文章基本信息

标题：Duration of cold exposure defines the rate of reactivation of a perennial FLC orthologue via H3K27me3 accumulation
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作者：Haruki Nishio ; Koji Iwayama ; Hiroshi Kudoh 等
期刊名称：Scientific Reports
电子版ISSN：2045-2322
出版年度：2020
卷号：10
期号：1
页码：1-9
DOI：10.1038/s41598-020-72566-7
出版社：Springer Nature
摘要：Vernalisation is the process in which long-term cold exposure makes plants competent to flower. In vernalisation of Arabidopsis thaliana, a floral repressor, AtFLC, undergoes epigenetic silencing. Although the silencing of AtFLC is maintained under warm conditions after a sufficient duration of cold, FLC orthologues are reactivated under the same conditions in perennial plants, such as A. halleri. In contrast to the abundant knowledge on cold requirements in AtFLC silencing, it has remained unknown how cold duration affects the reactivation of perennial FLC. Here, we analysed the dynamics of A. halleri FLC (AhgFLC) mRNA, H3K4me3, and H3K27me3 over 8 weeks and 14 weeks cold followed by warm conditions. We showed that the minimum levels of AhgFLC mRNA and H3K4me3 were similar between 8 and 14 weeks vernalisation; however, the maximum level of H3K27me3 was higher after 14 weeks than after 8 weeks vernalisation. Combined with mathematical modelling, we showed that H3K27me3 prevents a rapid increase in AhgFLC expression in response to warm temperatures after vernalisation, which controls AhgFT expression and the initiation of flowering. Thus, the duration of cold defines the rate of AhgFLC reactivation via the buffering function of H3K27me3 against temperature increase.
其他摘要：Abstract Vernalisation is the process in which long-term cold exposure makes plants competent to flower. In vernalisation of Arabidopsis thaliana , a floral repressor, AtFLC , undergoes epigenetic silencing. Although the silencing of AtFLC is maintained under warm conditions after a sufficient duration of cold, FLC orthologues are reactivated under the same conditions in perennial plants, such as A. halleri . In contrast to the abundant knowledge on cold requirements in AtFLC silencing, it has remained unknown how cold duration affects the reactivation of perennial FLC . Here, we analysed the dynamics of A. halleri FLC ( AhgFLC ) mRNA, H3K4me3, and H3K27me3 over 8 weeks and 14 weeks cold followed by warm conditions. We showed that the minimum levels of AhgFLC mRNA and H3K4me3 were similar between 8 and 14 weeks vernalisation; however, the maximum level of H3K27me3 was higher after 14 weeks than after 8 weeks vernalisation. Combined with mathematical modelling, we showed that H3K27me3 prevents a rapid increase in AhgFLC expression in response to warm temperatures after vernalisation, which controls AhgFT expression and the initiation of flowering. Thus, the duration of cold defines the rate of AhgFLC reactivation via the buffering function of H3K27me3 against temperature increase.