Selective replacement of the active and inactive pheophytin in reaction centres of Photosystem II by 13(1)-deoxo-13(1)-hydroxy-pheophytin a and comparison of their 6 K absorption spectra

Pheophytin a (Pheo) in Photosystem II reaction centres was exchanged for 13(1)-deoxo-13(1)-hydroxy-pheophytin a (13(1)-OH-Pheo). The absorption bands of 13(1)-OH-Pheo are blue-shifted and well separated from those of Pheo. Two kinds of modified reaction centre preparations can be obtained by applying the exchange procedure once (RC(1x)) or twice (RC(2x)). HPLC analysis and Pheo Q(X) absorption at 543 nm show that in RC(1x) about 50% of Pheo is replaced and in RC(2x) about 75%. Otherwise, the pigment and protein composition are not modified. Fluorescence emission and excitation spectra show quantitative excitation transfer from the new pigment to the emitting chlorophylls. Photoaccumulation of Pheo(-) is unmodified in RC(1x) and decreased only in RC(2x), suggesting that the first exchange replaces the inactive and the second the active Pheo. Comparing the effects of the first and the second replacement on the absorption spectrum at 6 K did not reveal substantial spectral differences between the active and inactive Pheo. In both cases, the absorption changes in the Q(Y) region can be interpreted as a combination of a blue shift of a transition at 684 nm, a partial decoupling of chlorophylls absorbing at 680 nm and a disappearance of Pheo absorption in the 676-680 nm region. No absorption decrease is observed at 670 nm for RC(1x) or RC(2x), showing that neither of the two reaction centre pheophytins contributes substantially to the absorption at this wavelength.