficiency, the production therein of pyrene excimer form at the expense of energy transfer from protein tryptophanyls (excitation at 278 and 296 nm) became more efficient, which indicated changes in protein–lipid interactions. The obtained results suggest that the short-wave form of Pd632 accumulating in etioplasts under the suppressed synthesis of tetrapyrroles is not a free pigment.