[HTML][HTML] Gross morphological changes in thylakoid membrane structure are associated with photosystem I deletion in Synechocystis sp. PCC 6803

AML Van De Meene, WP Sharp, JH McDaniel… - … et Biophysica Acta (BBA …, 2012 - Elsevier
AML Van De Meene, WP Sharp, JH McDaniel, H Friedrich, WFJ Vermaas, RW Roberson
Biochimica et Biophysica Acta (BBA)-Biomembranes, 2012Elsevier
Cells of Synechocystis sp. PCC 6803 lacking photosystem I (PSI-less) and containing only
photosystem II (PSII) or lacking both photosystems I and II (PSI/PSII-less) were compared to
wild type (WT) cells to investigate the role of the photosystems in the architecture, structure,
and number of thylakoid membranes. All cells were grown at 0.5 μmol photons m− 2s− 1.
The lumen of the thylakoid membranes of the WT cells grown at this low light intensity were
inflated compared to cells grown at higher light intensity. Tubular as well as sheet-like …
Cells of Synechocystis sp. PCC 6803 lacking photosystem I (PSI-less) and containing only photosystem II (PSII) or lacking both photosystems I and II (PSI/PSII-less) were compared to wild type (WT) cells to investigate the role of the photosystems in the architecture, structure, and number of thylakoid membranes. All cells were grown at 0.5μmol photons m−2s−1. The lumen of the thylakoid membranes of the WT cells grown at this low light intensity were inflated compared to cells grown at higher light intensity. Tubular as well as sheet-like thylakoid membranes were found in the PSI-less strain at all stages of development with organized regular arrays of phycobilisomes on the surface of the thylakoid membranes. Tubular structures were also found in the PSI/PSII-less strain, but these were smaller in diameter to those found in the PSI-less strain with what appeared to be a different internal structure and were less common. There were fewer and smaller thylakoid membrane sheets in the double mutant and the phycobilisomes were found on the surface in more disordered arrays. These differences in thylakoid membrane structure most likely reflect the altered composition of photosynthetic particles and distribution of other integral membrane proteins and their interaction with the lipid bilayer. These results suggest an important role for the presence of PSII in the formation of the highly ordered tubular structures.
Elsevier
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