Characterization Of A Novel Human X-linked Gene RBMX, A Candidate For X-linked Mental Retardation
Funder
National Health and Medical Research Council
Funding Amount
$356,870.00
Summary
We recently discovered a novel gene (which we have called RBMX for RNA-binding protein, X chromosome) on the human X chromosome. Its function is quite unknown, but it is active in all tissues, and it has changed very little in evolution, so we think it must have an important function in human development. Genes with a similar sequence bind to RNA and convert it to its final active form, so RBMX may have a similar role. Other RNA-binding proteins are active in the brain, so we suspect that RBMX m ....We recently discovered a novel gene (which we have called RBMX for RNA-binding protein, X chromosome) on the human X chromosome. Its function is quite unknown, but it is active in all tissues, and it has changed very little in evolution, so we think it must have an important function in human development. Genes with a similar sequence bind to RNA and convert it to its final active form, so RBMX may have a similar role. Other RNA-binding proteins are active in the brain, so we suspect that RBMX may be involved in brain development and learning. The RBMX gene is also interesting because it has a copy called RBMY on the human Y chromosome, which is thought to have a critical (unknown) function in sperm production. Of particular note is our finding that RBMX maps to the long arm of the human X chromosome at Xq26. This is a region that contains several inherited mental retardation syndromes called X linked mental retardation (XLMR) which are carried by females and manifest in males. At least eight XLMR syndromes have been mapped to human Xq26. Several of the syndromes have characteristic skeletal and facial abnormalities, as well as a range of other anomalies.. We will completely characterise the human RBMX gene. As well as giving us fresh clues to its function, this will allow us to make a mouse strain that lacks the gene (knockout) so we can see whether it is critical for life, and if it is involved in brain development and learning. Identification of an XLMR gene coding for an RNA binding protein will shed light on the role of RNA metabolism in the brain, and the effect of disruptions of RNA processing on mental function. We will then screen the RBMX gene in families with XLMR syndromes, to look for RBMX mutations in patients which may cause XLMR. If mutations in RBMX cause one or more XMLR phenotypes, it will be possible to use this knowledge to diagnose the condition and detect carriers.Read moreRead less
Liver Cell Transplantation For The Treatment Of Liver Based Metabolic Diseases.
Funder
National Health and Medical Research Council
Funding Amount
$444,143.00
Summary
We propose to investigate the role of liver cell transplantation (LCT) for the therapy of inherited liver-based metabolic diseases using a methylmalonic aciduria (MMA) mouse model. LCT provides an exciting alternative to whole organ transplantation. Initially it was considered liver cells would be immunopriviledged. This has not proven to be the case. Immune modulation will be important. We will also examine immune modulation using antibodies to optimise longterm survival of allogeneic cells.
Communication Of Genetic Information In Families: A Randomised Controlled Trial Of A Genetic Counselling Intervention.
Funder
National Health and Medical Research Council
Funding Amount
$359,728.00
Summary
The amount of genetic testing information available to Australians has exploded as a result of the human genome project. Our multi-disciplinary team will investigate the most acceptable and feasible way for important genetic information to be transmitted in families. This study will be a world first trial of a genetic counselling intervention which aims to help patients and health professionals communicate life-changing information in families where there is a serious genetic condition.
Communicating genetic information in families: practical, legal, social and ethical issues. The outcomes of this study, will give evidence as to whether or not people do pass on genetic risk information to relatives, how they do it, what the barriers are, what their preferences are. It will also provide data so that mechanisms for best practice communication and clear guidelines for legal and health professionals can be developed. Effective communication and exchange of genetic risk information ....Communicating genetic information in families: practical, legal, social and ethical issues. The outcomes of this study, will give evidence as to whether or not people do pass on genetic risk information to relatives, how they do it, what the barriers are, what their preferences are. It will also provide data so that mechanisms for best practice communication and clear guidelines for legal and health professionals can be developed. Effective communication and exchange of genetic risk information will benefit individual health and the health of future generations.Read moreRead less
Development Of A Safe And Effective Treatment For Neuropathology In MPS IIIA.
Funder
National Health and Medical Research Council
Funding Amount
$665,320.00
Summary
MPS IIIA is an inherited disorder that results in progressive brain disease in affected children. The disorder cannot be treated at present because it has not been possible to find an effective way to deliver treatment to the brain. This project seeks to evaluate a method to overcome this problem. Findings in this project can be applied to other, similar disorders that affect the brain.