Epigenetic changes caused by DNA methylation and histone modifications play important roles in the regulation of various cellular processes and development. Recent discoveries of 5-methylcytosine(5m C) oxidation deriv...Epigenetic changes caused by DNA methylation and histone modifications play important roles in the regulation of various cellular processes and development. Recent discoveries of 5-methylcytosine(5m C) oxidation derivatives including 5-hydroxymethylcytosine(5hm C), 5-formylcytsine(5f C) and 5-carboxycytosine(5ca C) in mammalian genome further expand our understanding of the epigenetic regulation. Analysis of DNA modification patterns relies increasingly on sequencing-based profiling methods. A number of different approaches have been established to map the DNA epigenomes with single-base resolution, as represented by the bisulfite-based methods, such as classical bisulfite sequencing(BS-seq), TAB-seq(TET-assisted bisulfite sequencing), ox BS-seq(oxidative bisulfite sequencing) and etc. These methods have been used to generate base-resolution maps of 5m C and its oxidation derivatives in genomic samples. The focus of this review will be to discuss the chemical methodologies that have been developed to detect the cytosine derivatives in the genomic DNA.展开更多
The analysis of cytosine methylation provides a new way to assess and describe epigenetic regulation at a whole-genome level in many eukaryotes.DNA methylation has a demonstrated role in the genome stability and prote...The analysis of cytosine methylation provides a new way to assess and describe epigenetic regulation at a whole-genome level in many eukaryotes.DNA methylation has a demonstrated role in the genome stability and protection,regulation of gene expression and many other aspects of genome function and maintenance.BS-seq is a relatively unbiased method for profiling the DNA methylation,with a resolution capable of measuring methylation at individual cytosines.Here we describe,as an example,a workflow to handle DNA methylation analysis,from BS-seq library preparation to the data visualization.We describe some applications for the analysis and interpretation of these data.Our laboratory provides public access to plant DNA methylation data via visualization tools available at our "Next-Gen Sequence" websites(http://mpss.udel.edu),along with small RNA,RNA-seq and other data types.展开更多
基金supported by the National Basic Research Foundation of China(2014CB964900 to Yi Chengqi)the National Natural Science Foundation of China(3127083821472009 to Yi Chengqi)
文摘Epigenetic changes caused by DNA methylation and histone modifications play important roles in the regulation of various cellular processes and development. Recent discoveries of 5-methylcytosine(5m C) oxidation derivatives including 5-hydroxymethylcytosine(5hm C), 5-formylcytsine(5f C) and 5-carboxycytosine(5ca C) in mammalian genome further expand our understanding of the epigenetic regulation. Analysis of DNA modification patterns relies increasingly on sequencing-based profiling methods. A number of different approaches have been established to map the DNA epigenomes with single-base resolution, as represented by the bisulfite-based methods, such as classical bisulfite sequencing(BS-seq), TAB-seq(TET-assisted bisulfite sequencing), ox BS-seq(oxidative bisulfite sequencing) and etc. These methods have been used to generate base-resolution maps of 5m C and its oxidation derivatives in genomic samples. The focus of this review will be to discuss the chemical methodologies that have been developed to detect the cytosine derivatives in the genomic DNA.
基金supported by the Grant from the National Institute of Food and Agriculture,U.S.Department of Agriculture, Competitive Grants Program(No.2011-67013- 30036)support from the U.S.National Science Foundation(Award 0701745)
文摘The analysis of cytosine methylation provides a new way to assess and describe epigenetic regulation at a whole-genome level in many eukaryotes.DNA methylation has a demonstrated role in the genome stability and protection,regulation of gene expression and many other aspects of genome function and maintenance.BS-seq is a relatively unbiased method for profiling the DNA methylation,with a resolution capable of measuring methylation at individual cytosines.Here we describe,as an example,a workflow to handle DNA methylation analysis,from BS-seq library preparation to the data visualization.We describe some applications for the analysis and interpretation of these data.Our laboratory provides public access to plant DNA methylation data via visualization tools available at our "Next-Gen Sequence" websites(http://mpss.udel.edu),along with small RNA,RNA-seq and other data types.