Linkage Infrastructure, Equipment And Facilities - Grant ID: LE100100078
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
Multiphoton confocal microscope. Recent developments in light microscopy have revolutionised modern molecular and cellular biology. Dramatic improvements in microscope hardware and software and in the range of fluorescent markers used to tag selected cellular components now provide new and exciting opportunities to localise and determine the function of ions and molecules not only in preserved samples but also, most excitingly, in living cells. The proposed multiphoton confocal microscope will ....Multiphoton confocal microscope. Recent developments in light microscopy have revolutionised modern molecular and cellular biology. Dramatic improvements in microscope hardware and software and in the range of fluorescent markers used to tag selected cellular components now provide new and exciting opportunities to localise and determine the function of ions and molecules not only in preserved samples but also, most excitingly, in living cells. The proposed multiphoton confocal microscope will allow researchers in Canberra to obtain high quality images of static and moving components in living cells and tissues and will facilitate the discovery of new knowledge that contributes to our understanding and control of development and disease in both plants and animals.Read moreRead less
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.
Translocation of secreted effector proteins from fungal pathogens into host plant cells. Every year, fungal diseases of plants cause huge losses in agricultural productivity and extensive environmental damage in Australia. Disease control in major crops, like wheat, currently relies heavily on breeding for disease resistance. However, fungal pathogens continually adapt to overcome plant defences, necessitating identification of new sources of resistance. The research in this project will eluc ....Translocation of secreted effector proteins from fungal pathogens into host plant cells. Every year, fungal diseases of plants cause huge losses in agricultural productivity and extensive environmental damage in Australia. Disease control in major crops, like wheat, currently relies heavily on breeding for disease resistance. However, fungal pathogens continually adapt to overcome plant defences, necessitating identification of new sources of resistance. The research in this project will elucidate the molecular basis of a new aspect of the establishment of plant infection by fungi, and in so doing will provide new avenues for the development of novel disease resistance strategies, with relevance in particular to devastating cereal diseases like wheat rust.Read moreRead less
Role of fungal secreted proteins as plant disease effectors. Many crop diseases are economically significant threats to agricultural productivity in Australia, with rust fungi in particular being a major problem for cereal grain production. Current methods of rust disease control are based on breeding for resistance but continued adaption by rust fungi to overcome plant defences means there is an urgent need for new methods of crop protection. This project will investigate molecular processes ....Role of fungal secreted proteins as plant disease effectors. Many crop diseases are economically significant threats to agricultural productivity in Australia, with rust fungi in particular being a major problem for cereal grain production. Current methods of rust disease control are based on breeding for resistance but continued adaption by rust fungi to overcome plant defences means there is an urgent need for new methods of crop protection. This project will investigate molecular processes underlying fungal infection of plants, focusing on mechanisms that enable fungi to take over the metabolism of infected cells. The research will provide basic knowledge for development of novel and durable disease resistance strategies.Read moreRead less
Plant immunity to fungal and bacterial pathogens. Since 2003, the Australian wheat crop has been threatened by a continuing stripe rust epidemic, which has required an additional production expense of at least $100 million per annum in fungicides. This Australian National University (ANU) - Commonwealth Scientific and Industrial Research Organisation (CSIRO) joint proposal aims to exploit the next-generation genome sequencing and associated bioinformatic and proteomic methods which are poised to ....Plant immunity to fungal and bacterial pathogens. Since 2003, the Australian wheat crop has been threatened by a continuing stripe rust epidemic, which has required an additional production expense of at least $100 million per annum in fungicides. This Australian National University (ANU) - Commonwealth Scientific and Industrial Research Organisation (CSIRO) joint proposal aims to exploit the next-generation genome sequencing and associated bioinformatic and proteomic methods which are poised to revolutionise biology to investigate the wheat-fungus interaction. We will develop new effective approaches for environmentally benign stripe rust control based on new knowledge about how this fungus causes disease and avoids the wheat's immune surveillance system.Read moreRead less
