Journal
BIOPHYSICAL JOURNAL
Volume 120, Issue 2, Pages 270-283Publisher
CELL PRESS
DOI: 10.1016/j.bpj.2020.11.2265
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Funding
- CW-VIDI grant of the Netherlands Organization of Scientific Research [723.012.103]
- Natural Sciences and Engineering Research Council of Canada
- uNMR-NL, a the-Netherlands-Organization-of-Scientific-Research [184.032.207]
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This study demonstrates the dynamic conformational transitions of photosynthetic light-harvesting complexes in different environments using solid-state NMR spectroscopy. Results show that LHCII in lipid bilayers undergoes fast, large-amplitude motions involving specific sites, including chlorophylls and protein fragments. The study also suggests that in thylakoid membranes, the dynamics of protein and pigment sites are significantly reduced compared to the membrane environment, indicating a specific conformational state for LHCII complexes.
Photosynthetic light-harvesting complexes (LHCs) of higher plants, moss, and green algae can undergo dynamic conformational transitions, which have been correlated to their ability to adapt to fluctuations in the light environment. Herein, we demonstrate the application of solid-state NMR spectroscopy on native, heterogeneous thylakoid membranes of Chlamydomonas reinhardtii (Cr) and on Cr light-harvesting complex II (LHCII) in thylakoid lipid bilayers to detect LHCII conformational dynamics in its native membrane environment. We show that membrane-reconstituted LHCII contains selective sites that undergo fast, large-amplitude motions, including the phytol tails of two chlorophylls. Protein plasticity is also observed in the N-terminal stromal loop and in protein fragments facing the lumen, involving sites that stabilize the xanthophyll-cycle carotenoid violaxanthin and the two luteins. The results report on the intrinsic flexibility of LHCII pigment-protein complexes in a membrane environment, revealing putative sites for conformational switching. In thylakoid membranes, fast dynamics of protein and pigment sites is significantly reduced, which suggests that in their native organelle membranes, LHCII complexes are locked in specific conformational states.
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