Mechanisms of zinc transport and homeostasis in plants. Zinc deficiency is a widespread factor limiting crop production and affects many soils of southern Australia and around the world. Genetic techniques can be used to identify zinc-efficient crop breeds able to grow well under zinc deficient conditions and able to efficiently deliver zinc to cereal grains to alleviate nutritional zinc-deficiency in humans. This project will identify new genes important in zinc transport and homeostasis in pla ....Mechanisms of zinc transport and homeostasis in plants. Zinc deficiency is a widespread factor limiting crop production and affects many soils of southern Australia and around the world. Genetic techniques can be used to identify zinc-efficient crop breeds able to grow well under zinc deficient conditions and able to efficiently deliver zinc to cereal grains to alleviate nutritional zinc-deficiency in humans. This project will identify new genes important in zinc transport and homeostasis in plants and will ultimately allow their role in zinc efficient crops to be assessed. This will contribute to more rapid and directed strategies in breeding zinc efficient crops.Read moreRead less
New approaches to unravelling post-translational controls operating on the cyanobacterial carbon dioxide concentrating mechanism. Marine blue-green algae contribute to global primary productivity but their carbon dioxide acquisition processes are poorly understood. The project will employ mutagenesis and genome sequencing to discover the controls that regulate carbon dioxide uptake processes required for efficient photosynthesis and use this data to aid in engineering crop plants that use less w ....New approaches to unravelling post-translational controls operating on the cyanobacterial carbon dioxide concentrating mechanism. Marine blue-green algae contribute to global primary productivity but their carbon dioxide acquisition processes are poorly understood. The project will employ mutagenesis and genome sequencing to discover the controls that regulate carbon dioxide uptake processes required for efficient photosynthesis and use this data to aid in engineering crop plants that use less water.Read moreRead less
Adapting cyanobacterial bicarbonate transporters for application in crop improvement. Marine blue-green algae contribute to global primary productivity but their carbon dioxide (CO2) acquisition processes are poorly understood. The project will determine protein structure and regulatory controls present in two classes of bicarbonate transporters required for efficient photosynthesis, and use this data towards the engineering crop plants that use less water.
Australian rushes: unearthing the function of root clusters and sand-binding roots. Unearthing the functioning of highly specialised root structures provides fundamental insights into the role of native rush plants in south-western Australian ecosystems and addresses a major issue with Australia's biodiversity, currently a Priority area for the ARC. Native rushes form a prominent but inconspicuous component of the Australian 'grass-like' flora, accounting for more than half the plant biomass on ....Australian rushes: unearthing the function of root clusters and sand-binding roots. Unearthing the functioning of highly specialised root structures provides fundamental insights into the role of native rush plants in south-western Australian ecosystems and addresses a major issue with Australia's biodiversity, currently a Priority area for the ARC. Native rushes form a prominent but inconspicuous component of the Australian 'grass-like' flora, accounting for more than half the plant biomass on some landscapes. Rushes are also highly sensitive to small increments in nutrients in disturbed environments and thus form a management priority relating to their use in rehabilitation of degraded landscapes, such as mine sites and wetland margins. Read moreRead less
Functional genomics of light stress resistance in the model organism Chlamydomonas: combining molecular genetics, transcriptome and proteome analysis. This project aims at combining molecular genetics, transcriptome and proteome analysis to identify genes and pathways underlying high light stress tolerance in previously isolated mutants of the chlorophyte Chlamydomonas reinhardtii. Comprehensive profiles of transcriptome-proteome linkage will be constructed without the complications of multicel ....Functional genomics of light stress resistance in the model organism Chlamydomonas: combining molecular genetics, transcriptome and proteome analysis. This project aims at combining molecular genetics, transcriptome and proteome analysis to identify genes and pathways underlying high light stress tolerance in previously isolated mutants of the chlorophyte Chlamydomonas reinhardtii. Comprehensive profiles of transcriptome-proteome linkage will be constructed without the complications of multicellularity for this unicellular photosynthetic model organism. We will establish a public proteome reference database and provide new microarrays and molecular markers beneficial for research in Chlamydomonas. We expect to advance understanding of high light resistance mechanisms so that it will eventually be applicable to improve productivity in crop plants growing under various environmental stress conditions.Read moreRead less
