Functional characterisation of the necrotrophic effector proteins Tox1 and Tox3 from the wheat pathogen Stagonospora nodorum. Fungal pathogens cost the Australian agricultural industry over one billion dollars per year. This project will build upon recent key advances to provide a fundamental basis on how fungal pathogens cause disease. The results from this study will promote future advances in disease management with the aim of securing Australian wheat supplies.
Isolation and functional characterisation of a pathogen meta effector able to inhibit detection of multiple disease effectors by resistant plants. The rust fungi are a major economic threat to crop production in Australia. This project will investigate the molecular mechanism used by a rust fungus to prevent detection of multiple disease-inducing proteins by resistant plants and generate knowledge that will lead to the development of new and more effective disease control strategies.
Regulation and expression of disease resistance responses in the Rhynchosporium secalis/barley interaction. The barley leaf scald fungus, Rhynchosporium secalis, causes annual losses of up to 10% in Australia's major export crop, barley. The primary aim of this project is to isolate and understand the interplay of genes specifically involved in the regulation of resistance to scald. Several resistance-specific genes will be functionally analysed to identify regulatory signalling pathways that li ....Regulation and expression of disease resistance responses in the Rhynchosporium secalis/barley interaction. The barley leaf scald fungus, Rhynchosporium secalis, causes annual losses of up to 10% in Australia's major export crop, barley. The primary aim of this project is to isolate and understand the interplay of genes specifically involved in the regulation of resistance to scald. Several resistance-specific genes will be functionally analysed to identify regulatory signalling pathways that link genetic expression with the specific gene-for-gene disease resistance phenotype. Knowledge of the genes controlling signalling processes within the disease-challenged plant will allow for the development of more effective and durable resistances by traditional breeding and transgenic approaches.Read moreRead less
Interactions between genotype, plant nutrition and fungal disease development in strawberry. Strawberry (Fragaria x ananassa) growers lose more than 30% of their crop annually to disease. This project will elucidate the role of plant nutrition in disease development and investigate the interaction/s between plant genotype, pathogen and the environment. The physiological basis for durable resistance will also be established. Molecular markers for field resistance and nutrient use efficiency will ....Interactions between genotype, plant nutrition and fungal disease development in strawberry. Strawberry (Fragaria x ananassa) growers lose more than 30% of their crop annually to disease. This project will elucidate the role of plant nutrition in disease development and investigate the interaction/s between plant genotype, pathogen and the environment. The physiological basis for durable resistance will also be established. Molecular markers for field resistance and nutrient use efficiency will be developed for use in breeding programs. Furthermore, this project will enhance profitability and sustainability of the Australian strawberry industry.
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The identification of Mycosphaerella graminicola effectors that promote pathogenicity on wheat. Fungal diseases are one of the greatest challenges to sustainable wheat production in the 21st century. Septoria tritici blotch is one such disease as it inflicts millions of tonnes in yield losses per annum. This project will identify the molecular basis of Septoria tritici blotch and assess its potential as an Australian biosecurity threat.
Control of sucrose source/sink status by the plant immune system. This project aims to investigate the roles of plant malectin receptor kinases in pathogen recognition and response. The project will utilise molecular and cell biological tools to detect complex formation and changes in sugar import into cells. Expected outcomes of this project include a better understanding of how pathogens manipulate plant cells to their benefit, and greater knowledge of which host molecules participate in this ....Control of sucrose source/sink status by the plant immune system. This project aims to investigate the roles of plant malectin receptor kinases in pathogen recognition and response. The project will utilise molecular and cell biological tools to detect complex formation and changes in sugar import into cells. Expected outcomes of this project include a better understanding of how pathogens manipulate plant cells to their benefit, and greater knowledge of which host molecules participate in this process. This should provide significant benefits such as a new theoretical basis to engineer crop plants for resistance against devastating diseases.Read moreRead less
Molecular basis of rust infection and host plant resistance. Plant diseases threaten agricultural productivity in Australia, with rust fungi being a major problem for cereal grain production. This project will investigate molecular processes underlying the infection of plants by rust fungi and will provide basic knowledge for development of novel and durable disease resistance strategies.
Understanding the evolution of fungicide resistance for durable control of fungal pathogens in pyrethrum. The pyrethrum plant is grown for the extraction of natural insecticidal pyrethrins used in a variety of pest control products. Australia supplies 60 per cent of the global market for natural pyrethrins. Fungal pathogens of pyrethrum can cause severe losses. This project will investigate fungicide resistance in these pathogens at the molecular level.
Role of soil factors and transmission on propagation material of fungal pathogens in the severity of strawberry crown and root disorders. Through identification of the pathogen complexes associated with root and crown disorders, their impacts, understanding the influences of environmental conditions and rotational species, knowing the sources of major pathogens, and identification of varietal resistances to the pathogens, this project will provide a unique opportunity for growers to better manag ....Role of soil factors and transmission on propagation material of fungal pathogens in the severity of strawberry crown and root disorders. Through identification of the pathogen complexes associated with root and crown disorders, their impacts, understanding the influences of environmental conditions and rotational species, knowing the sources of major pathogens, and identification of varietal resistances to the pathogens, this project will provide a unique opportunity for growers to better manage such disorders of strawberries occurring across southern Australia. Benefits include prevention of severe losses in strawberries, making strawberry production and exports more viable, sustainable and environmentally friendly, addressing the National Research Priority 'An Environmentally Sustainable Australia' and the Priority Goal of 'Transforming existing industries".Read moreRead less
The biology, genetics, pathology and control of Alternaria species in Paulownia plantations. The development of Paulownia plantations is a rapidly expanding industry in Australia. Recently, three Alternaria species have been associated with foliar and canker disease leading to tree deaths. Alternaria disease has the potential to cause economic losses to the industry in Western Australia. Therefore, this study will examine the pathology and genetic diversity of Alternaria species, establish path ....The biology, genetics, pathology and control of Alternaria species in Paulownia plantations. The development of Paulownia plantations is a rapidly expanding industry in Australia. Recently, three Alternaria species have been associated with foliar and canker disease leading to tree deaths. Alternaria disease has the potential to cause economic losses to the industry in Western Australia. Therefore, this study will examine the pathology and genetic diversity of Alternaria species, establish pathogenicity screening of different genetic material and look at a range of integrated chemical and silvicultural approaches to reduce disease impact and severity.Read moreRead less