The Modulation Of Neuronal Activity By Inter-cortical Sensory Input
Funder
National Health and Medical Research Council
Funding Amount
$638,771.00
Summary
For any given behaviour, the brain must merge information from all different sensory systems to generate a coherent representation of the external world. How this is achieved is largely unknown and is the basis of this research proposal. Here, using cutting edge recording techniques, the activity of brain cells within the cortex will be measured during the activation of multiple sensory systems. This research will provide insight into therapeutic approaches to local brain damage.
Excitability And Hyperexcitability Of Neural Circuits In The Rodent Piriform Cortex
Funder
National Health and Medical Research Council
Funding Amount
$371,807.00
Summary
We are studying the properties of neurons (nerve cells) and brain circuits that enable mammals to recognise and remember odours. Our experiments will focus on neurons in the odour-processing region of the cerebral cortex of mice. This work will answer fundamental questions about how the brain interprets sensory inputs in order to build a coherent picture of the external world. Our findings will also provide a deeper understanding of the causes of epilepsy, leading to improved treatments.
Discovering Molecules And Mechanisms Regulating Dendrite Formation
Funder
National Health and Medical Research Council
Funding Amount
$517,989.00
Summary
Dendrites are neuronal projections necessary to receive stimuli from other neurons or the external environment. Abnormalities in dendrite development associate with mental retardation and other human conditions such as Down syndrome, Rett syndrome and Fragile-X syndrome. The studies presented in this proposal, using the powerful genetic and molecular tools available for the nematode C. elegans, will provide new insight into the cellular and molecular mechanisms regulating dendrite development.
Neural Circuits For Odour-processing In The Rodent Piriform Cortex 'in Vivo'
Funder
National Health and Medical Research Council
Funding Amount
$488,817.00
Summary
We are studying the brain circuits that enable mammals to recognise odours. We will apply puffs of odorants to the nose of an anaesthetised mouse while measuring electrical signals in the odour-processing region of its cerebral cortex. Our work will answer fundamental questions about how the brain interprets sensory inputs in order to build a coherent picture of the world. This is basic research that will, in the longer term, shed light on the disturbances that occur during mental illness.
Dendritic information processing during sensory-motor behaviour. The neocortex is centrally involved in the control of animal behaviour. It is largely unknown how neocortical neurons contribute to the neuronal computations that generate behaviour. The project will study how individual neurons in the neocortex compute the sensory and motor signals that underlie an important exploratory behaviour in rodents.
Operation of nerve cell networks in the neocortex. In humans, intellectual disabilities occur when nerve cells in the neocortex, the most complicated area of the brain, fail to function correctly. The goal of this project is to understand how neocortical areas communicate and how changes in the structure of neurons disturb their function; work that will lead to a better understanding of the operation of the neocortex.
Coding of olfactory information in the piriform cortex. This project aims to understand how electrical activity in the primary olfactory (piriform) cortex enables mice to recognise and remember odours. By using optical recording techniques together with genetic tools, the project expects to generate new knowledge about how the mammalian brain builds internal representations of the external world. Specific outcomes of the project include new insights into the functional architecture of the pirifo ....Coding of olfactory information in the piriform cortex. This project aims to understand how electrical activity in the primary olfactory (piriform) cortex enables mice to recognise and remember odours. By using optical recording techniques together with genetic tools, the project expects to generate new knowledge about how the mammalian brain builds internal representations of the external world. Specific outcomes of the project include new insights into the functional architecture of the piriform cortex and fresh understanding of how olfactory information is encoded and stored in neural circuits. More broadly, the project aims to advance our understanding of how the brain works, with benefits for future improvements in artificial intelligence and brain-machine interfaces.Read moreRead less
Properties Of Dendritic Spines And Their Role In Synaptic Plasticity
Funder
National Health and Medical Research Council
Funding Amount
$336,767.00
Summary
Connections between nerve cells in the brain often occur onto enlarged protrusions called dendritic spines. This proposal will investigate the properties of dendritic spines, and relate differences in spine properties to synaptic plasticity. This information can be used to better understand and treat neurological disorders associated with spine malfunction, as occur in some forms of mental retardation, and may help with understanding the memory loss that occurs during ageing and dementia.
The processing of sensory information within cortical circuits. This project aims to improve our knowledge of neuronal activity during sensory perception and therefore shed light on overall brain function during behaviour. Understanding how dendrites receive and process this information is crucial to understanding brain function during sensory processing and perception. This proposal aims to characterise dendritic activity during sensory input and discover how this activity contributes to behavi ....The processing of sensory information within cortical circuits. This project aims to improve our knowledge of neuronal activity during sensory perception and therefore shed light on overall brain function during behaviour. Understanding how dendrites receive and process this information is crucial to understanding brain function during sensory processing and perception. This proposal aims to characterise dendritic activity during sensory input and discover how this activity contributes to behavioural tasks. In particular, the project plans to investigate activity of different dendritic domains during sensory perception and sensory-based behaviour. The project seeks to improve our knowledge of the importance of dendrites in transforming information from the sensory environment and highlight the cellular and network mechanisms contributing to behaviour.Read moreRead less