Light on a nanoscale: channelling energy through space and time to control neuronal activity. Quantum-mechanical effects of energy transfer and resonance will be harnessed to yield ultrabright nanoscale light sources. Research will unveil the intricate interplay between energy harvesting, transferring and emitting centres designed so that the flow of energy exhibits a directed character. This focussed intense energy will produce abundant visible photons from infrared light. Genetically engineere ....Light on a nanoscale: channelling energy through space and time to control neuronal activity. Quantum-mechanical effects of energy transfer and resonance will be harnessed to yield ultrabright nanoscale light sources. Research will unveil the intricate interplay between energy harvesting, transferring and emitting centres designed so that the flow of energy exhibits a directed character. This focussed intense energy will produce abundant visible photons from infrared light. Genetically engineered cells able to be stimulated optically by using an optogenetics method will be illuminated by our nanoscale light causing modulation of cell activity. This new capability will enable remote control of neuronal activity in specific circuits within the nervous system without the limitation of surgically inserted optical fibres.Read moreRead less
Mechanism Of Signal Transduction And Receptor Activation In Ligand Gated Ion Channel Receptors
Funder
National Health and Medical Research Council
Funding Amount
$551,560.00
Summary
This project seeks to provide fundamental new information about the means by which neurotransmitter receptors, which mediate fast synaptic neurotransmission, operate. This knowledge is important since the Cys-loop family of ligand gated ion channel receptors are responsible for a wide range of neuronal signalling and the control of both excitatory and inhibitory receptors. The Cys-loop receptors are modulated by both therapeutic drugs (eg. benzodiazepines, barbiturates, antiemetics) and by recre ....This project seeks to provide fundamental new information about the means by which neurotransmitter receptors, which mediate fast synaptic neurotransmission, operate. This knowledge is important since the Cys-loop family of ligand gated ion channel receptors are responsible for a wide range of neuronal signalling and the control of both excitatory and inhibitory receptors. The Cys-loop receptors are modulated by both therapeutic drugs (eg. benzodiazepines, barbiturates, antiemetics) and by recreational drugs (eg. alcohol, nicotine). They are also targets for development of new therapeutic drugs, such as allosteric modulators of nAChR for memory enhancement, or modulating GlyR to relieve spasticity or chronic pain. The project will use a range of molecular advances made by this and other laboratories to clarify how neurotransmitters enable their receptors to activate and signal. This fundamental information is of major medical significance as defective synaptic transmission, caused by mutations in ligand gated ion channel receptors, gives rise to a number of neurological and psychiatric disease states. The ligand gated receptors are also major targets for therapeutic drugs and the information gained in this study may also provide insights into new ways in which drugs could be used to enhance or inhibit synaptic signalling.Read moreRead less