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
Characterisation of a novel disease immunity pathway in plants. This project aims to understand the mechanisms by which the novel signalling molecule, CAPE1, contributes to
plant immunity. Studies to date have confirmed that CAPE1 inhibits plant diseases but it is unknown how. This
project aims to provide a seminal advance to the field by elucidating how the peptide is generated, how it is
perceived by the plant and the processes by which peptide contributes to plant defence. The expected outcom ....Characterisation of a novel disease immunity pathway in plants. This project aims to understand the mechanisms by which the novel signalling molecule, CAPE1, contributes to
plant immunity. Studies to date have confirmed that CAPE1 inhibits plant diseases but it is unknown how. This
project aims to provide a seminal advance to the field by elucidating how the peptide is generated, how it is
perceived by the plant and the processes by which peptide contributes to plant defence. The expected outcomes
of this project will include a detailed characterisation of a novel plant defence pathway as well the education and
training of next generation of plant scientists. Achieving these outcomes would provide the basis for new
innovative disease management strategies through the manipulation of this novel pathway.Read moreRead less
The roles of pathogen effectors in promoting rust diseases of plants. Rust diseases threaten global food security. This cross-institutional project aims to discover how proteins secreted by rust fungi promote disease following their translocation into plant cells. It will use the interaction between flax and the flax rust fungus as a powerful model system to test the hypothesis that manipulation of host RNA metabolism is a fundamental mechanism underpinning rust pathogenesis. This research is in ....The roles of pathogen effectors in promoting rust diseases of plants. Rust diseases threaten global food security. This cross-institutional project aims to discover how proteins secreted by rust fungi promote disease following their translocation into plant cells. It will use the interaction between flax and the flax rust fungus as a powerful model system to test the hypothesis that manipulation of host RNA metabolism is a fundamental mechanism underpinning rust pathogenesis. This research is intended to dramatically improve our understanding of the molecular mechanisms used by rust fungi to establish infection. The knowledge gained is expected to facilitate the development of new strategies for rust disease management in food crops by identifying pathogenic processes that can be targeted for intervention.Read moreRead less
Molecular basis for susceptibility and immunity to Fusarium wilt disease. Fusarium wilt is a devastating disease of many important crop plants, including banana, cotton and tomato. There are significant gaps in our understanding of this disease that need to be addressed to enable better disease management. This project aims to identify and analyse tomato proteins targeted by Fusarium effector proteins (virulence factors), determine how corresponding tomato receptors (resistance proteins) recogni ....Molecular basis for susceptibility and immunity to Fusarium wilt disease. Fusarium wilt is a devastating disease of many important crop plants, including banana, cotton and tomato. There are significant gaps in our understanding of this disease that need to be addressed to enable better disease management. This project aims to identify and analyse tomato proteins targeted by Fusarium effector proteins (virulence factors), determine how corresponding tomato receptors (resistance proteins) recognise these effectors, and identify the signalling pathways and critical defence responses activated by these receptors. The intention is to close the gaps in our understanding and use the knowledge gained to develop new strategies for disease control by interfering with fungal pathogenicity and enhancing plant resistance.Read moreRead less
Fungal Ribosomally Synthesised and Post-translationally Modified Peptides. Fungi produce an array of molecules called secondary metabolites (SMs) that impact on everyday life (e.g. penicillin). This project aims to investigate a new class of fungal peptide SMs called RiPPs which are structurally unique from existing molecules and offer the exciting prospect of harbouring new and novel biological activities. This project expects to discover the mechanisms of RiPP synthesis and their biological ro ....Fungal Ribosomally Synthesised and Post-translationally Modified Peptides. Fungi produce an array of molecules called secondary metabolites (SMs) that impact on everyday life (e.g. penicillin). This project aims to investigate a new class of fungal peptide SMs called RiPPs which are structurally unique from existing molecules and offer the exciting prospect of harbouring new and novel biological activities. This project expects to discover the mechanisms of RiPP synthesis and their biological roles in plant pathogenic fungi, and uncover and engineer novel RiPPs with desired bioactivities. The expected outcome from this project will be a seminal advance in fungal SM biology which should provide significant benefits through the generation of exciting new lead molecules for the agricultural and medical industries.Read moreRead less
