Y Chromosome Mechanisms In Coronary Artery Disease
Funder
National Health and Medical Research Council
Funding Amount
$369,076.00
Summary
The Y chromosome determines sex in men and until recently was not thought to contribute to heart disease. We previously found a specific type of Y chromosome that does contribute to heart disease. In the current project we plan to find the exact gene and mechanism in the search as a therapeutic target.
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 Telomere Chromatin And Genome Stability
Funder
National Health and Medical Research Council
Funding Amount
$633,447.00
Summary
Telomeres are structures at the end of the chromosomes that impact cell replication. 15% of cancers, called ALT cancers, show telomere instability, increased DNA damage and are frequently mutated for the ATRX gene. ALT cancers have poor prognosis, due to the limited understanding of ALT cancer activation. This study aims to create a model of ALT activation to uncover the mechanisms that control ALT tumourigenesis. This could lead to potential ALT-specific diagnostic and therapeutic tools.
Function Of ATRX, H3.3 And PML Nuclear Bodies In The Regulation Of Telomere Chromatin Integrity
Funder
National Health and Medical Research Council
Funding Amount
$434,652.00
Summary
The telomere is required for protecting chromosome ends. During cell division and development, telomeres lose their repeats, exposing the chromosome ends to damage. The consequences of this damage are disease, cancer, and aging. By contrast, embryonic stem cells (ES) continually renew their telomeres and do not stop growing. ES cells thereby provide a means to unravel the molecular mechanisms of indefinite telomere renewal. Here we propose a novel mechanism that operates to control continual tel ....The telomere is required for protecting chromosome ends. During cell division and development, telomeres lose their repeats, exposing the chromosome ends to damage. The consequences of this damage are disease, cancer, and aging. By contrast, embryonic stem cells (ES) continually renew their telomeres and do not stop growing. ES cells thereby provide a means to unravel the molecular mechanisms of indefinite telomere renewal. Here we propose a novel mechanism that operates to control continual telomere renewal in ES cells.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
Understanding The Structure And Function Of The Chromosome Condensin Complex
Funder
National Health and Medical Research Council
Funding Amount
$620,731.00
Summary
In order to survive cells need to divide their genetic material (DNA) equally between two daughter cells. For correct cell division to occur DNA has to be correctly packaged into condensed and organised chromosomes. Improper packaging of genetic material can result in unregulated cells that may become cancerous or lead to other genetic diseases such as Down's Syndrome. Understanding the key players regulating this process is vital to allowing researchers to further work in these areas.
Understanding The Role Of Chromosome Condensation Proteins And Their Link To Disease
Funder
National Health and Medical Research Council
Funding Amount
$601,224.00
Summary
Cells divide through a complex cascade of signals from our genetic material (DNA) which need to be finely tuned for events to occur properly. Errors in control cause faulty cell division and lead to diseases such as cancer. We have identified a master controller of these events termed the condensin complex and aim to understand how it orchestrates these functions by creating a map of its DNA location and understanding which regions in the genetic material it controls and how.
HIC1 Prevents Tumour Initiation By Maintaining Genomic Stability
Funder
National Health and Medical Research Council
Funding Amount
$531,681.00
Summary
Chromosomes are large structures that package the genome. Abnormalities in the structure and function of chromosomes are now recognised an in important driver of cancer. Using a genetically engineered mouse model this project seeks to understand how this process evolves from the very earliest stages in the evolution of a tumour.
How Chromatin Compaction Is Regulated And Its Link With Disease
Funder
National Health and Medical Research Council
Funding Amount
$493,747.00
Summary
Chromosomes are constructed from very small particles called nucleosomes. How these nucleosomes interact with each other to build an entire chromosome is not known but elucidating this mechanism is critical in order to understand cancer when chromosomes become unstable. Furthermore, the strength of nucleosome-nucleosome interactions determines whether a gene is expressed or not. This study will elucidate the nature and the mechanism of how nucleosome-nucleosome interactions are regulated.
Understanding And Manipulating Long-range DNA Looping In Gene Regulation
Funder
National Health and Medical Research Council
Funding Amount
$351,025.00
Summary
The turning on and off of genes often involves physical interactions between the gene and other parts of the DNA that lie far away from the gene. Disruption of this gene regulation is likely to contribute to a wide range of diseases, including heart disease and cancer. This project seeks to better understand the complex puzzle of how the correct DNA connections are chosen over the large number of possible mis-connections, by trying to find the fundamental laws that control DNA-DNA interactions.