Assessing gene function in the developing vertebrate brain using zebrafish as a model system. Although the vertebrate brain is the most complicated biological tissue it arises from a very simple sheet of cells during embryogenesis. Groups of nerve cells begin to communicate with each other through long interconnecting processes called axons. This project seeks to understand the role of specific genes in this process. This is the first time that the mechanisms controlling the growth of the ear ....Assessing gene function in the developing vertebrate brain using zebrafish as a model system. Although the vertebrate brain is the most complicated biological tissue it arises from a very simple sheet of cells during embryogenesis. Groups of nerve cells begin to communicate with each other through long interconnecting processes called axons. This project seeks to understand the role of specific genes in this process. This is the first time that the mechanisms controlling the growth of the earliest axons in the vertebrate brain will be examined in a living brain. Our analysis is expected to discover genes that are targets for manipulation of axon growth.Read moreRead less
How does habitat complexity drive motor ageing and fitness in wild mammals? This project aims to demonstrate how habitat complexity shapes motor ageing in wild dasyurid marsupials, and to improve these animals’ motor function, slow its decline and increase reproductive output via behavioural and physiological changes. Motor decline should dramatically impact an animal growth, survival and reproduction by affecting how it moves through habitats when foraging, seeking mates, or escaping from preda ....How does habitat complexity drive motor ageing and fitness in wild mammals? This project aims to demonstrate how habitat complexity shapes motor ageing in wild dasyurid marsupials, and to improve these animals’ motor function, slow its decline and increase reproductive output via behavioural and physiological changes. Motor decline should dramatically impact an animal growth, survival and reproduction by affecting how it moves through habitats when foraging, seeking mates, or escaping from predators. However, little is known about the environmental drivers of motor ageing in wild animals. Our project addresses an important gap in the field of evolutionary ecology. Since decline in muscle function affects the quality of Australian's life, our work could lead to important economic and health implications.Read moreRead less
Tracking crocodiles in 3-dimensions: A remote monitoring study of movement patterns and diving behaviour. The result from this study will promote a better understanding and appreciation of crocodiles and will help to assist conservation managers in determining population dynamics and movements of crocodiles in Queensland. This study will showcase, on an international stage, Australia as being a leader in crocodilian research and conservation, with the results from this study being actively pres ....Tracking crocodiles in 3-dimensions: A remote monitoring study of movement patterns and diving behaviour. The result from this study will promote a better understanding and appreciation of crocodiles and will help to assist conservation managers in determining population dynamics and movements of crocodiles in Queensland. This study will showcase, on an international stage, Australia as being a leader in crocodilian research and conservation, with the results from this study being actively presented and profiled in both the scientific and general media. Finally this project will encourage and promote a long term research association between the University of Queensland, Australia Zoo and Queensland Parks and Wildlife Service that will stimulate scientific discovery, and promote effective conservation through education and research. Read moreRead less
Connectomes arising: linking structure and function in neocortical wiring. The cerebral cortex underpins human cognition, yet exactly how it becomes connected is unknown due to a lack of live developmental assays. We overcome this using prematurely born marsupials, which allow to study cortical development from embryo-like stages with remarkable resolution. This project will study how neural activity arises as the first connections are formed, and link functional and structural networks across d ....Connectomes arising: linking structure and function in neocortical wiring. The cerebral cortex underpins human cognition, yet exactly how it becomes connected is unknown due to a lack of live developmental assays. We overcome this using prematurely born marsupials, which allow to study cortical development from embryo-like stages with remarkable resolution. This project will study how neural activity arises as the first connections are formed, and link functional and structural networks across development in vivo. Experimental manipulations of activity, and computational models will discover developmental rules for precise wiring of cortical connections. Benefits include new methods to study cortical development, and outlining electrical, molecular and neuroanatomical signatures of early mammalian brain formation.Read moreRead less
