Project description:Primary RNA Seq data for 11 diverse immunocyte populations from male and female mice of varying ages stimulated with different dose of IFN and sequenced using ImmGen's standard ultra-low input RNA-seq pipeline

Project description:Primary RNAseq data for 127 highly purified immunocyte populations representing all lineages and several differentiation cascades, profiled using the ImmGen ULI pipeline.

Project description:Primary RNAseq data for five highly purified immunocyte populations (splenic NK, Follicular B, Naïve CD4+ abT, gdT cells and peritoneal macrophages) profiled to unusual depth as multiple biological replicates, using the ImmGen ULI pipeline.

Project description:ImmGen ULI RNA-seq data

Project description:ImmGen ULI: Deep RNA-seq data

Project description:ImmGen ULI: OpenSource Mononuclear Phagocytes Project

Project description:ImmGen ULI: Systemwide RNA-seq profiles (#1)

Project description:In this experiment, formalin-fixed paraffin-embedded male (n=15) and female (n=10) primary invasive ductal carcinoma (all ERα-positive, HER2-negative, node-negative) samples were selected and hybridized using the Almac Diagnostics Breast Cancer DSA(TM) array ADXBRCv2a520413 in order to investigate the gene expression differences between male and female breast cancer.

Project description:Significant sex differences exist in cardiovascular diseases. It is largely unknown whether sexually dimorphic gene expression plays a role, and whether cells themselves show intrinsic sex differences. We therefore performed whole genome expression analyses in human umbilical vein endothelial cells (HUVEC) from five sample pools with equal amounts of four individual RNAs from either male or female donors (altogether 20 male and 20 female donors) and compared levels of gene transcription between the sexes. Genes indicative for greater immune responsiveness were stronger expressed in female compared to male HUVEC. There was a significant enrichment of 77 immune-related genes in female HUVEC.

Project description:Gametocytes are obligate for the transmission of malaria parasite to mosquito. This study reports the first comprehensive proteomes of accurately separated mature male and female Plasmodium falciparum gametocytes using a transgenic line. the proteomes revealed significant differences that are consistent with the divergent functions of the two sexes. While the male proteome is enriched in proteins associated with flagella and genome replication, the female proteome is more abundant in proteins involved in metabolism, translation and organellar functions.