Project description:The goal of this study is to determine the complete gene expression profile for each cell type of the developing gonad during the critical window in which it adopts the testis or ovarian fate. Transgenic mice with cell type specific fluorescent markers were used to isolate germ cells, supporting cells, interstitial cells (including steroidogenic precursors), and endothelial cells in the developing testis and ovary. The gonads were dissociated in trypsin, and the fluorescent cells were isolated by FACS. The RNA was collected from the isolated cells and their gene expression profiles were determined by microarray analysis.

Project description:Circadian clocks drive ~24 hr rhythms in tissue physiology. They rely on transcriptional/translational feedback loops driven by interacting networks of clock complexes.To gain insights into the role of the mammary clock, circadian time-series microarrays were performed to identify rhythmic genes in vivo. Breast tissues were isolated at 4 hr intervals for two circadian (24 hourly) cycles, from mice kept under constant darkness to avoid any light- or dark-driven genes.

Project description:The current study investigates the direct effects of in utero vinclozolin exposure on the developing rat testis transcriptome. Vinclozolin is a commonly used fungicide in agriculture and is an endocrine disruptor with anti-androgenic activity. Previous studies have demonstrated that exposure to vinclozolin during embryonic gonadal sex determination induces epigenetic modifications of the germ line and transgenerational adult onset disease states that include spermatogenic cell defects, prostate disease, kidney disease, and tumor development. An investigation of the molecular actions of vinclozolin was initiated through an analysis of direct actions on the F1 generation embryonic testis development. Microarray analyses were performed to compare control and vinclozolin treated testis transcriptomes at embryonic day 13, 14 and 16. A total of 576 differentially expressed genes were identified and the major cellular functions and pathways associated with these altered transcripts were examined. The sets of regulated genes at the different development periods were found to be transiently altered and distinct. Interestingly, genes previously shown to be regulated during normal male sex determination were not altered by vinclozolin treatment. Categorization by major known functions of all 576 genes altered by in utero vinclozolin exposure demonstrates transcription, signaling, cytoskeletal and extra cellular matrix associated transcripts are highly represented. Specific cellular process and pathway analyses suggest the involvement of Wnt and calcium signaling, vascular development and epigenetic mechanisms as potential mediators of the direct F1 generation actions of vinclozolin. For Samples 1-12: We used microarrays to determine genes expressed differentially between control and in utero Vinclozolin treated E13, E14, and E16 rat testis. For Samples 13-16: We used microarrays to determine genes expressed differentially between control and in vitro Vinclozolin treated E13 cultured rat testis. For Samples 17-20: We used microarrays to determine genes expressed differentially between control and in vitro Flutamide treated rat E13 cultured testis. For Samples 1-12: RNA samples from two control groups are compared to two Vinclozolin treated groups for each E13, E14, E16 testis. For Samples 13-16: RNA samples from two control groups of E13 cultured testis are compared to two Vinclosolin treated groups of E13 cultured testis. For Samples 17-20: RNA samples from two control groups of E13 cultured testis are compared to two Flutamide treated groups of E13 cultured testis.

Project description:scRNA-seq of first and second trimester human gonads

Project description:To examine the transcriptome of early testicular somatic cells during gonadogenesis at 12.5dpc RNA sequencing (RNA-Seq) was performed on murine primary testicular cell lineages isolated from the Sf1-eGFP line by FACS. The three main somatic cell lineages of the testis were isolated: the Sertoli cells which direct male development; the fetal Leydig cells (FLCs) that produce steroid hormones and virilise the XY individual and a heterogenous population of interstitial cells, some of which give rise to the adult Leydig cells (ALCs). This dataset provides a platform for exploring the biology of FLCs and understanding the role of these cells in testicular development and masculinization of the embryo, and a basis for targeted studies designed to identify causes of idiopathic XY DSD. RNA-Seq of 3 enriched cell populations from 12.5dpc mouse gonad (Sertoli cells, Leydig cells and Interstitial cells isolated by FACS-sorting) on an Illumina HiSeq 1500, in triplicate.

Project description:A study of diabetic neuropathy in dorsal root ganglia from streptozotocin-diabetic male wistar rats over the first 8 weeks of diabetes

Project description:Comprehensive map of first- and second-trimester gonadal development in humans using a combination of single-cell and spatial transcriptomics, chromatin accessibility assays, and imaging.

Project description:The aim of the study was to identify differentially expressed genes, isoforms and AS modifications accompanying Gonadal Sex Determination in mice. We performed a Rna-Seq analysis of XX and XY gonads during sex determination on embryonic days 11 (E11) and 12 (E12). RNA-seq libraries were prepared from grouped gonads from E11 and E12 males and females. The cDNA libraries were sequenced using a HiSeq2500 v4 chemistry system

Project description:In mammals, gonadal differentiation is the first step of sex determination, and the transcription factor Sox9 promotes testis differentiation. Here we used the XY Sox9flox/flox; Sf1:creTr/+ mouse model and show that the lack of Sox9 expression induces a full sex reversal of E13.5 XY Sox9flox/flox; Sf1:creTr/+ gonads compared to XY Sox9flox/flox. Keywords: gonads gene expression profiling in WT and Sox9flox/flox; Sf1:creTr/+ mice 3 WT versus 3 Sox9flox/flox; Sf1:creTr/+ mice.

Project description:The genetic code is an abstraction of how mRNA codons and tRNA anticodons molecularly interact during protein synthesis; the stability and regulation of this interaction remains largely unexplored. Here, we quantitatively characterized the expression of m