Characterizing the regulators of mitochondrial biogenesis in Arabidopsis thaliana. The overall aim of this project is to identify and characterise the underlying regulatory factors that control mitochondrial mass and number in plants. The project will exploit a regulatory mechanism that links the mitochondrial import machinery and the respiratory chain. Utilising both forward and reverse genetic approaches, the abundances of protein import translocases will be altered and the changes to mitochon ....Characterizing the regulators of mitochondrial biogenesis in Arabidopsis thaliana. The overall aim of this project is to identify and characterise the underlying regulatory factors that control mitochondrial mass and number in plants. The project will exploit a regulatory mechanism that links the mitochondrial import machinery and the respiratory chain. Utilising both forward and reverse genetic approaches, the abundances of protein import translocases will be altered and the changes to mitochondrial biogenesis will be investigated. This will identify regulatory factors, which can be manipulated and used to alter mitochondrial number and activity.Read moreRead less
The targeting of macromolecules to alter mitochondrial function. Mitochondria are essential organelles involved in energy production and specific metabolic pathways in plant cells that require the import of cytosolic transfer RNA (tRNA) to function. To date our knowledge on the mechanisms of tRNA import is limited. This project seeks to characterise putative receptors and mechanisms with the purpose of exploiting these insights to allow for the manipulation and modification of macromolecule targ ....The targeting of macromolecules to alter mitochondrial function. Mitochondria are essential organelles involved in energy production and specific metabolic pathways in plant cells that require the import of cytosolic transfer RNA (tRNA) to function. To date our knowledge on the mechanisms of tRNA import is limited. This project seeks to characterise putative receptors and mechanisms with the purpose of exploiting these insights to allow for the manipulation and modification of macromolecule targeting to mitochondria. The ability to modify or alter mitochondrial biogenesis and activity may allow for new approaches to be undertaken to increase plant growth, productivity and resistance to stress.Read moreRead less
Deciphering organelle transport mechanisms in plants. Plant growth, productivity and seed yield all depend on organelle function which requires metabolites and proteins
to be transported across membranes. This mechanism of transport is carried out by specific transporters that have
the ability to transport macromolecules, and regulate organelle function. We have identified new transporters that
are involved in amino acid and protein transport in the mitochondria, chloroplast and peroxisomes. We ....Deciphering organelle transport mechanisms in plants. Plant growth, productivity and seed yield all depend on organelle function which requires metabolites and proteins
to be transported across membranes. This mechanism of transport is carried out by specific transporters that have
the ability to transport macromolecules, and regulate organelle function. We have identified new transporters that
are involved in amino acid and protein transport in the mitochondria, chloroplast and peroxisomes. We will assign
function to each protein and investigate the importance in regulating organelle biogenesis. This will allow us to
modulate plant energy production for optimal growth and to withstand abiotic stress, all of which have
agriculturally beneficial consequences. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE150100825
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
Characterization of Novel Import/Assembly Pathways in Plant Mitochondria. In addition to their central role in metabolism, plant mitochondria have emerged as important hubs for both sensing and responding to a variety of stimuli. However, as yet there are still many unanswered basic questions about how mitochondria are built in plant cells. This project aims to characterise two novel protein import/assembly pathways, specifically, the newly identified twin-arginine translocation (Tat) protein as ....Characterization of Novel Import/Assembly Pathways in Plant Mitochondria. In addition to their central role in metabolism, plant mitochondria have emerged as important hubs for both sensing and responding to a variety of stimuli. However, as yet there are still many unanswered basic questions about how mitochondria are built in plant cells. This project aims to characterise two novel protein import/assembly pathways, specifically, the newly identified twin-arginine translocation (Tat) protein assembly pathway, and the disulphide relay system of the mitochondrial intermembrane space which displays unique characteristics compared to other systems. A mechanistic understanding of these pathways can be used to design novel strategies to alter plant growth and performance.Read moreRead less