Properties of reformed prolamellar bodies from illuminated and redarkened etiolated wheat plants

Abstract

Prolamellar bodies were isolated from etiolated leaves of wheat (Triticum aestivum L. cv. Walde, Weibull), which were illuminated for 4 h and then grown in darkness for 16 h. The inner etiochloroplast membranes were isolated by differential centrifugation, and prolamellar bodies and thylakoids were separated on a 10–50% continuous sucrose density gradient. The reformed prolamellar bodies contained phototransformable protochlorophyllide as the main pigment as shown by low temperature fluorescence spectra and high performance liquid chromatography. After illumination with 3 flashes of white light almost all of the protochlorophyllide was transformed to chlorophyllide. In the thylakoids, however, most of the protochlorophyllide was not phototransformed. The reformed prolamellar bodies and the thylakoids showed a fluorescence emission ratio 657/633 nm of 5.6 and 0.5, respectively. Both membrane systems contained also chlorophyllide and chlorophyll synthesized during the illumination. Polyacrylamide gel electrophoresis showed the main chlorophyllide oxidoreductasse.Teransmission and scanning electron micrographs indicated that the reformed prolamellar bodies are mainly of the “narrow” type and that the prolamellar body fraction had only a minor contamination with thylakoid membranes.The results obtained showed that reformed prolamellar bodies isolated from illuminated redarkened etiolated wheat leaves had features very similar to the prolamellar bodies isolated from etiolated leaves. This provides support for the idea that prolamellar bodies are an important natural membrane system which plays a dynamic role in the development of the etio‐chloroplasts in light.