Abstract
Isolated chloroplasts of Acetabularia incorporate radioactive amino acids into more than 30 polypeptides in the light, including the apoprotein of the P700-chlorophyll a protein complex, the reaction centre core of photosystem I [Biochim. Biophys. Acta, 609. 107-120 (1980)]. In this paper it is shown that the apoproteins of the two minor chlorophyll a complexes, thought to be part of photosystem II reaction centre core, are also synthesized by isolated chloroplasts. Furthermore, they are integrated correctly into the thylakoid membrane in the absence of any cytoplasmic contribution, such that they can be isolated as chlorophyll-protein complexes indistinguishable from those already in the membrane. In contrast, the minor chlorophyll a + b complex 'CP 29' [Camm, E. L. and Green, B. R. (1980) Plant Physiol. 66, 428-432] and its dimers are not synthesized by isolated chloroplasts. In this they resemble the other chlorophyll a + b complex, the light-harvesting complex (LHC). It may be significant that the LHC, which is not essential for photosynthetic activity, is under nuclear control, while the reaction centre polypeptides, cytochrome b559, and cytochrome f, are synthesized on chloroplast ribosomes.
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