Discovery Early Career Researcher Award - Grant ID: DE130101191
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Formation of the osteocyte network in bone matrix. The formation of new bone, which occurs throughout life for bone renewal and acutely after fractures, entraps a network of cells that can detect micro-damage and direct repair mechanisms. Mathematical and computational methods will be used to understand how this network can lead to a self-detecting and self-repairing biomaterial.
The structure in four-dimensions of a mammalian nuclear body. The project aims to develop a working model of a micron-sized molecular machine implicated in numerous aspects of gene regulation. Bodies in the mammalian cell nucleus are larger than macromolecular complexes and smaller than organelles. Recent developments in structural, molecular and cell biology are allowing us to begin to interpret their structure-function relationships. This project capitalises on a wealth of structural and funct ....The structure in four-dimensions of a mammalian nuclear body. The project aims to develop a working model of a micron-sized molecular machine implicated in numerous aspects of gene regulation. Bodies in the mammalian cell nucleus are larger than macromolecular complexes and smaller than organelles. Recent developments in structural, molecular and cell biology are allowing us to begin to interpret their structure-function relationships. This project capitalises on a wealth of structural and functional data on nuclear bodies termed paraspeckles with the aim of developing a structural model. It aims to track tens of proteins and long non-coding RNA from paraspeckles as they proceed through the cell cycle, by combining genome engineering, super-resolution microscopy, proteomics and in vitro interaction studies.Read moreRead less