| Popis: |
The polypeptide pattern, chlorophyll-protein complexes, fluorescence emission spectra and light intensity required for saturation of electron flow via Photosystem (PS) II and PS I in a pale-green photoautotrophic mutant, y-lp, were compared to those of the parent strain, Chlamydomonas reinhardii y-1 cells. The mutant exhibits a 686 nm fluorescence yield at 25°C and 77 K 2–6-fold higher than that of the parent strain cells, and is deficient in thylakoid polypeptides 14, 17.2, 18 and 22 according to the nomenclature of Chua (Chua, N.-H. (1980) Methods Enzymol. 60C, 434–446). All chlorophyll-protein complexes ascribed to PS II and the CP I complex were present in both type of cells. However, a chlorophyll-protein complex CP Ia containing — in the parent strain — the 66–68 kDa polypeptides of CP I and the four above-mentioned polypeptides, was absent in the mutant. It was previously reported that a chlorophyll-protein complex, CP O, obtained from C. reinhardii contains five polypeptides, namely, 14, 15, 17.2, 18 and 22 (Wollman, F.A. and Bennoun, P. (1982) Biochim. Biophys. Acta 680, 352–360). A CP O-like complex was present also in the mutant y-lp cells but it contains only one polypeptide, 15. Energy transfer from PS II to PS I was not impaired in the mutant, although a 4-fold higher light intensity was required for the saturation of PS I electron flow in the y-lp cells as compared with the parent strain. No difference was found in the light saturation curves for PS II activity between the mutant and parent strain cells. Based on these and additional data (Gershoni, J.M., Shochat, S., Malkin, S. and Ohad, I. (1982) Plant Physiol. 70, 637–644), it is concluded that the chlorophyll-protein complexes of PS I in Chlamydomonas comprise a reaction center-core antenna complex containing the 66–68 kDa polypeptides (CP I), a connecting antenna consisting of four polypeptides (14, 17.2, 18 and 22), and a light-harvesting antenna containing one polypeptide, 15. These appear to be organized as a complex, CP Ia. The interconnecting antenna is deficient in the y-lp mutant and thus the CP Ia complex is unstable and energy is not transferred from CP O to CP I. The effective cross-section of PS I antenna is thus reduced and a high fluorescence is emitted at 686 nm. |
