Project description:Gender-specific alterations in gene expression and loss of liver sexual dimorphism in the long-lived Ames dwarf mice.

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:Sexual dimorphism in osteogenic differentiation

Project description:Managing aortic valve stenosis (AVS) is challenging because of the lack of pharmacotherapies to halt/revert stenosis, deeming aortic valve replacement (AVR) the only effective treatment. AVS management is further confronted with staggering sexual dimorphism; women display more extensive fibrosis, while men present remarkably higher valve calcification. To accelerate the development of effective and sex-personalised pharmacotherapies, deeper molecular insights are needed. Hence, we aimed to characterise AVS sexual dimorphism using proteomics. Aortic valves were obtained from surgical AVR. Disease severity was assessed by echocardiography. Fifty valves (50% women) were homogenised, and the proteins were quantified by LC-MS/MS. The relevance of differentially expressed proteins (DEPs) in sexual dimorphism was appraised using protein-protein interaction (PPI) and functional enrichment analyses (FEA). DEPs were validated using immunohistochemistry, qRT-PCR and ELISA, with the aid of 30 additional independent valves.

Project description:Hepatic gene expression shows sexual dimorphism. Here, we investigated the role of BCL6 in establishing sexually dimorphic chromatin state and performed H3K27ac ChIP-seq from livers of female and male Ctrl and BCL6 liver knock-out mice.

Project description:Sexual Dimorphism of Circadian Liver Transcriptome

Project description:We have done an expression experiment studying sexual dimorphism in gene expression in two species of songbirds, the zebra finch (Teaniopigia guttata) and the common whitethroat (Sylvia communis).

Project description:The aim of the present study was to carry out a high-throughput screening of proteins using proteomics tool to identify and quantify proteins and related biochemical pathways that orchestrate the sexual dimorphism in the liver of zebrafish. In addition, we tried to discover potential connections between the sex-biased levels of proteins in liver and hepatic diseases and regeneration via review of related literature.

Project description:Background: Sex as a biological variable is not a common consideration in molecular mechanistic or preclinical studies of retinal diseases. Understanding the sexual dimorphism of adult RPE and retina under physiological conditions is an important first step in improving our understanding of sex-based physio-pathological mechanisms. Methods: Isobaric tags for relative and absolute quantitation (iTRAQ) were used for quantitative proteomics of male and female mouse retina and RPE (10 mice of each sex for each tissue type). Differentially expressed proteins were subjected to Gene Ontology (GO) analysis and Ingenuity Pathway Analysis (IPA). Results: Differential expression analysis identified 21 differentially expressed proteins in the retina and 58 differentially expressed proteins in the RPE. Ingenuity pathway analysis identified the top canonical pathways differentially activated in the retina to be calcium transport I, nucleotide excision repair, molecular transport and cell death and survival. In the RPE, the top canonical pathways were calcium signaling, dilated cardiomyopathy signaling, actin cytoskeletal signaling and cellular assembly and organization. Conclusions: These results provide insights into sex differences in the retina and RPE proteome of mice and begin to shed clues into the sexual dimorphism seen in retinal diseases.

Project description:In the present study, we utilized a label-free proteomics approach to identify and quantify proteins that are the basis of sexual dimorphism in the GI tract of zebrafish. The results of present study in combination with an extensive literature review can provide an in-depth insight into the molecular mechanisms that distinguish sexes in the digestion and absorption of nutritional materials needed for body maintenance and gametogenesis, as well as their abilities for drug metabolism.