Characterisation of interacting genes that condition avirulence and resistance between Phytophthora pathogens and soybean. Plant pathogens from the genus Phytophthora cause severe crop losses in Australia and worldwide. Resistance in host plants is frequently overcome by mutation of avirulence genes in the pathogen to create virulent new races. We will clone and characterise genes from Phytophthora sojae that control virulence and avirulence, and isolate soybean genes whose products interact w ....Characterisation of interacting genes that condition avirulence and resistance between Phytophthora pathogens and soybean. Plant pathogens from the genus Phytophthora cause severe crop losses in Australia and worldwide. Resistance in host plants is frequently overcome by mutation of avirulence genes in the pathogen to create virulent new races. We will clone and characterise genes from Phytophthora sojae that control virulence and avirulence, and isolate soybean genes whose products interact with the Phytophthora gene products. An understanding of the molecular mechanisms than enable current plant varieties to recognise Phytophthora pathogens leading to resistance or susceptibility will assist the development of novel strategies for durable disease resistance in soybean and other crop plants.Read moreRead less
Deciphering the role of microRNAs during pathogen attack: new concepts for disease resistance in plants. Small non-coding RNAs called ‘microRNAs’ regulate diverse pathways in plants including plant defence against pathogens. This project will investigate the roles of plant microRNAs in response to four economically important viruses and compare these to a bacterial and a fungal pathogen. The aim is to dissect the underlying molecular mechanism of microRNA-based gene regulation during pathogen in ....Deciphering the role of microRNAs during pathogen attack: new concepts for disease resistance in plants. Small non-coding RNAs called ‘microRNAs’ regulate diverse pathways in plants including plant defence against pathogens. This project will investigate the roles of plant microRNAs in response to four economically important viruses and compare these to a bacterial and a fungal pathogen. The aim is to dissect the underlying molecular mechanism of microRNA-based gene regulation during pathogen infection and specifically identify common microRNAs which have evident impact during virus attack. This study is crucial due to its focus on virus diseases that cause severe damage to many crop plants; a global issue with strong implications for food security. This project is expected to provide basic new concepts for disease resistance in plants.Read moreRead less