Heterochromatin in Plants - Structure, Function and Epigenetic Regulation

• DOI: https://doi.org/10.22533/at.ed.81351025240610

• Palavras-chave: heterochromatin; plants; epigenetics; DNA

• Keywords: heterochromatin; plants; epigenetics; DNA

• Abstract:

  Heterochromatin is a highly condensed form of chromatin, essential for genomic organization and gene regulation in eukaryotes. In plants, its importance is amplified by the complexity of their genomes, which are rich in transposable elements and often result from polyploidy events. This review addresses the structure, functions and epigenetic regulation of plant heterochromatin. Structurally, it is characterized by densely packed nucleosomes, repressive histone modifications (H3K9me, H3K27me) and specific DNA methylation patterns (CG, CHG, CHH), established and maintained by reader proteins and chromatin remodellers. Their functions include silencing transposable elements, maintaining chromosome stability and regulating development and response to environmental stresses. Epigenetic regulation, notably the RNA-directed DNA methylation (RdDM) pathway, demonstrates the plasticity and interconnectedness of molecular mechanisms that allow plants to adapt to dynamic environments. An in-depth understanding of heterochromatin offers vast opportunities for crop improvement and agricultural biotechnology.