Discovering genes and mechanisms regulating immune responses. The Fellowship will retain and expand a pioneering Australian research program, and attract to Australia major international investment and technology linkages, making use of the DNA sequence of humans and other mammals to advance understanding of immunity and infection control in public health, agriculture and industry. The program will build on Australia's pre-eminent research strengths in the field of immunity and infection, and w ....Discovering genes and mechanisms regulating immune responses. The Fellowship will retain and expand a pioneering Australian research program, and attract to Australia major international investment and technology linkages, making use of the DNA sequence of humans and other mammals to advance understanding of immunity and infection control in public health, agriculture and industry. The program will build on Australia's pre-eminent research strengths in the field of immunity and infection, and will create new knowledge and resources to improve human and animal health through vaccines, pharmaceuticals and public health policy. Read moreRead less
Histone H3.3-dependent transcriptional control and B cell differentiation. This project aims to investigate the fundamental way cells assemble transcriptional machinery to turn on genes and retain transcriptional memory. This project expects to generate new knowledge in the areas of both chromatin biology and immunology, using interdisciplinary approaches. Expected outcomes of this project include an enhanced capacity, through institutional and international collaborations, to determine whether ....Histone H3.3-dependent transcriptional control and B cell differentiation. This project aims to investigate the fundamental way cells assemble transcriptional machinery to turn on genes and retain transcriptional memory. This project expects to generate new knowledge in the areas of both chromatin biology and immunology, using interdisciplinary approaches. Expected outcomes of this project include an enhanced capacity, through institutional and international collaborations, to determine whether the rapid transcription and function characteristic of immune memory in response to stimuli is due to histone H3 variant and its associated nuclear bodies. This should provide significant benefits, such as understanding epigenetic mechanisms that underlie transcription initiation and maintenance across many species.Read moreRead less