Hui Shang scite author profile

Hui Shang

3Publications

4Citation Statements Received

146Citation Statements Given

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Capital Normal University

Publications

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Dynamic Regulation of the Light-Harvesting System through State Transitions in Land Plants and Green Algae

Shang

Pan

2023

Plants

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Photosynthesis constitutes the only known natural process that captures the solar energy to convert carbon dioxide and water into biomass. The primary reactions of photosynthesis are catalyzed by the photosystem II (PSII) and photosystem I (PSI) complexes. Both photosystems associate with antennae complexes whose main function is to increase the light-harvesting capability of the core. In order to maintain optimal photosynthetic activity under a constantly changing natural light environment, plants and green algae regulate the absorbed photo-excitation energy between PSI and PSII through processes known as state transitions. State transitions represent a short-term light adaptation mechanism for balancing the energy distribution between the two photosystems by relocating light-harvesting complex II (LHCII) proteins. The preferential excitation of PSII (state 2) results in the activation of a chloroplast kinase which in turn phosphorylates LHCII, a process followed by the release of phosphorylated LHCII from PSII and its migration to PSI, thus forming the PSI–LHCI–LHCII supercomplex. The process is reversible, as LHCII is dephosphorylated and returns to PSII under the preferential excitation of PSI. In recent years, high-resolution structures of the PSI–LHCI–LHCII supercomplex from plants and green algae were reported. These structural data provide detailed information on the interacting patterns of phosphorylated LHCII with PSI and on the pigment arrangement in the supercomplex, which is critical for constructing the excitation energy transfer pathways and for a deeper understanding of the molecular mechanism of state transitions progress. In this review, we focus on the structural data of the state 2 supercomplex from plants and green algae and discuss the current state of knowledge concerning the interactions between antenna and the PSI core and the potential energy transfer pathways in these supercomplexes.

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Structural insights into the assembly and energy transfer of the Lhcb9-dependent photosystem I from moss Physcomitrium patens

et al. 2023

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Lhcb9-dependent photosystem I structure in moss reveals evolutionary adaptation to changing light conditions during aquatic-terrestrial transition

Sun

Shang

Pan

et al. 2023

Preprint

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In plants and green algae, light-harvesting complexes I and II (LHCI and LHCII) constitute the antennae of photosystem I (PSI), thus effectively increasing the cross-section of the PSI core. The moss Physcomitrium patens (P. patens) represents a well-studied evolutionary intermediate between green algae and flowering plants. P. patens possesses at least three types of PSI with different antenna sizes. The largest PSI form (PpPSI-L) exhibits a unique organization found neither in flowering plants nor in algae. Its formation is mediated by the P. patens-specific LHC protein, Lhcb9. While previous studies revealed the overall architecture of the PpPSI-L, its assembly details and the relationship between different PpPSI types remain unclear. Here, we report a high-resolution structure of the PpPSI-L. We identified 14 PSI core subunits, one Lhcb9, one phosphorylated LHCII trimer, and eight LHCI monomers arranged as two belts. Our structural analysis established the essential role of Lhcb9 and the phosphorylated LHCII in stabilizing the complex. In addition, our results suggest that PpPSI switches between three different types, which share identical modules. This feature may contribute to the quick and dynamic adjustment of the light-harvesting capability of PSI under different light conditions.

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Hui Shang

Dynamic Regulation of the Light-Harvesting System through State Transitions in Land Plants and Green Algae

Structural insights into the assembly and energy transfer of the Lhcb9-dependent photosystem I from moss Physcomitrium patens

Lhcb9-dependent photosystem I structure in moss reveals evolutionary adaptation to changing light conditions during aquatic-terrestrial transition

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