Genome-wide analysis of DNA methylation reveals significant impact of two typical high temperature stress on biological functions in Apostichopus japonicus

Abstract

Sea cucumber Apostichopus japonicus, an important marine benthic animal, is particularly sensitive to environmental temperature stress, which affected the growth, metabolism, and reproduction even survival. In this study, we used whole genome bisulfite sequencing (WGBS) to perform a comprehensive comparative analysis of the DNA methylation profiles of A. japonicus at three temperatures: normal (20 °C), aestivation (26 °C), and lethal (32 °C). The results showed that the total methylation level was highest in group T26 and lowest in group T32. Most of the DNA methylation occurred on the C bases of the CG type, and the degree of DNA methylation on the CG-type C bases was 13.32–14.99%, reflecting a moderate level of DNA methylation. Comparison of differentially methylated regions (DMRs) in the CG sequence context, we identified 17,174 DMRs in group T26_vs_T20 and 16,216 DMRs in group T32_vs_T26. There were more hypermethylated regions than hypomethylated regions, and this difference was more obvious in group T32_vs_T26. DMRs analysis of the promoter regions and the gene body regions identified more DMR-related genes in the gene body region than in the promoter region in both comparison groups (T26_vs_T20 and T32_vs_T26). GO and KEGG analysis showed that pathways such as protein processing in the endoplasmic reticulum, ubiquitin mediated proteolysis, and endocytosis, etc., were highly enriched in the DMR-related genes in the comparison groups. Some of these pathways that were significantly enriched in the hypermethylated genes in group T26_vs_T20 but were enriched in the hypomethylated genes in group T32_vs_T26. Enrichment analysis of genes both differentially methylated and differentially expressed showed that downregulated genes in group T32_vs_T26 that were also hypomethylated in the gene body region were significantly enriched in the metabolic and the antioxidant-related glutathione metabolism pathway. Our results suggested that DNA methylation develop a lot of variation in the regulation of the response of A. japonicus to two levels of heat stress: at aestivation temperature and at lethal temperature, and there are many differences between the two. The results of this study provide important insights into the epigenetic mechanisms underlying the response of A. japonicus to the pressure of environmental temperature.