Substrate- and species-specific processing enzymes for chloroplast precursor proteins.

Using different precursors of chloroplast proteins and stromal extracts from both Chlamydomonas reinhardii and pea chloroplasts, we analysed the specificity of stroma-localized processing peptidases. By gel filtration of a stromal extract from isolated Chlamydomonas chloroplasts, fractions could be separated containing enzymic activities for processing the precursors of the small subunit of ribulose-1,5-bisphosphate carboxylase (pSS) and of the protein OEE1 from the photosynthetic water-splitting complex (pOEE1). The enzymes differed not only in molecular size, but also in their sensitivity to inhibitors and in their pH optima. Obviously, in the stroma of Chlamydomonas chloroplasts different peptidases exist for processing of pSS and pOEE1, the latter being converted into an intermediate-sized form, iOEE1, which was found to be further processed to mature OEE1 by a thylakoid-associated protease. To study the species-specificity of the stromal peptidases, stromal extracts from Chlamydomonas and pea chloroplasts were incubated with pSS from either of these organisms. In the heterologous combinations, the precursors were partly hydrolysed, but not to the correct size. In importation assays, pSS from pea (but also the precursor of the ribosomal protein L12 from spinach) could not enter into chloroplasts from Chlamydomonas. In contrast, the algal pSS was imported into chloroplasts from pea, although it was not processed to mature SS. Our results indicate that the importation machinery and the pSS-processing enzymes in higher plants and green algae have different specificities and that in Chlamydomonas several stromal peptidases for different precursor proteins exist.