Control of developmental switches by importin 5. Aims: This project will study a key molecular switch called IPO5, a protein that is required for cells and organs to form and function normally, and it will reveal how it works.
Significance: These experiments will provide the first complete description of how this molecular switch controls the behaviour of a cell across its lifespan. IPO5 is highly conserved, so these studies will be relevant to a wide range of animals.
Expected Outcomes: This k ....Control of developmental switches by importin 5. Aims: This project will study a key molecular switch called IPO5, a protein that is required for cells and organs to form and function normally, and it will reveal how it works.
Significance: These experiments will provide the first complete description of how this molecular switch controls the behaviour of a cell across its lifespan. IPO5 is highly conserved, so these studies will be relevant to a wide range of animals.
Expected Outcomes: This knowledge will reveal how IPO5 controls formation of sperm by revealing what other proteins it binds to and how this affects cell signaling and responses to the environment.
Benefits: This will provide information about potential interventions to control fertility or to repair abnormal cells.
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Discovery Early Career Researcher Award - Grant ID: DE240100530
Funder
Australian Research Council
Funding Amount
$456,802.00
Summary
Neanderthal hunting ability and the extinction of archaic humans. This project aims to investigate a critical factor in explaining Neanderthals extinction: their hunting abilities. The research expects to generate new knowledge of archaic humans behaviour using an innovative approach combining traditional archaeological analytical methods with ground-breaking biomolecular techniques. Expected outcomes of this project include the development of new knowledge in human evolutionary history and impr ....Neanderthal hunting ability and the extinction of archaic humans. This project aims to investigate a critical factor in explaining Neanderthals extinction: their hunting abilities. The research expects to generate new knowledge of archaic humans behaviour using an innovative approach combining traditional archaeological analytical methods with ground-breaking biomolecular techniques. Expected outcomes of this project include the development of new knowledge in human evolutionary history and improved techniques to understand past human extinction events. This should provide significant benefits for Australia to become a primary power in studying human past and deep history, while enhancing capacity by becoming the first country in the Southern Hemisphere to implement ancient protein studies in archaeology.Read moreRead less
Decoding germination defects that threaten global wheat production. Wheat is a major commodity in Australia. Sprouting damage represents a major global threat to wheat production and food security. This project will explore the genetic and molecular mechanisms underpinning pre-harvest sprouting (PHS) and late-maturity amylase (LMA). This project will apply transcriptomics and proteomics to measure the expression of the biomolecules associated with PHS and LMA, generating fundamental knowledge of ....Decoding germination defects that threaten global wheat production. Wheat is a major commodity in Australia. Sprouting damage represents a major global threat to wheat production and food security. This project will explore the genetic and molecular mechanisms underpinning pre-harvest sprouting (PHS) and late-maturity amylase (LMA). This project will apply transcriptomics and proteomics to measure the expression of the biomolecules associated with PHS and LMA, generating fundamental knowledge of grain molecular physiology that addresses a significant knowledge gap. The project will deliver tools capable of differentiating these conditions, thereby minimising economic losses. A better understanding of the genetic basis of PHS and LMA will lay the foundation for advanced breeding aiming to eliminate these. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100301
Funder
Australian Research Council
Funding Amount
$440,000.00
Summary
Reducing uncertainty in prediction of leaf respiration in a changing world. This project aims to advance our understanding of responses of carbon dioxide (CO2) release by leaf (leaf respiration) to sustained changes in CO2 and temperature. Leaf respiration in terrestrial forests releases yearly CO2 that is two to four times higher than CO2 emitted by human activities, but its response to climate change is not well understood. The project expects to generate new knowledge on mechanisms underlying ....Reducing uncertainty in prediction of leaf respiration in a changing world. This project aims to advance our understanding of responses of carbon dioxide (CO2) release by leaf (leaf respiration) to sustained changes in CO2 and temperature. Leaf respiration in terrestrial forests releases yearly CO2 that is two to four times higher than CO2 emitted by human activities, but its response to climate change is not well understood. The project expects to generate new knowledge on mechanisms underlying responses of leaf respiration to these climate change variables, separately and combined. Expected outcome is to deliver criteria that enable dynamic changes in leaf respiration to be predicted in climate models. Results should benefit improved forecast of feedback between Australian forests' carbon cycling and climate.Read moreRead less