Abstract
Using the detergents n-dodecyl beta-D-maltoside and heptyl thioglycopyranoside, a subcore complex of photosystem II (PSII) has been isolated that contains the chlorophyll-binding protein, CP47, and the reaction center components, D1, D2, and cytochrome b559. We have found, by using sucrose density centrifugation, that the resulting preparation consisted of a mixture of dimeric and monomeric forms of the CP47 reaction center (RC) complex, having molecular masses of 410 +/- 30 and 200 +/- 28 kDa, respectively, as estimated by size exclusion chromatography. The level of the dimer in the preparation is significantly higher than the monomeric form. Both the monomer and dimer contain the proteins CP47, D1, and D2 and the alpha- and beta-subunits of cytochrome b559. Analyses by mass spectrometry and N-terminal sequencing showed that both forms of the CP47-RC complex contain the products of the psbI, psbTc (chloroplast gene), and psbW with molecular masses of 4195.5, 3849.6, and 5927.4 Da, respectively. In contrast to the monomeric form, the CP47-RC dimer contained two extra proteins with low molecular weights, identified as the products of the psbL and psbK genes having molecular masses of 4365.5 and 4292.1, respectively. It was also found that the dimer contained slightly more molecules of chlorophyll a (21 +/- 2.5) than the monomer (18 +/- 1.5), a characteristic also observed in the room temperature absorption spectrum by comparing the ratio of absorption at 416 and 435 nm. Of particular note was the finding that the dimer, but not the monomer, contained plastoquinone-9 (estimated to be 1.5 +/- 0.3 molecules per RC). The results indicate that the CP47-RC monomer is derived from the dimeric form of the complex, and therefore the latter is likely to represent an in vivo conformation. The PsbTc as well as the PsbI and PsbW proteins are identified as being intimately associated with the D1 and D2 proteins, and in the case of the dimer, importance is placed on the PsbL and PsbK proteins in sustaining plastoquinone binding and maintenance of the dimeric organization. Assuming only one copy of the alpha- and beta-subunits of cytochrome b559, the monomeric and dimeric forms of the complex would be expected to contain 21 and 23 x 2 transmembrane helices, respectively.
Highlights
Taking place in all higher plants, algae, and cyanobacteria
Isolation of CP47-reaction center (RC) Subcore Complex and Fractionation to Its Monomeric and Dimeric Forms—After Tris washing the photosystem II (PSII)-enriched membranes, in order to remove the extrinsic proteins of the oxygen-evolving complex (33, 23, and 17-kDa polypeptides), the sample was solubilized with a mixture of two nonionic detergents, DM and heptyl thioglycopyranoside (HTG)
The CP47-RC complex was separated from the Isolation and Characterization of CP47-RC PSII Complexes solubilized PSII components using ion exchange chromatography
Summary
Taking place in all higher plants, algae, and cyanobacteria. This reaction is catalyzed by a complex known as photosystem II (PSII) which is embedded in the lipid bilayer of the thylakoid membrane. Using single particle analysis by electron microscopy, the top and side views of a large (725-kDa) PSII particle isolated from spinach have been described at about 25-Å resolution [6] This particle, which is dimeric, contains the PSII core and a complement of chlorophyll a/b-binding proteins (LHCII (Lhcb and -2), CP29 (Lhcb6), and CP26 (Lhcb5)), totaling about 100 chlorophyll molecules/RC [7]. Since this LHCII-PSII supercomplex is isolated using a mild detergent treatment and maintains high oxygen evolving activity, it seems highly likely that it represents an in vivo form of PSII [7]. It was found that the unit cell in the two-dimensional crystals contained two dimers of the CP47-RC complex and that the size of the dimer was compatible with a central location in the LHCII1⁄7PSII supercomplex [9]
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