Molecular mechanisms that regulate the kinetics of neurotransmitter release. Information processing in the human brain plays important roles in normal behaviour and cognition, most of which require rapid and precisely timed neurotransmitter release. However, the molecular mechanisms that control the speed and timing of this release remain largely unclear. This research project will use a novel mix of electrophysiology, electron microscopy, genetics, biochemistry, and imaging to investigate how t ....Molecular mechanisms that regulate the kinetics of neurotransmitter release. Information processing in the human brain plays important roles in normal behaviour and cognition, most of which require rapid and precisely timed neurotransmitter release. However, the molecular mechanisms that control the speed and timing of this release remain largely unclear. This research project will use a novel mix of electrophysiology, electron microscopy, genetics, biochemistry, and imaging to investigate how the speed of neurotransmitter release is controlled by the most important synaptic protein UNC-13 and its binding partners. This project expects to generate significant knowledge in the area of synaptic transmission. The outcomes will deepen our understanding of neuronal communication and information processing in the brain.Read moreRead less
Cerebellar control of classical conditioning. This project proposes to use zebrafish, in combination with optogenetics, to identify and test patterns of neural activity that are responsible for classical conditioning. It will do this by describing the connections between the cerebellum and other brain regions, and by observing patterns of neural activity as learning takes place. Next, the project will block or recreate these patterns of activity to see whether they are necessary or sufficient fo ....Cerebellar control of classical conditioning. This project proposes to use zebrafish, in combination with optogenetics, to identify and test patterns of neural activity that are responsible for classical conditioning. It will do this by describing the connections between the cerebellum and other brain regions, and by observing patterns of neural activity as learning takes place. Next, the project will block or recreate these patterns of activity to see whether they are necessary or sufficient for learning. The goal is to describe, in concrete terms, how patterns of neural activity in this part of the brain result in learning. In so doing, the project also aims to develop and test new technologies and approaches for studying the functioning brain.Read moreRead less
Cerebellar control of motor coordination and learning. The cerebellum is the part of the brain responsible for smooth body movements, but many details of how it works are still unclear. This project is aimed at learning how the cerebellum communicates with the rest of the brain, and what parts of this communication are necessary for coordinated movement.
Neural mechanisms of motor learning. The cerebellum is the part of the brain responsible for smooth body movements, but many details of how it works are still unclear. This project is aimed at learning how the cerebellum communicates with the rest of the brain, and what parts of this communication are necessary for coordinated movement.
Mass-production of beneficial insects for commercial pest management - physicochemical definition of oviposition sites for development of cost-efficient artificial substrates. The mass-production of beneficial insects for commercial purposes demands the development of cost-effective techniques for breeding and distributing them to growers. Many predatory beneficial insects lay their eggs in sites that prevent effective mass culturing. To circumvent this difficulty, it should be possible to defin ....Mass-production of beneficial insects for commercial pest management - physicochemical definition of oviposition sites for development of cost-efficient artificial substrates. The mass-production of beneficial insects for commercial purposes demands the development of cost-effective techniques for breeding and distributing them to growers. Many predatory beneficial insects lay their eggs in sites that prevent effective mass culturing. To circumvent this difficulty, it should be possible to define such oviposition sites in chemical and physical terms, and then use the information to develop artificial substrates that are convenient for mass rearing the insects and for disseminating them to growers. We will use the mealybug predator Cryptolaemus montrouszieri to test the feasibility of this approach and to assess its application to other beneficial species.Read moreRead less
Environmental and physiological drivers of immune function in frogs. This project aims to investigate how ultraviolet B radiation and temperature interact during early development to influence amphibian physiology. The environment can shape ecological processes through effects on an individuals' physiology. The project will combine genetic, biochemical and physiological approaches to investigate the effects of ultraviolet B and temperature on a key fitness determinant – immune system function. T ....Environmental and physiological drivers of immune function in frogs. This project aims to investigate how ultraviolet B radiation and temperature interact during early development to influence amphibian physiology. The environment can shape ecological processes through effects on an individuals' physiology. The project will combine genetic, biochemical and physiological approaches to investigate the effects of ultraviolet B and temperature on a key fitness determinant – immune system function. The project expects to provide information on how environmental conditions experienced during development influence the growth and fitness of frogs. This will improve our capacity to forecast potential ecological-level effects of environmental change on amphibians.Read moreRead less