Project description:Medaka sperm methylomes were sequenced using whole genome bisulfite sequencing (WGBS)

Project description:Medaka PGCs methylomes were sequenced using whole genome bisulfite sequencing (WGBS)

Project description:Medaka egg methylomes were sequenced using whole genome bisulfite sequencing (WGBS)

Project description:Bisulfite sequencing of medaka PGCs methylomes

Project description:Bisulfite sequencing of medaka egg methylomes

Project description:Bisulfite sequencing of medaka

Project description:During development, the inherited DNA methylation patterns from the parental gametes needs to be remodeled into a state compatible with embryonic pluripotency. In Zebrafish, this remodeling is achieved by the maternal methylome becoming hypomethylated to match the paternal methylome. However, how this is achieved in medaka (another teleost fish) is currently not known. Moreover, how DNA methylation remodeling is impacted in hybrid organisms, and the effects this may have on their development, is also not known. Here we address these questions by generation whole genome bisulfite sequencing data for zebrafish, medaka and zebrafish medaka embryos.

Project description:Whole Genome Bisulfite Sequencing (WGBS) or zebrafish, medaka, and zebrafish-medaka hybrid embryos

Project description:The sperm DNA methylomes of the MZ twin bulls were investigated by WGBS at single-base resolution. We detected DMRs between the twin bulls with divergent sperm qualities. We also conducted transcriptome sequencing for the MZ twin bulls in three replicates. We investigated the relationship between methylation and gene expression.

Project description:Sperm cells are characterized by a unique epigenome, and an incorrect establishment of DNA methylation patterns during the differentiation of male germ cells into spermatozoa has been associated with male infertility in several species. While bull semen is widely used in artificial insemination, the literature describing DNA methylation in bovine sperm is still scarce. The purpose of this study is to compare the methylomes of sperm and somatic cell types in cattle using the RRBS technology.