Project description:The methylome of open chromatins was investigated in colorectal cancer (CRC) to explore cancer-specific methylation and potential biomarkers. Epigenome-wide methylome of open chromatins was studied in colorectal cancer tissues using Infinium DNA MethylationEPIC assay. Differentially methylated regions were identified using the ChAMP Bioconductor. Our stringent analysis led to the discovery of 2187 significant differentially methylated open chromatins in CRCs. More hypomethylated probes were observed and the trend was similar across all chromosomes. Majority of hyper- and hypomethylated probes in open chromatin were in chromosome 1. Our unsupervised hierarchical clustering analysis showed that 40 significant differentially methylated open chromatins were able to segregate CRC from normal colonic tissues. Receiver operating characteristic analyses from the top 40 probes revealed several significant, highly discriminative, specific and sensitive probes such as OPLAH cg26256223, EYA4 cg01328892, and CCNA1 cg11513637, among others. OPLAH cg26256223 hypermethylation is associated with reduced gene expression in the CRC. This study reports many open chromatin loci with novel differential methylation statuses, some of which with the potential as candidate markers for diagnostic purposes.

Project description:The methylome of open chromatins was investigated in colorectal cancer (CRC) to explore cancer-specific methylation and potential biomarkers. Epigenome-wide methylome of open chromatins was studied in colorectal cancer tissues using the Infinium DNA MethylationEPIC assay. Differentially methylated regions were identified using the ChAMP Bioconductor. Our stringent analysis led to the discovery of 2187 significant differentially methylated open chromatins in CRCs. More hypomethylated probes were observed and the trend was similar across all chromosomes. The majority of hyper- and hypomethylated probes in open chromatin were in chromosome 1. Our unsupervised hierarchical clustering analysis showed that 40 significant differentially methylated open chromatins were able to segregate CRC from normal colonic tissues. Receiver operating characteristic analyses from the top 40 probes revealed several significant, highly discriminative, specific and sensitive probes such as OPLAH cg26256223, EYA4 cg01328892, and CCNA1 cg11513637, among others. OPLAH cg26256223 hypermethylation is associated with reduced gene expression in the CRC. This study reports many open chromatin loci with novel differential methylation statuses, some of which with the potential as candidate markers for diagnostic purposes.

Project description:Colorectal cancer is an epigenetically heterogeneous disease, the extent to which is unclear. In this study we interrogate the methylome of 216 unselected colorectal cancers using Illumina HumanMethylation450 arrays, and correlate these data with transcript profiles and exome sequencing analysis to elucidate the degree of epigenetic dysregulation in colorectal cancers.

Project description:Colorectal cancer is an epigenetically heterogeneous disease, the extent to which is unclear. In this study we interrogate the methylome of 216 unselected colorectal cancers using Illumina HumanMethylation450 arrays, and correlate these data with transcript profiles and exome sequencing analysis to elucidate the degree of epigenetic dysregulation in colorectal cancers.

Project description:In order to identify the open chromatin profiles in the U2OS cell, ATAC-seq technology was used to determine the accessible chromatin landscape in U2OS cell.

Project description:Micrococcal nuclease was used to digest mESC nuclei under a mild digestion condition to release the relatively open chromatin, and under an extensive digestion condition to release the genome chromatin. By comparing the genome distribution of mono-nucleasome under these two conditions, open chromatin regions were detected. One mild digestion and one extensive digestion was applied to the mESC cells, followed by sequencing.

Project description:Specific serum methylome of the serrated pathway of colorectal carcinogenesis

Project description:Micrococcal nuclease was used to digest mESC nuclei under a mild digestion condition to release the relatively open chromatin, and under an extensive digestion condition to release the genome chromatin. By comparing the genome distribution of mono-nucleasome under these two conditions, open chromatin regions were detected.

Project description:Expression profiles of colorectal liver metastasis samples collected from Paul Brousse Hospital (France) and University Hospital Utrecht (The Netherlands). Patients are divided into a high-risk (DFS < 1 year) and a low-risk group (DFS < 1 year).

Project description:Three separate experiments were carried out using MeDIP-seq and cfMeDIP-seq for methylome analysis. For the first experiment, different starting amounts of HCT116 cell line DNA, sheared to mimic cell-free DNA, were analyzed using MeDIP-seq and cfMeDIP-seq. In the second experiment the limit of detection of cfMeDIP-seq was tested using varying dilutions of colorectal cancer cell line DNA (HCT116) with multiple myeloma cell line DNA (MM1.S). For both cell line DNA samples, the DNA was sheared to mimic cell-free DNA. In the final experiment, we tested the enrichment of human ctDNA using cfMeDIP-seq performed on plasma collected from patient-derived xenografts (PDXs) generated in mice from two colorectal cancer patients.