Factors causing wheat stripe rust epidemics. This project aims to tackle wheat stripe rust, one of the most important fungal diseases of wheat in Australia, causing losses of up to $125 million a year. This project expects to gain insights into the fungal evolution and the molecular mechanism that causes hyper-virulent pathogen isolates. The expected outcome is to identify and characterise multiple genetic factors in the pathogen that contribute to wheat stripe rust epidemics in Australia. This ....Factors causing wheat stripe rust epidemics. This project aims to tackle wheat stripe rust, one of the most important fungal diseases of wheat in Australia, causing losses of up to $125 million a year. This project expects to gain insights into the fungal evolution and the molecular mechanism that causes hyper-virulent pathogen isolates. The expected outcome is to identify and characterise multiple genetic factors in the pathogen that contribute to wheat stripe rust epidemics in Australia. This project will contribute to improved disease management strategies to contain wheat stripe rust, resulting in higher wheat yields, reduced application of fungicides and increased revenue for Australian wheat farmers.Read moreRead less
Decoding germination defects that threaten global wheat production. Wheat is a major commodity in Australia. Sprouting damage represents a major global threat to wheat production and food security. This project will explore the genetic and molecular mechanisms underpinning pre-harvest sprouting (PHS) and late-maturity amylase (LMA). This project will apply transcriptomics and proteomics to measure the expression of the biomolecules associated with PHS and LMA, generating fundamental knowledge of ....Decoding germination defects that threaten global wheat production. Wheat is a major commodity in Australia. Sprouting damage represents a major global threat to wheat production and food security. This project will explore the genetic and molecular mechanisms underpinning pre-harvest sprouting (PHS) and late-maturity amylase (LMA). This project will apply transcriptomics and proteomics to measure the expression of the biomolecules associated with PHS and LMA, generating fundamental knowledge of grain molecular physiology that addresses a significant knowledge gap. The project will deliver tools capable of differentiating these conditions, thereby minimising economic losses. A better understanding of the genetic basis of PHS and LMA will lay the foundation for advanced breeding aiming to eliminate these. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100066
Funder
Australian Research Council
Funding Amount
$362,000.00
Summary
Uncovering how rust fungi cause devastating plant diseases. This project aims to generate a new understanding of how rust fungi infect plant cells using single-cell sequencing technologies and data-driven investigations. This project expects to discover conserved rust infection strategies and the first characterisations of mechanisms that transfer virulence proteins from the fungus to the plant. Innovations and new knowledge from this project will be of high-impact and of benefit to the Australi ....Uncovering how rust fungi cause devastating plant diseases. This project aims to generate a new understanding of how rust fungi infect plant cells using single-cell sequencing technologies and data-driven investigations. This project expects to discover conserved rust infection strategies and the first characterisations of mechanisms that transfer virulence proteins from the fungus to the plant. Innovations and new knowledge from this project will be of high-impact and of benefit to the Australian and international community through knowledge discovery about conserved rust infection mechanisms. This project expects to deliver strategies for effective rust disease management that will in the future lessen the impact of rust diseases on agriculture and natural ecosystems in Australia.Read moreRead less
Protein trafficking pathways in fungal rust pathogens of plants. This project aims to investigate protein trafficking pathways in fungal rusts of plants. These are devastating diseases that cause major losses in agricultural crops including wheat. Little is known of how these fungi form long and intimate relationships with plants to extract their nutrients. Using both model and agriculturally important fungi, the project will try to identify proteins that are transferred within the fungus and to ....Protein trafficking pathways in fungal rust pathogens of plants. This project aims to investigate protein trafficking pathways in fungal rusts of plants. These are devastating diseases that cause major losses in agricultural crops including wheat. Little is known of how these fungi form long and intimate relationships with plants to extract their nutrients. Using both model and agriculturally important fungi, the project will try to identify proteins that are transferred within the fungus and to the plant host to modify the infection. It will also identify fungal proteins needed to deliver trafficked proteins to plants. These discoveries ultimately may be translated into control strategies for these costly diseases.Read moreRead less