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Arabidopsis genomes uncoupled 5 ( GUN5 ) mutant reveals the involvement of Mg-chelatase H subunit in plastid-to-nucleus signal transduction

2001; National Academy of Sciences; Volume: 98; Issue: 4 Linguagem: Inglês

10.1073/pnas.98.4.2053

1091-6490

Nobuyoshi Mochizuki, Judy A. Brusslan, Robert M. Larkin, Akira Nagatani, Joanne Chory,

Lipid metabolism and biosynthesis

A plastid-derived signal plays an important role in the coordinated expression of both nuclear- and chloroplast-localized genes that encode photosynthesis-related proteins. Arabidopsis GUN ( g enomes un coupled) loci have been identified as components of plastid-to-nucleus signal transduction. Unlike wild-type plants, gun mutants have nuclear Lhcb1 expression in the absence of chloroplast development. We observed a synergistic phenotype in some gun double-mutant combinations, suggesting there are at least two independent pathways in plastid-to-nucleus signal transduction. There is a reduction of chlorophyll accumulation in gun4 and gun5 mutant plants, and a gun4gun5 double mutant shows an albino phenotype. We cloned the GUN5 gene, which encodes the ChlH subunit of Mg-chelatase. We also show that gun2 and gun3 are alleles of the known photomorphogenic mutants, hy1 and hy2 , which are required for phytochromobilin synthesis from heme. These findings suggest that certain perturbations of the tetrapyrrole biosynthetic pathway generate a signal from chloroplasts that causes transcriptional repression of nuclear genes encoding plastid-localized proteins. The comparison of mutant phenotypes of gun5 and another Mg-chelatase subunit (ChlI) mutant suggests a specific function for ChlH protein in the plastid-signaling pathway.