The pig is an excellent animal model for simulating human physiology and a major animal for meat production and xenotransplantation. Therefore, researching porcine embryonic development is crucial for studying human reproductive diseases and improving litter size in commercial pigs. Embryonic development in pigs occurs under a complex regulatory mechanism, in which epigenetic regulatory mechanisms play an essential role. Recently, studies on the effects of epigenetic modifications on embryonic development have been conducted at different developmental stages and in different cell lines. Increasing evidence suggests that a certain amount of crosstalk exists between different epigenetic modifications. This review describes four regulatory mechanisms of epigenetics involved in porcine embryonic development: DNA methylation, histone modification, non-coding RNA function, and chromatin accessibility, and explores the possible crosstalk between them.

Summary Sentence

In this review, four epigenetic modifications (DNA methylation, histone modification, non-coding RNA function, and chromatin accessibility) were described in porcine embryonic development, and the possible crosstalk between them was explored in order to provide references for further understanding and studying the role of epigenetic modification in embryonic development.