Production Of Humanised Mouse Models For Haemoglobin E And 0-thalassaemia
Funder
National Health and Medical Research Council
Funding Amount
$280,693.00
Summary
The proposed study aims to identify and characterise genes critical to male fertility using two mouse models of infertility: 1) Joey mouse line: an ENU induced model of sperm abnormalities. Following linkage analysis, candidate genes will be selected for sequencing to identify the causal mutation. 2) Ggn knockout mice. The role of the testis-specific gene, Ggn will be characterised through a phenotypic analysis of Ggn knockout mice and a series of expression and biochemical analyses. Both models ....The proposed study aims to identify and characterise genes critical to male fertility using two mouse models of infertility: 1) Joey mouse line: an ENU induced model of sperm abnormalities. Following linkage analysis, candidate genes will be selected for sequencing to identify the causal mutation. 2) Ggn knockout mice. The role of the testis-specific gene, Ggn will be characterised through a phenotypic analysis of Ggn knockout mice and a series of expression and biochemical analyses. Both models will be of direct value in the identification of commercially relevant contraceptive targets, as well as furthering our understanding of male reproductive function.Read moreRead less
Fine Mapping Of A Significant Linkage Region For Endometriosis
Funder
National Health and Medical Research Council
Funding Amount
$518,250.00
Summary
Endometriosis is a common disorder affecting up to 10% of women. In this condition, a special type of tissue that normally lines the inside of the womb (the 'endometrium') starts to grow outside the womb, mostly in the pelvis (lower abdomen). Common symptoms are severe pelvic pain, menstrual problems and infertility. The disease has a major impact on women's health, relationships, productivity and life choices. The mechanisms that cause endometriosis are not well understood. Genetic factors infl ....Endometriosis is a common disorder affecting up to 10% of women. In this condition, a special type of tissue that normally lines the inside of the womb (the 'endometrium') starts to grow outside the womb, mostly in the pelvis (lower abdomen). Common symptoms are severe pelvic pain, menstrual problems and infertility. The disease has a major impact on women's health, relationships, productivity and life choices. The mechanisms that cause endometriosis are not well understood. Genetic factors influence a woman's risk of developing endometriosis and finding genes and pathways leading to this disease would be a major advance. This will help design better approaches for the diagnosis, prevention and treatment of endometriosis. Since 1996, nearly 4,000 women with endometriosis plus their families have joined our genetic study. This includes around 1,000 families with two or more sisters who both have the disease. We have looked at the DNA from these sisters and found significant evidence for a gene or genes affecting endometriosis on one chromosome. No one else has linked this location with endometriosis. We are now focusing our efforts in the laboratory on this area, which contains approximately 250 genes. The aim of our new project is to study genes in the region in more detail to pinpoint the gene or genes responsible for risk of endometriosis.Read moreRead less
Investigating non-canonical RNA processing in developing spermatids. RNA combines the information content of DNA and the physical properties of proteins. These features mean it's emerging as a major player for new knowledge; for answers to fundamental questions in biology, and for applications in biotechnology. This project aims to understand how non-canonical RNA processing events control gene expression. How mRNA is processed post-transcriptionally for selective storage, translation, stabilisa ....Investigating non-canonical RNA processing in developing spermatids. RNA combines the information content of DNA and the physical properties of proteins. These features mean it's emerging as a major player for new knowledge; for answers to fundamental questions in biology, and for applications in biotechnology. This project aims to understand how non-canonical RNA processing events control gene expression. How mRNA is processed post-transcriptionally for selective storage, translation, stabilisation or decay to control development. RNA-driven processes program morphogenesis and differentiation of spermatids, but via mechanisms only poorly understood. Uncovering the function of extensive cytoplasmic polyadenylation, which is essential for murine fertility, may fuel the next wave of RNA biotech applications. Read moreRead less