期刊
PLANT SCIENCE
卷 325, 期 -, 页码 -出版社
ELSEVIER IRELAND LTD
DOI: 10.1016/j.plantsci.2022.111451
关键词
Phyllostachys edulis; DNA methylation; Non -coding RNAs; Transcription patterns; Abiotic stress
资金
- National Natural ence Foundation of China [31870656]
- Zhejiang cial Natural Science Foundation of China [LZ19C160001]
- State Key Laboratory of Subtropical Silviculture [KF202004]
- Scientific Research and Development Fund of Zhejiang AF versity [2020FR012]
This study firstly reports the abiotic stress-responsive DNA methylation pattern and its involvement in the expression of coding RNAs and non-coding RNAs in Moso bamboo. The results show that DNA methylation in different contexts is associated with gene expression in the promoter region and gene body region. Moreover, the methylation levels of different contexts in the genic regions are correlated with the transcript abundance of non-coding RNAs.
Epigenetic changes play an important role in plant growth and development and in stress response. However, DNA methylation pattern and its relationship with the expression changes of non-coding RNAs and mRNAs of Moso bamboo in response to abiotic stress is still largely unknown. In this work, we used whole-genome bisulfite sequencing in combination with whole-transcriptome sequencing to analyze the DNA methylation and transcription patterns of mRNAs and non-coding RNAs in Moso bamboo under abiotic stresses such as cold, heat, ultraviolet (UV) and salinity. We found that CHH methylation in the promoter region was positively correlated with gene expression, while CHG and CHH methylations in the gene body regions were negatively associated with gene expression. Moreover, CG and CHG methylations in the promoter regions were negatively correlated with the transcript abundance of long non-coding RNAs (lncRNAs), microRNAs (miRNAs) and circular RNAs (circRNAs). Similarly, the methylation levels of three contexts in the genic regions were negatively correlated with the transcript abundance of lncRNAs and miRNAs but positively correlated with that of circRNAs. In addition, we suggested that the reduction of 21-nt and 24-nt small interfering RNA (siRNA) expression tended to increase methylation levels in the genic regions. We found that stress-responsive genes such as CRPK1, HSFB2A and CIPK were differentially methylated and expressed. Our results also proposed that DNA methylation may regulate the expression of the transcription factors (TFs) and plant hormone signalling genes such as IAA9, MYC2 and ERF110 in response to abiotic stress. This study firstly reports the abiotic stress-responsive DNA methylation pattern and its involvement of expression of coding RNAs and non-coding RNAs in Moso bamboo. The results expand the knowledge of epigenetic mechanisms in Moso bamboo under abiotic stress and support in-depth deciphering of the function of specific non-coding RNAs in future studies.
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