DOI: 10.1073/pnas.2601782123 ISSN: 0027-8424
Lhcf2 in the peripheral antenna is essential for nonphotochemical quenching and Lhcx1 accumulation in the diatom
Chaetoceros gracilis
Jian Xing, Minoru Kumazawa, Kentaro Ifuku
Photosynthetic organisms must continuously balance efficient light harvesting with protection against excess excitation energy, a challenge met by nonphotochemical quenching (NPQ). Although the molecular components involved in NPQ have been extensively studied, how the essential energy-quenching site is assembled remains poorly understood, particularly in marine diatoms. Here, we show that in the centric diatom
Chaetoceros gracilis
, which belongs to one of the most abundant and diverse genera in marine phytoplankton, the light-harvesting complex (LHC) protein Lhcf2 is required for energy-dependent quenching (qE). Targeted knockout of Lhcf2 abolished qE by preventing the stable accumulation of Lhcx1, a core component of the NPQ effectors in this species. Lhcf2 localizes to the peripheral antenna system and associates with Lhcx1 in a higher-order complex suggested by biochemical and functional analyses. In contrast, other established NPQ-related factors, including the trans-thylakoid proton gradient and the accumulation of diatoxanthin, were not affected by the loss of Lhcf2. These results identify a non-Lhcx-type LHC protein as an essential structural component for qE-NPQ and establish a general design principle for the cooperative assembly of photoprotective energy-quenching sites in eukaryotic photosynthesis, with implications for marine carbon fixation.