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SUMMARY The DOMAINS REARRANGED METHYLTRANSFERASEs (DRMs) are crucial for RNA‐directed DNA methylation (RdDM) in plant species.Setaria viridisis a model monocot species with a relatively compact genome that has limited transposable element (TE) content. CRISPR‐based genome editing approaches were used to create loss‐of‐function alleles for the two putative functional DRM genes inS. viridisto probe the role of RdDM. Double mutant (drm1ab)plants exhibit some morphological abnormalities but are fully viable. Whole‐genome methylation profiling provided evidence for the widespread loss of methylation in CHH sequence contexts, particularly in regions with high CHH methylation in wild‐type plants. Evidence was also found for the locus‐specific loss of CG and CHG methylation, even in some regions that lack CHH methylation. Transcriptome profiling identified genes with altered expression in thedrm1abmutants. However, the majority of genes with high levels of CHH methylation directly surrounding the transcription start site or in nearby promoter regions in wild‐type plants do not have altered expression in thedrm1abmutant, even when this methylation is lost, suggesting limited regulation of gene expression by RdDM. Detailed analysis of the expression of TEs identified several transposons that are transcriptionally activated indrm1abmutants. These transposons are likely to require active RdDM for the maintenance of transcriptional repression.
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Heritable changes of epialleles near genes in maize can be triggered in the absence of CHH methylation
Abstract Trans-chromosomal interactions resulting in changes in DNA methylation during hybridization have been observed in several plant species. However, little is known about the causes or consequences of these interactions. Here, we compared DNA methylomes of F1 hybrids that are mutant for a small RNA biogenesis gene, Mop1 (Mediator of paramutation1), with that of their parents, wild-type siblings, and backcrossed progeny in maize (Zea mays). Our data show that hybridization triggers global changes in both trans-chromosomal methylation (TCM) and trans-chromosomal demethylation (TCdM), most of which involved changes in CHH methylation. In more than 60% of these TCM differentially methylated regions (DMRs) in which small RNAs are available, no significant changes in the quantity of small RNAs were observed. Methylation at the CHH TCM DMRs was largely lost in the mop1 mutant, although the effects of this mutant varied depending on the location of these DMRs. Interestingly, an increase in CHH at TCM DMRs was associated with enhanced expression of a subset of highly expressed genes and suppressed expression of a small number of lowly expressed genes. Examination of the methylation levels in backcrossed plants demonstrates that both TCM and TCdM can be maintained in the subsequent generation, but that TCdM is more stable than TCM. Surprisingly, although increased CHH methylation in most TCM DMRs in F1 plants required Mop1, initiation of a new epigenetic state of these DMRs did not require a functional copy of this gene, suggesting that initiation of these changes is independent of RNA-directed DNA methylation.
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- Award ID(s):
- 2306220
- PAR ID:
- 10491568
- Publisher / Repository:
- OXFORD ACADEMIC
- Date Published:
- Journal Name:
- Plant Physiology
- ISSN:
- 0032-0889
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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- Free Publicly Accessible Full Text
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Accepted Manuscript1.0
- Journal Article:
- https://doi.org/10.1093/plphys/kiad668
