Linkage Infrastructure, Equipment And Facilities - Grant ID: LE180100121
Funder
Australian Research Council
Funding Amount
$384,671.00
Summary
Genomic library infrastructure for ancient environmental samples. This project aims to enable automated genome recovery from diverse environmental samples, without contamination risk. For more than 100 years, environmental scientists have studied diverse organism / environment interactions using a variety of conceptual and technical tools. Recently, studies of ancient and historical DNA have come to complement these tools and to occupy a significant place in environmental studies conducted over ....Genomic library infrastructure for ancient environmental samples. This project aims to enable automated genome recovery from diverse environmental samples, without contamination risk. For more than 100 years, environmental scientists have studied diverse organism / environment interactions using a variety of conceptual and technical tools. Recently, studies of ancient and historical DNA have come to complement these tools and to occupy a significant place in environmental studies conducted over serial time. The project’s addition to the existing dual Ancient DNA complex facility at Griffith University will comprise two liquid handling workstations, each being housed in separate, self-contained, ancient DNA laboratories. The new facility will enable many researchers to have unprecedented access to an ancient DNA facility and a high level of technical support.Read moreRead less
A novel method for controlling microbial concrete corrosion in sewers. This project plans to use a newly discovered, low-cost and environmental benign antimicrobial agent to develop an innovative technology to control the development of corrosion-inducing sewer biofilms. Concrete sewer corrosion is a long-standing and costly problem for the water industry. Microbial hydrogen sulfide oxidation on concrete surfaces plays a critical role. The technology will be designed to prevent corrosion of new ....A novel method for controlling microbial concrete corrosion in sewers. This project plans to use a newly discovered, low-cost and environmental benign antimicrobial agent to develop an innovative technology to control the development of corrosion-inducing sewer biofilms. Concrete sewer corrosion is a long-standing and costly problem for the water industry. Microbial hydrogen sulfide oxidation on concrete surfaces plays a critical role. The technology will be designed to prevent corrosion of new concrete sewers by adding a precursor chemical into the cement, or to slow down the corrosion of existing sewers by infrequently (once every one to few years) spraying the precursor chemical directly onto the concrete surface. Potentially, the project will substantially reduce sewer corrosion.Read moreRead less
Identification of new antibacterial agents that inhibit type III secretion. The development of new antibacterial drugs is an unmet global health priority. This project will investigate several plant-derived compounds that have been found to display promising antibacterial activity. This project has the potential to identify compounds that may result in a new antibiotic therapy.
New drugs against parasitic nematodes of livestock animals. New drugs against parasitic nematodes of livestock animals. This project aims to develop an innovative technology platform to deliver novel anti-infectives as biotechnological outcomes, using postgenomics, computing and chemistry. Advanced molecular, computer and chemistry technologies provide unprecedented opportunities to design radically new interventions against socioeconomically important infectious diseases affecting billions of a ....New drugs against parasitic nematodes of livestock animals. New drugs against parasitic nematodes of livestock animals. This project aims to develop an innovative technology platform to deliver novel anti-infectives as biotechnological outcomes, using postgenomics, computing and chemistry. Advanced molecular, computer and chemistry technologies provide unprecedented opportunities to design radically new interventions against socioeconomically important infectious diseases affecting billions of animals worldwide. Anticipated outcomes are the design of radically new chemotherapies to control parasitic diseases, the translation of fundamental research into biotechnological outcomes, international visibility of Australian science, and a solid skills- and knowledge-base in veterinary drug development.Read moreRead less