The role of neutral amino acid transport in normal physiology. Future benefits of these studies include the Promotion and Maintenance of Good Health achieved by providing: (1) a better understanding of brain and balance disorders; (2) insights into the damaging effects of the sun and; (3) existing neonatal screening programmes for Hartnup disorder with greater scientific foundation regarding the implications of inheriting this condition, including dietary advce. We will be able to provide Austr ....The role of neutral amino acid transport in normal physiology. Future benefits of these studies include the Promotion and Maintenance of Good Health achieved by providing: (1) a better understanding of brain and balance disorders; (2) insights into the damaging effects of the sun and; (3) existing neonatal screening programmes for Hartnup disorder with greater scientific foundation regarding the implications of inheriting this condition, including dietary advce. We will be able to provide Australians who inherit Hartnup disorder with a better understanding of this disease by enabling individuals and families to make choices that lead to healthy, productive and fulfilling lives.Read moreRead less
Mechanism of higher-order chromatin formation and its role in controlling gene expression. The organization of genomic DNA into chromatin has solved one of the most difficult engineering problems required for the development of a multicellular organism; the compaction of over two meters DNA into a cell almost one millionth this size. Importantly, this compaction of the genome into chromatin has also been exploited by the cell to regulate the expression of genes. The aim of this investigation is ....Mechanism of higher-order chromatin formation and its role in controlling gene expression. The organization of genomic DNA into chromatin has solved one of the most difficult engineering problems required for the development of a multicellular organism; the compaction of over two meters DNA into a cell almost one millionth this size. Importantly, this compaction of the genome into chromatin has also been exploited by the cell to regulate the expression of genes. The aim of this investigation is to elucidate how genes are assembled into complex active or inactive chromatin structures by employing a novel in vitro system. This information will have important implications for gene therapy strategies.
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The Dynamic Control of Chromatin Structure. A human chromosome is a highly heterogeneous global structure because along its axis, it folds to different extents to form either highly compacted domains that repress the expression of genes or less condensed regions that enable genes to be turned on. Changes to the structure or stability of chromosomes, and the corresponding alterations to gene expression, have been linked to many diseases states like defects in human development and cancer. This s ....The Dynamic Control of Chromatin Structure. A human chromosome is a highly heterogeneous global structure because along its axis, it folds to different extents to form either highly compacted domains that repress the expression of genes or less condensed regions that enable genes to be turned on. Changes to the structure or stability of chromosomes, and the corresponding alterations to gene expression, have been linked to many diseases states like defects in human development and cancer. This study will uncover the underpinning mechanism of how our chromosomes are organised into distinct functional domains, which may offer the potential to develop new strategies to correct chromosomal abnormalities.
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