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Insights into plant regeneration: cellular pathways and DNA methylation dynamics

Seunga Lee, Y. S. Park, Ji Hoon Rhee, Hyojeong Chu, Jennifer M. Frost, Yeonhee Choi

2024Plant Cell Reports20 citationsDOIOpen Access PDF

Abstract

Plants, known for their immobility, employ various mechanisms against stress and damage. A prominent feature is the formation of callus tissue-a cellular growth phenomenon that remains insufficiently explored, despite its distinctive cellular plasticity compared to vertebrates. Callus formation involves dedifferentiated cells, with a subset attaining pluripotency. Calluses exhibit an extraordinary capacity to reinitiate cellular division and undergo structural transformations, generating de novo shoots and roots, thereby developing into regenerated plants-a testament to the heightened developmental plasticity inherent in plants. In this way, plant regeneration through clonal propagation is a widely employed technique for vegetative reproduction. Thus, exploration of the biological components involved in regaining pluripotency contributes to the foundation upon which methods of somatic plant propagation can be advanced. This review provides an overview of the cellular pathway involved in callus and subsequent de novo shoot formation from already differentiated plant tissue, highlighting key genes critical to this process. In addition, it explores the intricate realm of epigenetic regulatory processes, emphasizing the nuanced dynamics of DNA methylation that contribute to plant regeneration. Finally, we briefly discuss somaclonal variation, examining its relation to DNA methylation, and investigating the heritability of epigenomic changes in crops.

Topics & Concepts

BiologyEpigeneticsDNA methylationSomaclonal variationEpigenomicsRegeneration (biology)TotipotentCallusSomatic cellPlant evolutionCell biologyReprogrammingSomatic embryogenesisGeneticsCellular differentiationTissue cultureGeneGenomeEmbryoGene expressionEmbryogenesisIn vitroPlant Molecular Biology ResearchPlant tissue culture and regenerationPlant Genetic and Mutation Studies
Insights into plant regeneration: cellular pathways and DNA methylation dynamics | Litcius