Application of 5-azacytidine induces DNA hypomethylation and accelerates dormancy release in buds of tree peony

Release of bud dormancy is a prerequisite for the growth resumption and production in perennial plants such as tree peony. DNA methylation plays a pivotal role in regulating gene expression. In this study, combination of morphologic observation and DNA methylation analysis indicated that 5-azacytidine (5-azaC) application for 7 d declined 5 mC quantities and promoted dormancy release. After 5-azaC treatment, total 174,341 unigenes and 1818 differentially expression genes (DEGs) were obtained by RNA-seq, of which there were 1194 DEGs after 1 d 5-azaC treatment (AD1 vs CD1), and 624 DEGs after 7 d (AD7 vs CD7), respectively. The KEGG pathway analysis identified that totally 10 DEGs annotated in DNA replication pathway were enriched when AD7 compared with CD7. Furthermore, the expression patterns of several DEGs by real-time quantitative RT-PCR were consistent with that of RNA-seq data. 5-azaC application significantly decreased the expression levels of DNA methyltransferase genes, PsCMT3, PsMET1 and PsDRM2, and increased the transcript of demethylase gene PsROS1. Simultaneously, total methyltransferases activity decreased, and demethylase activity was induced by 5-azaC. In summary, application of 5-azaC inhibited the expression of the genes related to growth and development in short-term, indicating a possible toxic effect to plant, and its long-term effect was to induce hypomethylation by increasing demethylase genes transcripts and decreasing the expressions of methyltransferase genes, and then activate cell cycle, DNA replication and glycol-metabolism processes, which subsequently accelerated dormancy release. All these would provide a new strategy to further understand the molecular mechanism of dormancy release in tree peony.