Role of an Ancient Light-harvesting Protein of PSI in Light Absorption and Photoprotection

Overview

Journal Nat Commun

Specialty Biology

Date 2021 Jan 30

PMID 33514722

Citations 10

Authors

Yandu Lu

Qinhua Gan

Masakazu Iwai

Alessandro Alboresi

Adrien Burlacot

Oliver Dautermann

Hiroko Takahashi

Thien Crisanto

Gilles Peltier

Tomas Morosinotto

Anastasios Melis

Krishna K Niyogi

Affiliations

Soon will be listed here.

Abstract

Diverse algae of the red lineage possess chlorophyll a-binding proteins termed LHCR, comprising the PSI light-harvesting system, which represent an ancient antenna form that evolved in red algae and was acquired through secondary endosymbiosis. However, the function and regulation of LHCR complexes remain obscure. Here we describe isolation of a Nannochloropsis oceanica LHCR mutant, named hlr1, which exhibits a greater tolerance to high-light (HL) stress compared to the wild type. We show that increased tolerance to HL of the mutant can be attributed to alterations in PSI, making it less prone to ROS production, thereby limiting oxidative damage and favoring growth in HL. HLR1 deficiency attenuates PSI light-harvesting capacity and growth of the mutant under light-limiting conditions. We conclude that HLR1, a member of a conserved and broadly distributed clade of LHCR proteins, plays a pivotal role in a dynamic balancing act between photoprotection and efficient light harvesting for photosynthesis.

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