Project description:Hepatic gene expression shows sexual dimorphism. Here, we investigated the role of BCL6 in establishing sexual dimorphism in hepatic gene expression and created Bcl6Flox/Flox,Alb-Cre mice and performed RNAseq from livers of 4- and 8-week-old male and female Ctrl and BCL6 liver knock-out mice.
Project description:We constructed eight libraries of female and male E. pela at different developmental stages using RNA-seq technology. Many genes and pathways related to sexual dimorphism were identified.The female and male E. pela take different developmental patterns. The sexual dimorphism in E. pela may involve many different regulatory components.
Project description:We constructed eight libraries of female and male E. pela at different developmental stages using RNA-seq technology. Many genes and pathways related to sexual dimorphism were identified.The female and male E. pela take different developmental patterns. The sexual dimorphism in E. pela may involve many different regulatory components. Female and male E. pela at different developmental stages using RNA-seq technology
Project description:Sexual dimorphism of the behaviors or physiological functions in mammals is mainly due to the sex difference of the brain. The goal of this study is to identify genes mediating sexaul dimorphism of the brain. The large-scale analysis with microarray in the present study is an attempt to obtain the candidate gene(s) mediating the perinatal estrogen effect causing the brain sexual differentiation.
Project description:The experimental approach seeks to test for sexual dimorphism in exuded non-volatile metabolites in C. purpureus. The proposed research is creative and original both in its inter-disciplinary approach and its use of a biochemically tractable phenotype to develop a much-needed link between natural selection for sexual dimorphism and the molecular targets of that selection pressure.
Project description:Sexual dimorphisms are well recognized in various cardiac diseases, including myocardial infarction (MI). MI develops later in women, but once established, it contributes more persistent symptoms and higher mortality than in men. Although mRNA-level sexual dimorphism of MI have been reported, whether miRNA transcriptome also confers such dimorphism remains unknown. Comprehensive understanding of the mRNA- and miRNA-level genetic programs underlying the heart sexual dimorphisms will expectedly improve clinical outcome by facilitating the development of gender specific treatment strategies. Here, by conducting miRNA microarray analysis of human MI samples, we set out to characterize the heart sexual dimorphisms at the level of miRNA transcriptome
Project description:A diallel including reciprocals but not selfs experiment. Keywords: Agilent microarray, sexual dimorphism, genetical genomics, genetic variation