Light-induced Changes in the Ultrastructure of Pea Chloroplasts in Vivo: Relationship to Development and Photosynthesis |
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Authors: | Miller M M Nobel P S |
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Affiliation: | Department of Botanical Sciences and Molecular Biology Institute, University of California, Los Angeles, California 90024. |
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Abstract: | Light-induced structural changes of chloroplasts and their lamellae were studied in leaves of Pisum sativum L., cv. Blue Bantam, using electron microscopy. Upon illumination of 14-day-old plants with 2000 lux, the chloroplasts decreased in thickness by about 23% with an accompanying increase in electron scattering by the stroma. Concomitantly, the average thickness of granal lamellae (thylakoids) decreased from 195 ± 4 angstroms in the dark to 152 ± 4 angstroms in the light, and this change was half-saturated at only 50 lux. Lamellar flattening at 50 lux and its reversal in the dark both had half-times of a minute or less. The thickness of a partition (a pair of apposed lamellar membranes) was 140 ± 9 angstroms in both the light and the dark, indicating that the observed light-induced change was in the volume enclosed within the thylakoid. The effect of illumination could be inhibited by various uncouplers of photophosphorylation but not by 3-(3, 4-dichlorophenyl)-1, 1-dimethylurea, suggesting that it depended on ATP (or its precursor). In the presence of 0.5 micromolar nigericin, the thickness of the granal lamellae increased in the light to 213 ± 3 angstroms; this may reflect an uptake of K+ into an osmotically responding space within the thylakoids. |
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