Epigenetic Regulation Of Cell Lineage Differentiation In The Early Embryo
Funder
National Health and Medical Research Council
Funding Amount
$440,983.00
Summary
Exposure of embryos to a range of stresses can increase the predisposition to chronic diseases of adulthood. Stressing embryos at critical stages of development cause errors in reorganization of the nucleus that are required for normal gene expression. These errors are propagated into adulthood. This project will map the normal processes of nuclear reorganization and define how stress to the embryo changes this process, allowing an understanding of the causes of some important chronic diseases.
Understanding Epigenetic Modification During Oogenesis For Novel Treatments Of Female Infertility
Funder
National Health and Medical Research Council
Funding Amount
$314,644.00
Summary
Infertility affects about 10% of Australian women and the success rates of current infertility treatments are low due to our poor knowledge of eggs development. The numbers of obese and older women trying to conceive are increasing; fertility treatments are even less effective for them. I have generated mouse models to elucidate the pathways regulating egg development. I will study for alterations in these pathways in the mouse models which perfectly mimic the obesity and aging in women.
Epigenetic Reprogramming Within The Pluripotent Lineage Of The Early Embryo
Funder
National Health and Medical Research Council
Funding Amount
$663,050.00
Summary
Cells of the early embryo have the remarkable capacity to form all of the different tissues and organs in the body. This property requires re-organisation of the embryo’s genetic material in a manner analogous to re-booting a computer. This project will define the properties of this rebooting process. This information will allow much better strategies for building spare parts for regenerative medicine and provide the information required to reduce the incidence of inborn defects.
Differentiation Of Murine Embryonic Stem Cells To The Female Germ Line
Funder
National Health and Medical Research Council
Funding Amount
$57,342.00
Summary
In this project we aim to establish techniques to obtain viable and developmentally competent eggs from embryonic stem (ES) cells for studies on the molecular and cellular mechanisms of sex cell production. We expect to achieve ES cell derived eggs with similar fertilization and developmental potential as eggs developed naturally. Sterility resulting from cancer treatments and from genetic and non-genetic malformations can benefit from this ES cell therapy.
Long Term Consequences Of Perturbing Early Embryo Development
Funder
National Health and Medical Research Council
Funding Amount
$549,515.00
Summary
Assisted reproductive techniques are normally considered safe, but there are increased risks for these newborns which may be caused by these procedures. We have developed mouse models that are sensitive to these effects and have used them to show that gene expression is altered in mice that develop from cultured embryos. Now we will use these models to work out how to reduce these effects and ensure the ongoing health of babies born with assisted reproduction.
Epigenetic Regulation Of Male Fetal Germ Cell Development.
Funder
National Health and Medical Research Council
Funding Amount
$562,176.00
Summary
Men’s health has declined over recent decades, but the causes remain unknown. Non-genetic (epigenetic) mechanisms affecting formation and function of the male germ cells (which produce sperm) may play an important role. We will determine the role of a key epigenetic modifier on the formation and function of male germ cells, including germ cell tumours. This study will provide fundamental insights into male germ cell epigenetics, and significantly contribute to understanding men's health.
Epigenetics Of Human Placental Development And Pregnancy-associated Disease.
Funder
National Health and Medical Research Council
Funding Amount
$85,526.00
Summary
Mounting evidence suggests that epigenetic changes such as DNA methylation during pregnancy may play an important role in adverse pregnancy outcomes and modulation of disease risk later in life. We have identified a range of distinct DNA methylation events in human placental cells that are likely to play a role in both normal human placentation and aspects of placental dysfunction. We believe that disruption of this epigenetic profile contributes to adverse pregnancy outcomes
The Negative Transgenerational Impacts Of Paternal Obesity Are Inherited Through Aberrant Methylation And MicroRNA Conetent Of Germ Cells.
Funder
National Health and Medical Research Council
Funding Amount
$307,946.00
Summary
We have shown that obese fathers have reduced sperm function that negatively impacts upon their offspring’s health. But we do not understand the underlying alterations to sperm DNA that cause offspring to inherit poor health from an obese father, and whether these offspring also exhibit the same alterations. My project aims to identify alterations made to sperm DNA and RNA caused by obesity that are inherited by the next generation, ‘programming’ them for poor metabolic and reproductive health.
The normal processes of development of the embryo require that the information encoded in chromosomes be reprogrammed soon after fertilization. This process is rather fragile and disturbance of the early embryo can upset it. Recent studies for the chief investigator's provide new understanding of the normal processes of reprogramming. The project will explore and validate the implications of these new discoveries and provide a basis for future alleviation of abnormalities to development.
Discovery Early Career Researcher Award - Grant ID: DE220101449
Funder
Australian Research Council
Funding Amount
$463,399.00
Summary
How mammalian males indirectly control transmission of paternal traits. This project aims to address how environmental insults in males prior to conception are able to modify phenotype of subsequent offspring. This project expects to generate fundamental knowledge in a key biological pathway on how non-genetic factors delivered by sperm at conception are able to program the growth of the developing embryo.The knowledge generated from this project will provide understanding and biological options ....How mammalian males indirectly control transmission of paternal traits. This project aims to address how environmental insults in males prior to conception are able to modify phenotype of subsequent offspring. This project expects to generate fundamental knowledge in a key biological pathway on how non-genetic factors delivered by sperm at conception are able to program the growth of the developing embryo.The knowledge generated from this project will provide understanding and biological options for responding to, and potentially mitigating the impacts of environmental change on the mammalian reproductive system.Read moreRead less