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How are sperm mitochondria eliminated after fertilisation . The fact that mitochondria are inherited exclusively through the maternal germ-line is fundamental feature of sexual reproduction in all but a few organisms. This uni-parental inheritance is thought to prevent genetic conflict between different mitochondrial genomes. The mechanisms controlling uniparental inheritance involve eliminating the sperm mitochondria soon after fertilisation. We will investigate 2 possible mechanisms, (1) acti .... How are sperm mitochondria eliminated after fertilisation . The fact that mitochondria are inherited exclusively through the maternal germ-line is fundamental feature of sexual reproduction in all but a few organisms. This uni-parental inheritance is thought to prevent genetic conflict between different mitochondrial genomes. The mechanisms controlling uniparental inheritance involve eliminating the sperm mitochondria soon after fertilisation. We will investigate 2 possible mechanisms, (1) active destruction and (2) passive dilution. The results will help explain how heteroplasmy is avoided in order to maintain the fitness of organisms including animals and humans. The results will have long term insights into improving breeding in agriculture and in the prevention of mitochondrial genetic disease.Read moreRead less
Understanding why mammalian eggs have so much mitochondrial DNA . During oocyte growth there is massive increase in the replication of mitochondrial DNA so that each ovulated egg has 200,000-400,000 copies of the mitochondrial genome. This mitochondrial compliment will provide the template for all mitochondrial DNA in the subsequent organism. The established role of mitochondria is to provide energy in the form of ATP, but they are also known to be highly adaptive to the metabolic and energetic ....Understanding why mammalian eggs have so much mitochondrial DNA . During oocyte growth there is massive increase in the replication of mitochondrial DNA so that each ovulated egg has 200,000-400,000 copies of the mitochondrial genome. This mitochondrial compliment will provide the template for all mitochondrial DNA in the subsequent organism. The established role of mitochondria is to provide energy in the form of ATP, but they are also known to be highly adaptive to the metabolic and energetic state of the cell. In this project, we will use genetic approaches to decrease the amount of oocyte mitochondrial DNA by 90%. We will examine how this influences mitochondrial organisation, oocyte metabolism and embryo development. This new knowledge will provide insights into animal breeding and human health.Read moreRead less