Interaction of CPa-1 with the manganese-stabilizing protein of photosystem II: identification of domains on CPa-1 which are shielded from N-hydroxysuccinimide biotinylation by the manganese-stabilizing protein.

The structural organization of photosystem II proteins has been investigated by use of the amino group-labeling reagent N-hydroxysuccinimidobiotin (NHS-biotin) and calcium chloride-washed photosystem II membranes. We have previously shown that the presence of the extrinsic, manganese-stabilizing protein on photosystem II membranes prevents the modification of lysyl residues located on the chlorophyll protein CPa-1 (CP-47) by NHS-biotin [Bricker, T. M., Odom, W. R., & Queirolo, C. B. (1988) FEBS Lett. 231, 111-117]. Upon removal of the manganese-stabilizing protein by calcium chloride-washing, CPa-1 can be specifically modified by treatment with NHS-biotin. Preparative quantities of biotinylated CPa-1 were subjected to chemical cleavage with cyanogen bromide. Two major biotinylated peptides were identified with apparent molecular masses of 11.8 and 15.7 kDa. N-terminal sequence analysis of these peptides indicated that the 11.8-kDa peptide was 232G-330M and that the 15.7-kDa peptide was 360P-508V. The 15.7-kDa CNBr peptide was subjected to limited tryptic digestion. The two smallest tryptic fragments identified migrated at apparent molecular masses of 9.1 (nonbiotinylated) and 7.5 kDa (biotinylated). N-terminal sequence analysis and examination of the predicted amino acid sequences of these peptides suggest that the 9.1-kDa fragment was 422R-508V and that the 7.5-kDa fragment was 360P-421A. These results strongly suggest that two NHS-biotinylated domains, 304K-321K and 389K-419K, become exposed on CPa-1 when the manganese-stabilizing protein is removed by CaCl2 treatment. Both of these domains lie in the large extrinsic loop E of CPa-1.