Abstract: | The mutant pg 113, derived from Chlamydomonas reinhardii, arg2− mt+ (parent strain), completely lacks chlorophyll (Chl) b but is still able to grow under autotrophic conditions. The light-harvesting Chl
complex (LHCP) is absent. This is shown (a) by the lack of the corresponding signal in the CD spectrum of thylakoids and (b) by the absence of the band of the LHCP after electrophoresis of partially solubilized thylakoid membranes on lithium dodecyl sulfate polyacrylamide gels. All the other chlorophyll-protein complexes are present. In spite of the absence of the LHCP, all the polypeptide components of this complex are present in the mutant in the same ratios as in the parent strain, although in slightly reduced amounts. The LHC apoproteins are synthesized, processed and transported into the thylakoid membrane of the mutant. Moreover, the phosphorylation of thylakoid membrane polypeptides, which is related to the regulation of the energy distribution between Photosystem I and II, is the same in the mutant and in the parent strain, indicating that phosphorylation is not dependent on the presence of Chl b. Electron micrographs of thin sections of whole cells show that there are stacked regions of thylakoids in both the mutant and the parent strain chloroplasts. However, in the mutant, stacks are located near the chloroplast envelope, while long stretches or sometimes circles of unstacked membranes are found in the interior, mostly around the pyrenoid. |