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The Photomorphogenic Central Repressor COP1: Conservation and Functional Diversification during Evolution

Xue Han, Xi Huang, Xing Wang Deng

2020Plant Communications184 citationsDOIOpen Access PDF

Abstract

, light signals are perceived by photoreceptors and transmitted through divergent but overlapping signaling networks to modulate plant photomorphogenic development. COP1 (CONSTITUTIVE PHOTOMORPHOGENIC 1) was first cloned as a central repressor of photomorphogenesis in higher plants and has been extensively studied for over 30 years. It acts as a RING E3 ubiquitin ligase downstream of multiple photoreceptors to target key light-signaling regulators for degradation, primarily as part of large protein complexes. The mammalian counterpart of COP1 is a pluripotent regulator of tumorigenesis and metabolism. A great deal of information on COP1 has been derived from whole-genome sequencing and functional studies in lower green plants, which enables us to illustrate its evolutionary history. Here, we review the current understanding about COP1, with a focus on the conservation and functional diversification of COP1 and its signaling partners in different taxonomic clades.

Topics & Concepts

PhotomorphogenesisBiologyUbiquitin ligaseArabidopsisRepressorRegulatorGeneticsUbiquitinCell biologyEvolutionary biologyGeneTranscription factorMutantLight effects on plantsPhotosynthetic Processes and MechanismsPlant Molecular Biology Research
The Photomorphogenic Central Repressor COP1: Conservation and Functional Diversification during Evolution | Litcius