Essential Roles Of RNA Polymerase II Transcription And DNA Damage Response Pathway In The Maintenance Of Centromere Chromatin Assembly
Funder
National Health and Medical Research Council
Funding Amount
$601,224.00
Summary
A centromere is a region of DNA typically found near the middle of a chromosome where two identical sister chromatids come in contact. It is involved in cell division as the point of attachment to the mitotic spindle. Defective centromeres can result in genome instability, infertility and development of cancers. This work involves a study into how the identity of a centromere is maintained and inherited after each cell division. This has significant implication in the understanding of cell growt ....A centromere is a region of DNA typically found near the middle of a chromosome where two identical sister chromatids come in contact. It is involved in cell division as the point of attachment to the mitotic spindle. Defective centromeres can result in genome instability, infertility and development of cancers. This work involves a study into how the identity of a centromere is maintained and inherited after each cell division. This has significant implication in the understanding of cell growth and cancer development.Read moreRead less
Epigenetic Regulation Of Core Centromere CENP-A Chromatin Integrity
Funder
National Health and Medical Research Council
Funding Amount
$318,284.00
Summary
A centromere is a region of DNA typically found near the middle of a chromosome where two identical sister chromatids come in contact. It is involved in cell division as the point of attachment to the mitotic spindle. Defective centromeres can result in genome instability, infertility and development of cancers. This work involves a study into how the identity of a centromere is maintained and inherited after each cell division. This has significant implication in the understanding of cell growt ....A centromere is a region of DNA typically found near the middle of a chromosome where two identical sister chromatids come in contact. It is involved in cell division as the point of attachment to the mitotic spindle. Defective centromeres can result in genome instability, infertility and development of cancers. This work involves a study into how the identity of a centromere is maintained and inherited after each cell division. This has significant implication in the understanding of cell growth and cancer development.Read moreRead less
The Organisation Of The Chromosome Into Distinct Epigenetic Domains And Its Link With Development And Disease
Funder
National Health and Medical Research Council
Funding Amount
$521,591.00
Summary
This investigation will show that a key cellular mechanism that determines how the chromosome is organised into stable domains is by changing the make-up of chromosomal domains through the replacement of histone proteins with specialised forms of histones called variants . This fundamental research will provide important new information on how chromosomes become unstable in cancer.
Investigating The Role Of Novel Heterochromatin And Centromere Proteins In Chromosome Segregation
Funder
National Health and Medical Research Council
Funding Amount
$522,896.00
Summary
The equal division of genetic material during cell division is essential so that genetic material is not lost or gained. This process is controlled by a complex array of proteins that replicate the genome, maintain its structural integrity, and equally distribute one copy to each daughter cell. This research aims to study the functions of newly identified proteins required for this process in a single cell yeast model-system and in human and mouse cells.
Development Of Therapeutically Useful Human Artificial Chromosomes For Gene Delivery And Optimal Gene Expression
Funder
National Health and Medical Research Council
Funding Amount
$496,986.00
Summary
Gene therapy is an exciting new form of treatment for genetic disorders aimed at providing long-term correction of the problems at source - namely the affected gene. The biggest technical hurdle facing gene therapy is to be able to deliver the therapeutic genes efficiently and safely into patient cells. Many gene therapy protocols are currently being trialled clinically. These protocols, based mostly on the use of attenuated viruses to deliver the genes, carry potential risks to the patients in ....Gene therapy is an exciting new form of treatment for genetic disorders aimed at providing long-term correction of the problems at source - namely the affected gene. The biggest technical hurdle facing gene therapy is to be able to deliver the therapeutic genes efficiently and safely into patient cells. Many gene therapy protocols are currently being trialled clinically. These protocols, based mostly on the use of attenuated viruses to deliver the genes, carry potential risks to the patients in terms of infection, immune response, and germline modification. We have developed the first stage of a new technology for gene delivery that does not require the use of viruses. This technology is based on the generation of human artificial chromosomes, which are smaller versions of the naturally occurring chromosomes that carry all the genes inside our cells. Safety in these artificial chromosomes comes from the use of entirely human materials for their engineering. These artificial chromosomes also have other advantages over the viral approaches, including allowing large genes to be carried, and providing a permanent cure in a single treatment. We have already successfully constructed, published, and patented a number of first-generation human artificial chromosomes. The current project aims to complete the next proof-of-concept milestone towards the further development of this technology. Specifically, we propose to demonstrate the ability of the artificial chromosomes to carry genes and provide sustainable expression of these genes in cells and in animal models. Success in this study will allow the technology to proceed rapidly into commercialisation and clinical trial as a new improved tool for gene delivery and gene therapy.Read moreRead less