New insights into plant somatic embryogenesis: an epigenetic view

Abstract

Somatic embryogenesis plays a significant role in plant regeneration and requires complex cellular, molecular, and biochemical processes for embryo initiation and development associated with plant epigenetics. Epigenetic regulation encompasses many sensitive events and plays a vital role in gene expression through DNA methylation, chromatin remodelling, and small RNAs. Recently, regulation of epigenetic mechanisms has been recognized as the most promising occurrences during somatic embryogenesis in plants. A few reports demonstrated that the level of DNA methylation can alter in embryogenic cells under in vitro environments. Changes or modification in DNA methylation patterns is linked with regulatory mechanisms of various candidate marker genes, involved in the initiation and development of somatic embryogenesis in plants. This review summarizes the current scenario of the role of epigenetic mechanisms as candidate markers during somatic embryogenesis. It also delivers a comprehensive and systematic analysis of more recent discoveries on expression of embryogenic-regulating genes during somatic embryogenesis, epigenetic variation. Biotechnological applications of epigenetics as well as new opportunities or future perspectives in the development of somatic embryogenesis studies are covered. Further research on such strategies may serve as exciting interaction models of epigenetic regulation in plant embryogenesis and designing novel approaches for plant productivity and crop improvement at molecular levels.