Authors
Yan Wang, Chunhui Hou, Nathan C Rockwell, Pawel Brzezowski, Weiqing Zhang, Xiahe Huang, Qiuling Fan, Yingchun Wang, Bernhard Grimm, J Clark Lagarias, Deqiang Duanmu
Published in
Proceedings of the National Academy of Sciences of the United States of America. Volume 123. Issue 28. Pages e2533100123. Jul 14, 2026. Epub Jul 07, 2026.
Abstract
In the green alga Chlamydomonas reinhardtii, loss of chlorophyll synthesis under light stress is associated with degradation of the porphyrin-binding H-subunit (CHLH1) of magnesium chelatase (MgCh). This degradation is exacerbated by the absence of GENOMES UNCOUPLED 4 protein (GUN4) or its phycocyanobilin (PCB) ligand. PCB is synthesized from heme via the action of heme oxygenase HMOX1 followed by a ferredoxin-dependent bilin reductase (FDBR), a ubiquitous enzyme family in oxyphototrophs. We show that C. reinhardtii cells lacking GUN4 and/or HMOX1 accumulate the MgCh substrate protoporphyrin IX (PPIX), a potent generator of singlet oxygen (1O2). CHLH1 is unstable in gun4 or hmox1 mutants, phenotypes that can be rescued by deletion of known cytosolic 1O2 response proteins SAK1 or SOR1. GUN4 Trp residues are oxidized in the presence of PPIX and near-ultraviolet light (nUV), and spectroscopic changes in GUN4 seen in the presence of PCB are ablated by PPIX and nUV. The combination of PPIX, PCB, and nUV result in formation of covalent GUN4-bilin adducts. Such adducts are formed both in vivo and in vitro and are also formed in GUN4 proteins from cyanobacteria and plants. In GUN4 variants, loss of adduct formation correlates with Chlamydomonas growth defects under light stress. We propose that phytobilin adduct formation provides a mechanism for detoxifying 1O2 and sustaining chlorophyll synthesis in the presence of light and oxygen, thereby explaining the ubiquity of FDBRs in eukaryotic algae.
PMID:
42412933
Bibliographic data and abstract were imported from PubMed on 08 Jul 2026.
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