Dynamic DNA methylation in plant growth and development
A Bartels, Q Han, P Nair, L Stacey, H Gaynier… - International journal of …, 2018 - mdpi.com
A Bartels, Q Han, P Nair, L Stacey, H Gaynier, M Mosley, QQ Huang, JK Pearson, TF Hsieh…
International journal of molecular sciences, 2018•mdpi.comDNA methylation is an epigenetic modification required for transposable element (TE)
silencing, genome stability, and genomic imprinting. Although DNA methylation has been
intensively studied, the dynamic nature of methylation among different species has just
begun to be understood. Here we summarize the recent progress in research on the wide
variation of DNA methylation in different plants, organs, tissues, and cells; dynamic changes
of methylation are also reported during plant growth and development as well as changes in …
silencing, genome stability, and genomic imprinting. Although DNA methylation has been
intensively studied, the dynamic nature of methylation among different species has just
begun to be understood. Here we summarize the recent progress in research on the wide
variation of DNA methylation in different plants, organs, tissues, and cells; dynamic changes
of methylation are also reported during plant growth and development as well as changes in …
DNA methylation is an epigenetic modification required for transposable element (TE) silencing, genome stability, and genomic imprinting. Although DNA methylation has been intensively studied, the dynamic nature of methylation among different species has just begun to be understood. Here we summarize the recent progress in research on the wide variation of DNA methylation in different plants, organs, tissues, and cells; dynamic changes of methylation are also reported during plant growth and development as well as changes in response to environmental stresses. Overall DNA methylation is quite diverse among species, and it occurs in CG, CHG, and CHH (H = A, C, or T) contexts of genes and TEs in angiosperms. Moderately expressed genes are most likely methylated in gene bodies. Methylation levels decrease significantly just upstream of the transcription start site and around transcription termination sites; its levels in the promoter are inversely correlated with the expression of some genes in plants. Methylation can be altered by different environmental stimuli such as pathogens and abiotic stresses. It is likely that methylation existed in the common eukaryotic ancestor before fungi, plants and animals diverged during evolution. In summary, DNA methylation patterns in angiosperms are complex, dynamic, and an integral part of genome diversity after millions of years of evolution.
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