Shedding Light on the Proton Radius Puzzle with Ultracold Helium. This project aims to shed light on an outstanding discrepancy in physics known as the proton radius puzzle, first seen in hydrogen but now being studied in helium. Capitalising on existing international collaboration between experiment and theory to exploit the advantages of ultracold helium, this project aims to determine the isotopic nuclear charge radius difference with unprecedented precision, using our state-of-the-art quantu ....Shedding Light on the Proton Radius Puzzle with Ultracold Helium. This project aims to shed light on an outstanding discrepancy in physics known as the proton radius puzzle, first seen in hydrogen but now being studied in helium. Capitalising on existing international collaboration between experiment and theory to exploit the advantages of ultracold helium, this project aims to determine the isotopic nuclear charge radius difference with unprecedented precision, using our state-of-the-art quantum electrodynamic theory. This will not only answer fundamental questions about helium atomic structure, but may also reveal new physics beyond the current Standard Model. The validation of atomic structure theory should provide benefits in applications including the realisation of more accurate atomic clocks.Read moreRead less
Time-space resolved photoelectron emission to control molecular processes. This project aims to resolve simultaneously the timing and space localisation of photoelectron emission from atoms and molecules as a means for targeted breaking of molecular bonds. Existing techniques determine the timing and spatial characteristics of photoemission independently. The simultaneous time-space resolution will allow for the precise manipulation of photoelectrons by a sequence of phase-stabilised laser pulse ....Time-space resolved photoelectron emission to control molecular processes. This project aims to resolve simultaneously the timing and space localisation of photoelectron emission from atoms and molecules as a means for targeted breaking of molecular bonds. Existing techniques determine the timing and spatial characteristics of photoemission independently. The simultaneous time-space resolution will allow for the precise manipulation of photoelectrons by a sequence of phase-stabilised laser pulses, a technique known as coherent control. The benefit of this project will be the coherently controlled breaking of molecular bonds in oxide, carbonyl and hydrocarbon molecules. The outcome will be a significant step forward in driving complex photochemical reactions in industry.Read moreRead less
Atomic sensors for dark matter, rotation and magnetic fields. This project aims to develop ultra-high-performance sensors. The research will explore new methods for using the magnetic and optical properties of atomic gases to enable multi-parameter sensing without crosstalk between measurements. It is expected that techniques will be developed to allow simultaneous sensing of rotation and magnetic fields using devices that are compact, ultra-precise and energy efficient. It is also anticipated t ....Atomic sensors for dark matter, rotation and magnetic fields. This project aims to develop ultra-high-performance sensors. The research will explore new methods for using the magnetic and optical properties of atomic gases to enable multi-parameter sensing without crosstalk between measurements. It is expected that techniques will be developed to allow simultaneous sensing of rotation and magnetic fields using devices that are compact, ultra-precise and energy efficient. It is also anticipated that these new atomic sensors will support a global network looking for dark matter, which although never seen, is thought to make up 85% of the mass of the universe. The outcomes are expected to benefit medical science, geo-exploration, high-tech manufacturing, navigation and our understanding of the universe.Read moreRead less
Cold positron interactions with ultracold rubidium atoms. Antiparticles and antimatter have progressed from theory and science fiction to become an important and exciting area of pure and applied science. This fundamental atomic physics project aims to further study how antimatter and matter interact by providing the first comprehensive experimental results for the interaction of positrons (the electron anti-particle) with trapped rubidium atoms in an innovative combination of two cutting-edge ....Cold positron interactions with ultracold rubidium atoms. Antiparticles and antimatter have progressed from theory and science fiction to become an important and exciting area of pure and applied science. This fundamental atomic physics project aims to further study how antimatter and matter interact by providing the first comprehensive experimental results for the interaction of positrons (the electron anti-particle) with trapped rubidium atoms in an innovative combination of two cutting-edge atomic physics techniques. It aims to provide measurements of many fundamental interaction quantities and for collisions between matter and antimatter. This will look to test the latest quantum theoretical approaches and further our understanding of the uses of antimatter in medical and materials science.Read moreRead less
Positrons in biosystems. This project aims to improve our understanding of the damage processes in Positron Emission Tomography (PET). PET is a widely used medical imaging technique, but there are gaps in our understanding of the underlying interactions, in particular in the case of the radiation damage induced during the process. By using new models incorporating accurate descriptions of interactions processes, verified by experimental measurement, this project will develop a new model of posit ....Positrons in biosystems. This project aims to improve our understanding of the damage processes in Positron Emission Tomography (PET). PET is a widely used medical imaging technique, but there are gaps in our understanding of the underlying interactions, in particular in the case of the radiation damage induced during the process. By using new models incorporating accurate descriptions of interactions processes, verified by experimental measurement, this project will develop a new model of positron transport in PET. The project will allow validation of predictions from the model by undertaking experiments in liquid water.Read moreRead less