Use Of Expression Profiling To Identify Genes Influencing Cardiovascular Risk In The Norfolk Island Population Isolate
Funder
National Health and Medical Research Council
Funding Amount
$697,409.00
Summary
This study will use a unique population isolate from Norfolk Island. We aim to identify genes that play a role in cardiovascular disease risk. Norfolk has a population of ~1200 permanent residents, most of whom are direct descendents of 18th century English Bounty mutineers and Polynesian women. We will undertake gene expression mapping to identify genomic loci that influence cardiovascular disease using samples from this population isolate.
Structural Basis For Inhibition Of Malaria Invasion By Targeting The Apical Membrane Antigen Of Plasmodium Falciparum.
Funder
National Health and Medical Research Council
Funding Amount
$434,134.00
Summary
3 million children die every year from malaria infections. A leading vaccine candidate is a protein from the malaria parasite called AMA1. Humans that have been infected with malaria make antibodies to this protein which can kill parasites, however little is known about how this occurs. We aim to identify regions of the protein that generate antibodies that prevent malaria parasites from invading human cells and help in the search for a vaccine against malaria.
Mapping Of Genetic Traits In Experimental Models Using Databases
Funder
National Health and Medical Research Council
Funding Amount
$237,750.00
Summary
The project aims to detect genes that influence human traits. These traits could be a disease such as diabetes or they may be much less sinister, representing hearing range as an example. Many of these traits are difficult to detect because they are governed by many genes which may also interact with the environment to influence the trait. In order to detect genes in these traits we would like to simplify the complex interactions by eliminating the environment as a potential cause or concentrati ....The project aims to detect genes that influence human traits. These traits could be a disease such as diabetes or they may be much less sinister, representing hearing range as an example. Many of these traits are difficult to detect because they are governed by many genes which may also interact with the environment to influence the trait. In order to detect genes in these traits we would like to simplify the complex interactions by eliminating the environment as a potential cause or concentrating on a particular population where the incidence appears to be much greater. In human populations we have no control over the environmental exposures and we cannot restrict their movements. For this reason many genetic studies have been conducted in mice. Many strains of mice have been generated. Their environment can be strictly controlled, enabling a much better identification of disease genes. Since mice and humans share much of their genome they also share many of their genes and are often afflicted by the same diseases. Thus if we identify genes in mice we have a very good chance of identifying the equivalent human genes. The completion of sequencing for the human genome is being closely followed by the completion of the mouse genome, precisely because mice have been used for over 100 years for genetic studies. The data generated from these sequencing efforts and prior genetic studies is now accumulating in vast databases. These databases of DNA information can be used to map genes for traits. The idea is to determine the trait measurement for many mice in different strains and compare these trait levels to the DNA state (genotype) of markers in the genome of the strains. If these are associated it indicates that the marker is situated close to a gene influencing the trait. This narrows the search considerably. Without this strategy we would have the daunting task of identifiying trait genes from many thousands of potential candidates.Read moreRead less
Characterisation Of A New Localisation For Susceptibility To Inflammatory Bowel Disease On Chromosome 12
Funder
National Health and Medical Research Council
Funding Amount
$76,125.00
Summary
One of the greatest challenges facing contemporary gastroenterology is to understand the causes of the inflammatory bowel diseases in order to develop more effective therapies. Although there have been advances in treatment over the last few years, the causes of IBD are still not known. The existence of a genetic predisposition to IBD is now well established, and there is strong evidence that the disease is the result of the interaction of a number of different genes. To date, two genetic locali ....One of the greatest challenges facing contemporary gastroenterology is to understand the causes of the inflammatory bowel diseases in order to develop more effective therapies. Although there have been advances in treatment over the last few years, the causes of IBD are still not known. The existence of a genetic predisposition to IBD is now well established, and there is strong evidence that the disease is the result of the interaction of a number of different genes. To date, two genetic localisations (one on chromosome 16 and a second on chromosome 12) have been confirmed in multicentre studies. We have identified a novel localisation for disease susceptibility on chromosome 12 in the Australian population during the course of a genome scan on 73 multiplex inflammatory bowel disease families. (The importance of this localisation has been confirmed in English and American families.) This localisation is quite separate from that originally described and many genes separate the two localisations. We will refine the new localisation by fine scale mapping in the region of the localisation that we originally identified in pure Crohn's disease families. At this stage, the localisation appears not to be important in families suffering from ulcerative colitis or in families in which both CD and UC occurs (known as mixed families), though this finding will be tested. Using state of the art molecular genetics, we will then identify and characterise the gene involved. The significance of this project lies in the importance of this localisation to the understanding of underlying biochemistry and genetics of a complex disease in which multiple genes are segregating and interacting in, some as yet undefined manner.Read moreRead less