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Control of retrograde signalling by protein import and cytosolic folding stress

2019; Nature Portfolio; Volume: 5; Issue: 5 Linguagem: Inglês

10.1038/s41477-019-0415-y

2055-0278

Guo‐Zhang Wu, Etienne H. Meyer, Andreas S. Richter, Maja Schuster, Qihua Ling, Mark Aurel Schöttler, Dirk Walther, Reimo Zoschke, Bernhard Grimm, Paul Jarvis, Ralph Bock,

ATP Synthase and ATPases Research

Communication between organelles and the nucleus is essential for fitness and survival. Retrograde signals are cues emitted from the organelles to regulate nuclear gene expression. GENOMES UNCOUPLED1 (GUN1), a protein of unknown function, has emerged as a central integrator, participating in multiple retrograde signalling pathways that collectively regulate the nuclear transcriptome. Here, we show that GUN1 regulates chloroplast protein import through interaction with the import-related chaperone cpHSC70-1. We demonstrated that overaccumulation of unimported precursor proteins (preproteins) in the cytosol causes a GUN phenotype in the wild-type background and enhances the GUN phenotype of the gun1 mutant. Furthermore, we identified the cytosolic HSP90 chaperone complex, induced by overaccumulated preproteins, as a central regulator of photosynthetic gene expression that determines the expression of the GUN phenotype. Taken together, our results suggest a model in which protein import capacity, folding stress and the cytosolic HSP90 complex control retrograde communication. Retrograde signalling ensures message communication between organelles and the nucleus. A pivotal regulator of plant retrograde signalling, GENOMES UNCOUPLED1, is now found to regulate protein import into chloroplast during chloroplast biogenesis or under stress conditions.