Evolution and the immune system: genetic differences in immune response between human populations due to adaptation to living in different geo-climatic locations. The project, which investigates the genetics of inter-population differences in immune response, will lead to advances in immunology and population genetics research, explain present population specific differences in disease incidence and possibly forecast future population trends of diseases such as asthma and allergy. The study will ....Evolution and the immune system: genetic differences in immune response between human populations due to adaptation to living in different geo-climatic locations. The project, which investigates the genetics of inter-population differences in immune response, will lead to advances in immunology and population genetics research, explain present population specific differences in disease incidence and possibly forecast future population trends of diseases such as asthma and allergy. The study will strengthen ties with collaborators around the world, thus promoting excellence in Australian research and gain Australia prestige in the international community as a country that produces research of global significance. Understanding the immune system's 'recent evolutionary roots' has implications for the health of Australians, especially in light of Australia's increasingly multi-ethnic background.Read moreRead less
Kruppel-like factors and the methylome. This project aims to test the hypothesis that the KLF/SP family of transcription factors work in part via dynamic interactions with methylated cytosine nucleotides in DNA. This is fundamental to their function as pioneer factors in reprograming and their ability to co-ordinate differentiation and organogenesis. Conversely, dynamic changes in methylation status engage or disengage new regulatory elements in the genome via recruitment of KLF/SP family protei ....Kruppel-like factors and the methylome. This project aims to test the hypothesis that the KLF/SP family of transcription factors work in part via dynamic interactions with methylated cytosine nucleotides in DNA. This is fundamental to their function as pioneer factors in reprograming and their ability to co-ordinate differentiation and organogenesis. Conversely, dynamic changes in methylation status engage or disengage new regulatory elements in the genome via recruitment of KLF/SP family proteins as specific effectors. This project will address a new paradigm in genetics that is likely to underpin development.Read moreRead less