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Stress induced gene expression drives transient DNA methylation changes at adjacent repetitive elements.

ABSTRACT: Cytosine DNA methylation (mC) is a genome modification that can regulate the expression of coding and non-coding genetic elements. However, little is known about the involvement of mC in response to environmental cues. Using whole genome bisulfite sequencing to assess the spatio-temporal dynamics of mC in rice grown under phosphate starvation and recovery conditions, we identified widespread phosphate starvation-induced changes in mC, preferentially localized in transposable elements (TEs) close to highly induced genes. These changes in mC occurred after changes in nearby gene transcription, were mostly DCL3a-independent, and could partially be propagated through mitosis, however no evidence of meiotic transmission was observed. Similar analyses performed in Arabidopsis revealed a very limited effect of phosphate starvation on mC, suggesting a species-specific mechanism. Overall, this suggests that TEs in proximity to environmentally induced genes are silenced via hypermethylation, and establishes the temporal hierarchy of transcriptional and epigenomic changes in response to stress.

SUBMITTER: Secco D 

PROVIDER: S-EPMC4534844 | biostudies-literature | 2015

REPOSITORIES: biostudies-literature

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Stress induced gene expression drives transient DNA methylation changes at adjacent repetitive elements.

Secco David D   Wang Chuang C   Shou Huixia H   Schultz Matthew D MD   Chiarenza Serge S   Nussaume Laurent L   Ecker Joseph R JR   Whelan James J   Lister Ryan R  

eLife 20150721

Cytosine DNA methylation (mC) is a genome modification that can regulate the expression of coding and non-coding genetic elements. However, little is known about the involvement of mC in response to environmental cues. Using whole genome bisulfite sequencing to assess the spatio-temporal dynamics of mC in rice grown under phosphate starvation and recovery conditions, we identified widespread phosphate starvation-induced changes in mC, preferentially localized in transposable elements (TEs) close  ...[more]

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