Enhancement of monopartite geminivirus pathogenicity by satellite DNA beta encoded betaC1 protein: the role of host factors. Australian incursions of geminiviruses are uncontrollable due to their unique mode of spread by whiteflies. The first incursion in Darwin in 1970 has spread to Far Northern Queensland. The second in SE Queensland in 2006 is estimated to cause $500 million loss to horticulture. Our $2 billion cotton industry is threatened by cotton leaf curl diseases from South Asia, where ....Enhancement of monopartite geminivirus pathogenicity by satellite DNA beta encoded betaC1 protein: the role of host factors. Australian incursions of geminiviruses are uncontrollable due to their unique mode of spread by whiteflies. The first incursion in Darwin in 1970 has spread to Far Northern Queensland. The second in SE Queensland in 2006 is estimated to cause $500 million loss to horticulture. Our $2 billion cotton industry is threatened by cotton leaf curl diseases from South Asia, where DNA beta enhances virus replication and disease severity. DNA beta has the potential to enter Australia with several different geminiviruses and to spread into others by co-infection, which requires research on detection and pathogenesis of DNA beta.Read moreRead less
Role of plant host factors in the replication and pathogenesis of Tomato leaf curl virus (TLCV). Geminivirus infection is an emerging problem in the Australian tomato growing industry which is currently worth ca.A$200m annually. Knowledge gained from this research will have direct benefit in safeguarding this industry by providing an insight into geminivirus replication and identifying molecular targets for virus control. More generally, the technology developed through this study will contribu ....Role of plant host factors in the replication and pathogenesis of Tomato leaf curl virus (TLCV). Geminivirus infection is an emerging problem in the Australian tomato growing industry which is currently worth ca.A$200m annually. Knowledge gained from this research will have direct benefit in safeguarding this industry by providing an insight into geminivirus replication and identifying molecular targets for virus control. More generally, the technology developed through this study will contribute to our basic understanding of virus replication in plants with a view to controlling virus diseases by direct molecular intervention with specifically engineered tools. We foresee potential industrial applications. Read moreRead less
Detection and elimination of resting spores of Olpidium vectoring lettuce big-vein disease in lettuce seedling nursery production. This project will devise nucleic acid and serology methods for detection of Olpidium brassicae, vector of lettuce big-vein disease (LBVD), during various phases of lettuce seedling production in nursery environments. It will be the first study to develop sustainable and environmentally responsible nursery best-practice protocols for integrated management of O. brass ....Detection and elimination of resting spores of Olpidium vectoring lettuce big-vein disease in lettuce seedling nursery production. This project will devise nucleic acid and serology methods for detection of Olpidium brassicae, vector of lettuce big-vein disease (LBVD), during various phases of lettuce seedling production in nursery environments. It will be the first study to develop sustainable and environmentally responsible nursery best-practice protocols for integrated management of O. brassicae in routine seedling production and for management within the lettuce industry. These protocols will ensure that the spread of LBVD from contaminated lettuce nurseries to farms is prevented. It will also be a unique study of the establishment of a disease in new land with different soils and agricultural practices.Read moreRead less
In-Vitro Production of Baculovirus Biopesticides - A Systems Biology Approach. This project has the potential to develop an in-vitro production process that can produce large quantities of Baculoviruses at costs comparable to selective chemicals. This could transform agriculture allowing farmers to choose an insect control option that is both safe and efficacious to use as well as economically and environmentally superior to chemicals, and less controversial than transgenic plants. This outcome ....In-Vitro Production of Baculovirus Biopesticides - A Systems Biology Approach. This project has the potential to develop an in-vitro production process that can produce large quantities of Baculoviruses at costs comparable to selective chemicals. This could transform agriculture allowing farmers to choose an insect control option that is both safe and efficacious to use as well as economically and environmentally superior to chemicals, and less controversial than transgenic plants. This outcome would enhance Australia's reputation in the animal cell technology field (related technology is used to produce protein pharmaceutical products), and will earn significant export dollars through licensing out of the technology or through large scale manufacturing and export of the product itself. Read moreRead less