Chlamydomonas State Transition Is Quiet Around Pyrenoid and Independent from Thylakoid Deformation

Abstract

AbstractPhotosynthetic organisms have developed a rapid regulation mechanism called state transition (ST) to rapidly adjust the excitation balance between two photosystems by light-harvesting complex II (LHCII) movement. Though many researchers have assumed coupling of the ultrastructural dynamics of the thylakoid membrane to the ST mechanism, how ST is related to the ultrastructural dynamic of the thylakoid in Chlamydomonas remains elusive. To clarify the above-mentioned relation, here we used two specialized microscope techniques, observation via the excitation-spectral microscope (ESM) developed recently by us and the super-resolution imaging based on structured illumination microscopy (SIM). The ESM observation revealed a highly reversible rearrangement of LHCII-related fluorescence. More importantly, it clarified lower ST activity in the region surrounding the pyrenoid, which is the specific subcellular compartment associated with the carbon-fixation reaction. On the other hand, the SIM observation resolved partially irreversible fine thylakoid transformations induced by the ST-inducing illumination. Fine irreversible thylakoid transformation was also observed for the Stt7-kinase-lacking mutant. This result, together with the nearly equal structural changes in the less active ST regions around the pyrenoid, suggested the independence of the observed fine structural changes from the LHCII phosphorylation.