Project description:Spermatogenesis is a recurring differentiation process that results in the production of male gametes within the testes. During this process, spermatogonial stem cells differentiate to form spermatocytes, which undergo two rounds of meiotic division to form haploid spermatids. Throughout spermiogenesis, round spermatids elongate to form mature sperm. To profile changes in chromatin marks between spermatocytes and spermatids, we generated CUT&RUN data of H3K4me3, H3K27ac and H3K9me3 marks in sorted spermatocytes and spermatids.

Project description:Mouse Round Spermatids (Sptd) and Pachytene Spermatocytes (Spcy) Keywords: repeat sample

Project description:To investigate the gene expression changes observed with aging in round spermatids from Brown Norway rats. We then performed gene expression analysis using data obtained from RNA-seq of round spermatids at two time points.

Project description:Brdt is a testis specific member of a family of chromatin interacting proteins. All of the family members have been shown to regulate transcription. Brdt is highly expressed in round spermatids, and may play a role in transcriptional regulation in these cells. We investigated transcriptional changes in mutant round spermatids that were homozygous for a mutation in which the first bromodomain of Brdt was removed. Round spermatids were purified from seven adult animals of each genotype for each Affymetrix microarray. Purity of round spermatids was assessed by propidium iodide staining.

Project description:Male germ cells express a complex transcriptome under tight temporal regulation during their development. However, our knowledge of the epigenetic regulation of crucial stages in this process, such as meiotic onset, remains limited. Here, by dissecting a comprehensive map of the dynamic epigenomic landscape in developing mouse male germ cells, we uncover mutually exclusive shifts in the repressive histone marks H3K9me2, H3K9me3 and H3K27me3 during the mitosis-to-meiosis transition and completion of meiotic recombination. These dynamic shifts coincide with temporal changes in global transcriptional output, retrotransposon activity, and the silencing of mitotic/meiotic genes during spermatogenesis. In addition, we identify Setd1b-mediated broad H3K4me3 domains in both mouse and human spermatids. These broad H3K4me3 domains promote Pol II occupancy and transcription, resulting in high gene expression in spermatids. Setd1b ablation leads to a complete loss of broad H3K4me3, and the redistribution of Pol II from broad H3K4me3 promoters to regular H3K4me3 promoters, thereby compromising temporal gene expression and ultimately hampering spermiogenesis. These findings reveal that dynamic epigenetic changes orchestrate stage-specific gene expression in spermatogenesis, with Setd1b-mediated broad H3K4me3 serving as a crucial regulator that controls the timing of stage-specific gene expression in spermatids.

Project description:Brdt is a testis specific member of a family of chromatin interacting proteins. All of the family members have been shown to regulate transcription. Brdt is highly expressed in round spermatids, and may play a role in transcriptional regulation in these cells. We investigated transcriptional changes in mutant round spermatids that were homozygous for a mutation in which the first bromodomain of Brdt was removed.

Project description:Mouse Round Spermatids (Sptd) and Pachytene Spermatocytes (Spcy)

Project description:The proteome changes were quantified in Ck137956-/- mouse round spermatids using TMT 6-plex by LC-MS/MS.

Project description:Generation of haploid gametes in vitro can potentially address gamete failure-based infertility.This study reports complete in vitro meiosis from murine ESC-derived PGCLCs resulting in the formation of male spermatid-like cells (SLCs) capable of producing viable fertile offspring via intracytoplasmic sperm injection (ICSI).Our findings provide the basis for generation of haploid spermatids in vitro in human, the generation of transgenic animals, and the use of this system to investigate mechanisms of meiosis. We used microarrays to compare gene expression profiles of in vivo and in vitro derived PGC cells and round spermatids. We collected E12.5 male fatal PGCs, PGCLC in vitro, round spermatids and spermatids like cells produced in vitro, each sample has 3 replications.

Project description:Tadpole-shaped sperm is formed from round spermatid by spermiogenesis, a process with dramatic morphological changes in the final stage of spermatogenesis in testis. Protein phosphorylation, as one of the most important post-translational modifications, can regulate spermiogenesis, however, there is a lack of systemic analysis for phosphorylation events in this process. By large-scale phosphoproteome profiling using IMAC and TiO2 enrichment, we identified 18,980 phosphorylation sites in 4,628 phosphoproteins in mouse purified spermatids undergoing spermiogenesis. The identified phosphoproteins were significantly enriched in RNA transport, cell-cell adhesion, centrosome, microtubule and cilliogenesis. Further characterization of the kinase substrate relationship network demonstrated enrichment of phosphorylation substrates were related to the regulation of spermiogenesis. This global protein phosphorylation landscape of spermiogenesis showed wide phosphoregulation of diverse processes during spermiogenesis and could help further characterization of the process of sperm generation.