Mining the rice genome for alleles of value in rice improvement. Food production and quality are determined by the varieties of food plants that are used in agriculture. A high quality rice genome sequence became available in 2005. This project will mine the data in the sequence to identify genes associated with key production and quality traits. New technologies and strategies will be developed and applied. The discoveries will be of value for the model crop, rice and for other cereal and foo ....Mining the rice genome for alleles of value in rice improvement. Food production and quality are determined by the varieties of food plants that are used in agriculture. A high quality rice genome sequence became available in 2005. This project will mine the data in the sequence to identify genes associated with key production and quality traits. New technologies and strategies will be developed and applied. The discoveries will be of value for the model crop, rice and for other cereal and food crops. Human health benefits from the availability of technologies to combine desirable nutritional traits and attractiveness to humans. This ensures healthy foods will be produced and consumed.Read moreRead less
Starting closer to home: disease control and the nonhost resistance paradigm in plants. The wellbeing of all humans depends upon plant production. This project will investigate the feasibility of transferring disease resistance genes among wheat, barley and oats, which account for 78 per cent of Australian grain production, to achieve sustained disease control, by dissecting the genetic bases of resistance to stem rust across these three crop species.
Early Career Industry Fellowships - Grant ID: IE230100282
Funder
Australian Research Council
Funding Amount
$475,181.00
Summary
Delivering breeding-oriented genetic tools for cereal disease resistance. This project will focus specifically on delivering the genetic tools to the industry partner to assist its wheat and barley breeders to increase the accuracy and efficiency of incorporating the durable wheat stripe rust disease and barley leaf rust disease resistance into their core germplasm collections, respectively. The expected outcomes will also contribute to filling our knowledge gap in understanding the cereal rust ....Delivering breeding-oriented genetic tools for cereal disease resistance. This project will focus specifically on delivering the genetic tools to the industry partner to assist its wheat and barley breeders to increase the accuracy and efficiency of incorporating the durable wheat stripe rust disease and barley leaf rust disease resistance into their core germplasm collections, respectively. The expected outcomes will also contribute to filling our knowledge gap in understanding the cereal rust innate immune system and benefit other cereal fungal pathosystems. The wide application of the expected outcomes from the proposed project will reduce the utilisation of fungicides and subsequently will subsequently contribute to the resilience of cereal crops and sustainable global food security.Read moreRead less