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Processes independent of nonphotochemical quenching protect a high-light-tolerant desert alga from oxidative stress

Guy Levin, Michael Yasmin, Oded Liran, Rawad Hanna, Oded Kleifeld, Guy Horev, Françis-André Wollman, Gadi Schuster, Wojciech J. Nawrocki

2024PLANT PHYSIOLOGY23 citationsDOIOpen Access PDF

Abstract

Nonphotochemical quenching (NPQ) mechanisms are crucial for protecting photosynthesis from photoinhibition in plants, algae, and cyanobacteria, and their modulation is a long-standing goal for improving photosynthesis and crop yields. The current work demonstrates that Chlorella ohadii, a green microalga that thrives in the desert under high light intensities that are fatal to many photosynthetic organisms does not perform nor require NPQ to protect photosynthesis under constant high light. Instead of dissipating excess energy, it minimizes its uptake by eliminating the photosynthetic antenna of photosystem II. In addition, it accumulates antioxidants that neutralize harmful reactive oxygen species (ROS) and increases cyclic electron flow around PSI. These NPQ-independent responses proved efficient in preventing ROS accumulation and reducing oxidative damage to proteins in high-light-grown cells.

Topics & Concepts

PhotosynthesisPhotoinhibitionPhotosystem IIQuenching (fluorescence)Non-photochemical quenchingChlorellaReactive oxygen speciesChemistryCyanobacteriaBiophysicsChlorophyll fluorescenceAlgaeBotanyBiologyBiochemistryBacteriaFluorescenceGeneticsPhysicsQuantum mechanicsAlgal biology and biofuel productionBiocrusts and Microbial EcologyPhotosynthetic Processes and Mechanisms
Processes independent of nonphotochemical quenching protect a high-light-tolerant desert alga from oxidative stress | Litcius