Project description:In this study, GC-specific DNA methylation profiling was investigated in nine fresh frozen tissues which included non-tumor, intestinal metaplasia, and gastric tumor using whole genome bisulfite sequencing to deeply understanding epigenome change during gastric carcinogenesis
Project description:To gain insight into the DNA methylation changes during OSCC carcinogenesis, we utilized cytosine conversion and next generation sequencing based technique- enhanced reduced representation bisulfite sequencing (ERRBS) - to assess DNA methylation in cultured, human TERT-immortalized, non-tumorigenic OKF6-TERT1R and OSCC SCC-9 cells.
Project description:Because gastric cancer cells already had genetic and epigenetic alterations which can affect the gastric carcinogenesis, we tried to characterize genetic and epigenetic changes during gastric carcinogenesis. To do this, we performed SNP array.
Project description:Because gastric cancer cells already had genetic and epigenetic alterations which can affect the gastric carcinogenesis, we tried to characterize genetic and epigenetic changes during gastric carcinogenesis. To do this, we performed MBD sequencing and RRBS sequencing.
Project description:Because gastric cancer cells already had genetic and epigenetic alterations which can affect the gastric carcinogenesis, we tried to characterize genetic and epigenetic changes during gastric carcinogenesis. To do this, we performed MBD sequencing and RRBS sequencing.
Project description:Because gastric cancer cells already had genetic and epigenetic alterations which can affect the gastric carcinogenesis, we tried to characterize genetic and epigenetic changes during gastric carcinogenesis. To do this, we performed MBD sequencing and RRBS sequencing. MBD and RRBS sequencing of gastric mucosa, intestinal metaplasia, and gastric cancer cells from one patient were generated by NGS using Illumina GAII.