Diversity of pollination biology in heat-producing flowers. This research is an entirely new approach to understanding pollination biology. It will highlight the value of ecological diversity in tropical ecosystems and will work toward conservation of these threatened habitats. The project is very strong in developing international links, involving Australia, Germany, France, Turkey, Brazil, Guyana, India and Malaysia. By supporting research involving the International Canopy Crane Network, A ....Diversity of pollination biology in heat-producing flowers. This research is an entirely new approach to understanding pollination biology. It will highlight the value of ecological diversity in tropical ecosystems and will work toward conservation of these threatened habitats. The project is very strong in developing international links, involving Australia, Germany, France, Turkey, Brazil, Guyana, India and Malaysia. By supporting research involving the International Canopy Crane Network, Australia will be recognised as a major contributor to the multinational effort. The project deals with energetics of scarab beetles, with work on reproductive energetics of natural and pest species. Research maintains and develops critical thought, essential for effective university teaching and training.Read moreRead less
Novel photoprotective mechanisms and functional biodiversity of high light tolerance in the model alga Chlamydomonas. Most plants have limited capacity to avoid high light (HL) stress which commonly accompanies drought and high temperature stress. We will identify novel genes and proteins that underlie diverse mechanisms of photoprotection in unique very high light resistant (VHLR) mutants in the alga Chlamydomonas and develop new tools to screen other plants for these attributes. Depending on p ....Novel photoprotective mechanisms and functional biodiversity of high light tolerance in the model alga Chlamydomonas. Most plants have limited capacity to avoid high light (HL) stress which commonly accompanies drought and high temperature stress. We will identify novel genes and proteins that underlie diverse mechanisms of photoprotection in unique very high light resistant (VHLR) mutants in the alga Chlamydomonas and develop new tools to screen other plants for these attributes. Depending on progress, we expect to express them in the higher plant Arabidopsis as a first step towards utilization of VHLR genes for crop improvement. Understanding the mechanisms conferring HL photoprotection is a research priority in plant sciences and will further strengthen Australia's innovative contributions to the internationally networked Chlamydomonas Genome Project.Read moreRead less
Glutathione, a major antioxidant in plants: translocation between tissues and transport within cells. Plants are continually exposed to environmental stress. In agriculture this may include high and low temperature, pathogens, soil toxicity and excess light. The ways in which plants deal with environmental stress influence their productivity. Understanding these mechanisms is an important goal that can contribute to better strategies to manage plant responses to environmental stress in agricultu ....Glutathione, a major antioxidant in plants: translocation between tissues and transport within cells. Plants are continually exposed to environmental stress. In agriculture this may include high and low temperature, pathogens, soil toxicity and excess light. The ways in which plants deal with environmental stress influence their productivity. Understanding these mechanisms is an important goal that can contribute to better strategies to manage plant responses to environmental stress in agricultural species.Read moreRead less
REdefining metabolic Schemes and Pathways In plant leaf REspiration. Leaf respiration-related metabolism in terrestrial vegetation liberates considerable amounts of carbon dioxide, ammonia and hydrogen sulphide into the atmosphere. Such gaseous losses are detrimental to biomass production but respiration also sustains nutrient assimilation and biosyntheses. This project aims to describe flux patterns in respiratory metabolism and disentangle interactions with other pathways such as photorespirat ....REdefining metabolic Schemes and Pathways In plant leaf REspiration. Leaf respiration-related metabolism in terrestrial vegetation liberates considerable amounts of carbon dioxide, ammonia and hydrogen sulphide into the atmosphere. Such gaseous losses are detrimental to biomass production but respiration also sustains nutrient assimilation and biosyntheses. This project aims to describe flux patterns in respiratory metabolism and disentangle interactions with other pathways such as photorespiration and nitrogen assimilation. It will exploit stable isotopes to quantify metabolic partitioning and show coordination between major processes. It will establish key mechanisms by which respiration dictates plant carbon balance and contributes to identifying metabolic bottle-necks in plant primary production.Read moreRead less
Chloroplast pigments as developmental signals. This project will define roles of chloroplast pigments in cellular signaling, plant growth and development. Effective communication between the chloroplast and the nucleus is essential for maintaining viability and productivity of the cell. Similarly, long-distance signaling is required for coordinated growth and development and we hypothesise that pigments also have importance in this role. Our proposal brings together the multidisciplinary skills ....Chloroplast pigments as developmental signals. This project will define roles of chloroplast pigments in cellular signaling, plant growth and development. Effective communication between the chloroplast and the nucleus is essential for maintaining viability and productivity of the cell. Similarly, long-distance signaling is required for coordinated growth and development and we hypothesise that pigments also have importance in this role. Our proposal brings together the multidisciplinary skills and resources of six investigators to define how certain carotenoids and chlorophyll precursors regulate gene expression and to determine the identity of what is most likely a carotenoid derivative with hormonal properties that controls lateral branch growth.Read moreRead less