CHANGES INDUCED BY LOW LIGHT INTENSITIES ON THE PROLAMELLAR BODY OF 8‐DAY, DARK‐GROWN SEEDLINGS

Etioplasts of 8‐day‐old, dark‐grown seedlings of Phaseolus vulgaris contain large, crystalline prolamellar bodies. The basic structural unit within the prolamellar body is a six‐pointed star (star module) with four tubules fusing at each of the nodes. With sufficient illumination some of the tubules are withdrawn and the crystalline prolamellar body transforms to a complex tangle of tubules, the reacted prolamellar body. In vivo spectrophotometry and electron microscopic observations were carried out on portions of the same leaves after varying periods of illumination with low light intensity. Protochlorophyllide transformation was normal. However, the structural changes are not closely tied to protochlorophyllide conversion. The pigment conversion is complete after 20 sec of illumination, but 80% of the prolamellar bodies are still in the crystalline form after 20 min of illumination. After 1 and 2 hr of illumination all prolamellar bodies are reacted. After 4 hr of continuous illumination 35%, and by 12 hr 60%, of the prolamellar bodies returned to the crystalline form. Spectrophotometric evidence and presence of grana show chlorophyll synthesis during this period. The coexistence of grana and the crystalline prolamellar body indicates that when insufficient photosynthetic membrane constituents are provided by the photo‐reactions, under low light intensity, the membranes of the reacted prolamellar body will be forced to reform a crystalline prolamellar body.