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Discovering the activity of novel CLE peptide hormones that regulate legume nodulation. This project aims to functionally characterise novel peptide hormones that regulate the number of nitrogen-fixing root nodules that legumes form. Findings will enhance the current nodulation model and could help to alleviate our reliance on expensive, often polluting, nitrogen-fertilisers by helping to optimise the nodulation process in agriculture.
Discovery of the systemic regulator of legume nodulation. This project aims to discover the novel, shoot-derived factor that legumes produce to regulate the number of nitrogen-fixing root nodules they form. Outcomes will enhance the current nodulation model and could help optimise the process in agriculture, which would help alleviate current reliance on nitrogen-fertilisers that are expensive and pollute.
Crosstalk between branching and flowering regulatory pathways in shoot development. This project will explore how a newly discovered plant hormone communicates with other plant and environmental signals to regulate shoot branching. Understanding this process is an important step towards enhancing the yield, productivity and sustainability of commercially important plant species.
The Role of Sugar Demand in Apical Dominance: Branching in a New Direction. For centuries, people around the world have made use of the knowledge that pruning the growing tips of shoots causes buds on the stem below to grow out into branches. Yields in crop, horticulture and forestry industries depend on shoot architecture. Since the discovery of auxin in the 1930s, shoot branching has been thought to be regulated by plant hormones. However, in this project we propose a new theory whereby shoot ....The Role of Sugar Demand in Apical Dominance: Branching in a New Direction. For centuries, people around the world have made use of the knowledge that pruning the growing tips of shoots causes buds on the stem below to grow out into branches. Yields in crop, horticulture and forestry industries depend on shoot architecture. Since the discovery of auxin in the 1930s, shoot branching has been thought to be regulated by plant hormones. However, in this project we propose a new theory whereby shoot tip demand for sugar is predominant in apical dominance; enhanced sucrose, a mobile sugar, is necessary and sufficient for the initial growth of buds. This project aims to expand this theory, revealing underlying components involved in sucrose action and describe how the network of sugar demand and hormones acts to control shoot architecture.Read moreRead less
Nitrogen characteristics of plant communities along the North Australian Tropical Transect (NATT). It has become evident that biosphere processes need to be addressed at a global scale to understand global changes. Continental transects analyse ecosystem processes in a global context. The North Australian Tropical Transect (Darwin to Tennant Creek) represents 25% of Australia's vegetation. Biogeological research is underway on NATT ecosystems. Nitrogen availability strongly affects ecosystem pro ....Nitrogen characteristics of plant communities along the North Australian Tropical Transect (NATT). It has become evident that biosphere processes need to be addressed at a global scale to understand global changes. Continental transects analyse ecosystem processes in a global context. The North Australian Tropical Transect (Darwin to Tennant Creek) represents 25% of Australia's vegetation. Biogeological research is underway on NATT ecosystems. Nitrogen availability strongly affects ecosystem productivity, and is of major interest as nitrogen pollution threatens the biosphere. In Australia, nitrogen levels are generally low, but overall knowledge is limited. An integrated ecophysiological approach will relate soil and plant nitrogen characteristics, and provide an analysis of nitrogen relations along NATT. Results will be linked to existing NATT and international transect research.Read moreRead less
Strigolactone, a new plant hormone: its regulation, role and potential for plant improvement. This Project will investigate a new plant hormone, one of only 10 or so discovered to date in plants. This hormone regulates shoot number, water and nutrient uptake and the ability of shoots to generate roots and develop wood. The Project will produce genetic tools and describe new processes for applications in sustainable plant improvement.
The new plant hormone controlling shoot branching. This project will create genetic tools and knowledge on the control of a new plant growth hormone that affects a diverse number of plant properties. These important traits include shoot number, water and nutrient uptake, wood production, the ability to generate roots and the ability to stimulate particular potentially devastating parasitic weeds.
New plant development discoveries stem from strigolactone research. This project involves a new plant hormone, strigolactone, and the way it controls wood and root formation in above-ground parts of plants. It will identify new plant genes involved in these processes and provide greater understanding of how plant hormones interact to control these important traits.
A new signalling component in shoot architecture: trehalose 6-phosphate. This project aims to investigate the role of a new signalling pathway involved in shoot branching. New knowledge is expected on how plants regulate shoot branching via sugar or hormone levels and/or signalling. The aims to build on recent finding that trehalose 6-phosphate (Tre6P) promotes shoot branching and to investigate whether sucrose acts via Tre6P and what role sucrose and Tre6P have compared with plant hormones. S ....A new signalling component in shoot architecture: trehalose 6-phosphate. This project aims to investigate the role of a new signalling pathway involved in shoot branching. New knowledge is expected on how plants regulate shoot branching via sugar or hormone levels and/or signalling. The aims to build on recent finding that trehalose 6-phosphate (Tre6P) promotes shoot branching and to investigate whether sucrose acts via Tre6P and what role sucrose and Tre6P have compared with plant hormones. Significant benefits may include new genetic or management strategies to modify shoot architecture.Read moreRead less
The use of molecular sponges to inhibit small Ribonucleic acid activity in plants. The deletion of gene activity is the most powerful way to understand gene function; however for genes encoding small Ribonucleic acids (RNAs) no current methodology can efficiently achieve this. Here, we aim to develop a gene silencing technology for small RNA encoding genes, which can be utilised to determine their function and used for biotechnological applications.