Male germ line transgenesis and siRNA technology for manipulating genes in domestic species. Professor Shemesh has successfully developed male germ line transgenesis in species such as bovine and chicken. This technology allows genes to be manipulated via sperm in a wide range of animals besides mice, avoiding the need for a female in vitro fertilization regimen. He is curently applying interference RNA (siRNA) transgenically to manipulate genes in vivo. Together these two technologies offer imm ....Male germ line transgenesis and siRNA technology for manipulating genes in domestic species. Professor Shemesh has successfully developed male germ line transgenesis in species such as bovine and chicken. This technology allows genes to be manipulated via sperm in a wide range of animals besides mice, avoiding the need for a female in vitro fertilization regimen. He is curently applying interference RNA (siRNA) transgenically to manipulate genes in vivo. Together these two technologies offer immense possibilities to manipulate a wide range of species for economic, biotechnological or medical research purposes. Professor Shemesh wishes to come to Adelaide to establish these technologies there as parts of ongoing research projects, related to the physiology of the ovarian hormone relaxin in aging research.Read moreRead less
Feasibility of biological hydrogen production from biomass wastes using activate sludge microorganisms. This study will focus on biological hydrogen production from biomass wastes, not only because hydrogen is a clean and high efficient energy, but also because it can be a process for waste treatment. The research is aimed at examining the feasibility of biological hydrogen production from an organic waste stream by hydrogen producing bacteria isolated and enriched from pretreated digested activ ....Feasibility of biological hydrogen production from biomass wastes using activate sludge microorganisms. This study will focus on biological hydrogen production from biomass wastes, not only because hydrogen is a clean and high efficient energy, but also because it can be a process for waste treatment. The research is aimed at examining the feasibility of biological hydrogen production from an organic waste stream by hydrogen producing bacteria isolated and enriched from pretreated digested activated sludge. The overall goal is to get better understanding of the biochemical mechanisms, metabolic pathways effecting on the intermediate and end-products, leading to high hydrogen productivity and yield.Read moreRead less
The Australian-Netherlands project on work and stress research. Rapid changes in the nature of work globally require critical surveillance for effects on worker well-being and productivity. Occupational health policy trends in Australia and The Netherlands support continuous monitoring of the work environment. This project therefore provides a timely opportunity structure for intellectual exchange and capacity building for Australian and Dutch work and organisational psychologists, specifically ....The Australian-Netherlands project on work and stress research. Rapid changes in the nature of work globally require critical surveillance for effects on worker well-being and productivity. Occupational health policy trends in Australia and The Netherlands support continuous monitoring of the work environment. This project therefore provides a timely opportunity structure for intellectual exchange and capacity building for Australian and Dutch work and organisational psychologists, specifically in work stress and unemployment research. Highly experienced and emerging researchers together will develop and implement projects transnationally. Outcomes will include: joint doctoral-post doctoral supervision; joint publications and grants; advanced knowledge and applications, with international policy implications for improving working life and productivity.Read moreRead less