Genome evolution & adaptation of the multinuclear wheat stripe rust fungus. Animals and plants package their genomes into a single nucleus within each cell. In contrast, millions of fungal species accommodate multiple nuclei containing individual haploid genomes. It is currently unknown what the evolutionary implications are for this unusual genome division into multiple nuclei. Here we explore the evolutionary consequences of genome division into multiple nuclei for the first time by applying c ....Genome evolution & adaptation of the multinuclear wheat stripe rust fungus. Animals and plants package their genomes into a single nucleus within each cell. In contrast, millions of fungal species accommodate multiple nuclei containing individual haploid genomes. It is currently unknown what the evolutionary implications are for this unusual genome division into multiple nuclei. Here we explore the evolutionary consequences of genome division into multiple nuclei for the first time by applying cutting edge genome biology tools and algorithms. The economically significant study system is the devastating wheat stripe rust fungus. This pathogen costs Australian farmers over $100 million a year. New understanding is expected to lead to better disease management, reduced fungicide applications, and increased yields.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120101127
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
An integrated statistical genetics framework for breeding superior wheat varieties. Genetic studies in agriculture are rapidly increasing in size and complexity in pursuit of genes behind desirable traits such as yield and water use efficiency. This project will address the need for efficient statistical methods to analyse genetic data and thus enable production of wheat varieties that will contribute to Australian food security.
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