Project description:Histone modification maps of H3K4me3 and H3K27me3 of meiocytes were obtained by microlibrary and high-throughput sequencing by extracting meiocytes from rice varieties Azucena and IR64. And the DNA methylation results of meiocytes and flag-leaf of Azucena and IR64 were obtained. By collating this data, the male meiocyte-specific epigenomic landscape is constructed

Project description:The Epigenomic Landscape of Prokaryotes

Project description:Control of epigenomic landscape and development of fetal male germ cells through L-serine metabolism

Project description:Metabolic landscape of the male mouse gut identifies different niches determined by microbial activities

Project description:A Unique Epigenomic Landscape Defines Human Erythropoiesis

Project description:Aging is a universal biological phenomenon linked to many diseases, such as cancer or neurodegeneration. However, the molecular mechanisms underlying aging, or how lifestyle interventions such as cognitive stimulation can ameliorate this process, are yet to be clarified. Here, we performed a multi-omic profiling, including RNA-seq, ATAC-seq, ChIP-seq, EM-seq, SWATH-MS and single cell Multiome scRNA and scATAC-seq, in the dorsal hippocampus of young and old mouse subjects which were subject to cognitive stimulation using the paradigm of environmental enrichment. In this study we were able to describe the epigenomic landscape of aging and cognitive stimulation.

Project description:Metabolic landscape of the male mouse gut identifies different niches determined by microbial activities

Project description:ChIP-seq dataset for epigenomic landscape of MPNST

Project description:A Unique Epigenomic Landscape Defines Human Erythropoiesis (ERRBS)

Project description:In this work, we analyzed DNA methylation in rice male meiocyte, microspore and sperm and studied the function of a set of chromatin regulators during the process. The results indicate that that DNA methylation remodeling started after meiosis of the male meiocytes and that non-CG, particularly CHG, methylation is dynamically remodeling during rice male gametogenesis. The work reveals distinct function of DNA methyltransfesaes and histone demethylase in the remodeling of CHG methylation and suggests that the CHG methylation remodeling has functional significance for male gametogenesis and fertilization.