Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100204
Funder
Australian Research Council
Funding Amount
$550,000.00
Summary
A systems biology capability for the Ramaciotti Centre for Genomics. A systems biology capability for the Ramaciotti Centre for Genomics:
The project aims to introduce a complete systems biology capability to the Ramaciotti Centre for Genomics. This is intended to provide a complete systems biology workflow, including improved data analysis for next-generation sequencing, tissue preparation and imaging, and mass spectrometry for proteomics and metabolomics. This would enable a truly systems app ....A systems biology capability for the Ramaciotti Centre for Genomics. A systems biology capability for the Ramaciotti Centre for Genomics:
The project aims to introduce a complete systems biology capability to the Ramaciotti Centre for Genomics. This is intended to provide a complete systems biology workflow, including improved data analysis for next-generation sequencing, tissue preparation and imaging, and mass spectrometry for proteomics and metabolomics. This would enable a truly systems approach to biological problems, supporting researchers and projects that focus on microbial and mammalian metabolism, carbohydrate chemistry and synthetic biology. Read moreRead less
What do Microorganisms do Season by Season, Year after Year in the Frigid Antarctic Wilderness? Antarctica is arguably the world’s most important continent for influencing the Earth’s climate and global ocean ecosystem. Like most natural aquatic environments on Earth, in Antarctica microorganisms dominate the genetic pool and biomass and play the key roles in maintaining proper ecosystem function. The project aims to determine how microbial communities change throughout a complete annual cycle i ....What do Microorganisms do Season by Season, Year after Year in the Frigid Antarctic Wilderness? Antarctica is arguably the world’s most important continent for influencing the Earth’s climate and global ocean ecosystem. Like most natural aquatic environments on Earth, in Antarctica microorganisms dominate the genetic pool and biomass and play the key roles in maintaining proper ecosystem function. The project aims to determine how microbial communities change throughout a complete annual cycle in three climate sensitive, Antarctic lakes. By establishing what the microorganisms do in different seasons the study will learn which microbial processes change and how environmental perturbation will impact on normal ecological cycles. This will form the basis for evaluating the effects of climate change on sensitive ecosystems in the Antarctic.Read moreRead less
Next generation high throughput lipidomics using adaptive modelling. This project aims to develop a unique high-throughput method to capture the lipidomic profile of human plasma suitable for large human population screening. Lipids are fundamental to every biological system, but our understanding of their regulation in humans have been largely superficial. By incorporating a new lipidomics approach, with genomic data, this project aims to expand our understanding of human biology by identifying ....Next generation high throughput lipidomics using adaptive modelling. This project aims to develop a unique high-throughput method to capture the lipidomic profile of human plasma suitable for large human population screening. Lipids are fundamental to every biological system, but our understanding of their regulation in humans have been largely superficial. By incorporating a new lipidomics approach, with genomic data, this project aims to expand our understanding of human biology by identifying regulators of lipid metabolism. The large diversity in humans necessitate sufficient sample sizes to identify true genetic regulators, but to date techniques capturing phenotypic data (lipids) have been largely limited. It is anticipated that this study will identify new regulators of lipid metabolism in humans.Read moreRead less