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Adaptive evolution of chloroplast division mechanisms during plant terrestrialization

Moyang Liu, Jing Yu, Ming Yang, Lingyan Cao, Cheng Chen

2024Cell Reports17 citationsDOIOpen Access PDF

Abstract

Despite extensive research, the origin and evolution of the chloroplast division machinery remain unclear. Here, we employ recently sequenced genomes and transcriptomes of Archaeplastida clades to identify the core components of chloroplast division and reconstruct their evolutionary histories, respectively. Our findings show that complete division ring structures emerged in Charophytes. We find that Glaucophytes experienced strong selection pressure, generating diverse variants adapted to the changing terrestrial environments. By integrating the functions of chloroplast division genes (CDGs) annotated in a workflow developed using large-scale multi-omics data, we further show that dispersed duplications acquire more species-specific functions under stronger selection pressures. Notably, PARC6, a dispersed duplicate CDG, regulates leaf color and plant growth in Solanum lycopersicum, demonstrating neofunctionalization. Our findings provide an integrated perspective on the functional evolution of chloroplast division machinery and highlight the potential of dispersed duplicate genes as the primary source of adaptive evolution of chloroplast division.

Topics & Concepts

ChloroplastDivision (mathematics)BiologyPlant evolutionEvolutionary biologyComputational biologyGeneticsGenomeGeneMathematicsArithmeticPhotosynthetic Processes and MechanismsPlant Diversity and EvolutionPlant Parasitism and Resistance