Chlorophyll synthesis modulates retention of apoproteins of light‐harvesting complex II by the chloroplast in Chlamydomonas reinhardtii

Localization of apoproteins of the major light‐harvesting complex (LHCII) in Chl b ‐less cells of Chlamydomonas reinhardtii cbn 1–113 was determined by immunoelectron microscopy. In dark‐grown cells, a low amount of apoproteins was detected in cytoplasmic vacuoles. The amount in vacuoles, and in the cytosol, increased dramatically when the rate of protein synthesis was enhanced in the dark by raising the temperature to 38°C. After exposure of cells to light, the apoproteins accumulated also in the chloroplast. Mature‐sized apoproteins were recovered in an alkali‐soluble fraction of cellular proteins commensurate with accumulation in the cytoplasm. At 25°C, content of apoproteins in the chloroplast of pale‐green cells grown in medium lacking acetate was one‐half of the amount in cells grown with acetate, yet the total amount remained similar. Cytoplasmic vacuoles, which were nearly filled with immunoreactive, electron‐opaque material, were more abundant in cells grown without acetate as compared with cells grown with acetate. Accumulation of apoproteins outside of the chloroplast suggested that translocation into the organelle of a portion of the apoproteins, apparently synthesized in excess of the amount accommodated by Chl synthesis, was aborted after processing of precursors. These results suggested that assembly of LHCII was required for retention of apoproteins by the chloroplast.