Unlocking the potential of bacterial polymers by defining key determinants. Sugary structures that coat the surface of some bacteria, known as capsules, can be modified by bacterial viruses (bacteriophage) in the environment. For the bacterial genus Acinetobacter, this influences their use as naturally renewable 'green' biopolymers for remediating environments contaminated with petroleum hydrocarbons. This project aims to characterise crucial capsule polymerase enzymes using a combination of bio ....Unlocking the potential of bacterial polymers by defining key determinants. Sugary structures that coat the surface of some bacteria, known as capsules, can be modified by bacterial viruses (bacteriophage) in the environment. For the bacterial genus Acinetobacter, this influences their use as naturally renewable 'green' biopolymers for remediating environments contaminated with petroleum hydrocarbons. This project aims to characterise crucial capsule polymerase enzymes using a combination of bioinformatics and experimental methodologies to establish how bacteriophage influence Acinetobacter capsules. Outcomes include the development of an innovative genomics pipeline to detect capsule change, improving the use of living bacteria for bioremediation and sustainable rehabilitation of natural ecosystems.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100388
Funder
Australian Research Council
Funding Amount
$437,977.00
Summary
Ecological and phylogenomic insights into infectious diseases in animals. This project aims to address major knowledge gaps in our understanding of Clostridium difficile, a leading cause of severe gastrointestinal disease in animals. The project is expected to define the epidemiology of C. difficile infection in Australian horses, characterise the genetic and phenotypic traits of C. difficile strains causing equine disease and develop a new tool for enhanced genomic tracking of C. difficile in a ....Ecological and phylogenomic insights into infectious diseases in animals. This project aims to address major knowledge gaps in our understanding of Clostridium difficile, a leading cause of severe gastrointestinal disease in animals. The project is expected to define the epidemiology of C. difficile infection in Australian horses, characterise the genetic and phenotypic traits of C. difficile strains causing equine disease and develop a new tool for enhanced genomic tracking of C. difficile in animals. These outcomes will support strategies by the veterinary sector to improve the detection, prevention and control of C. difficile infections in animals, providing long-term socio-economic benefits arising from reduced incidence and mortality associated with C. difficile infections in Australian horses and livestock.Read moreRead less
Dissecting bacterial signal transduction. Bacteria have feelings. They sense and respond to changes using proteins called two-component signalling systems (TCSS). These comprise a sensor which activates a DNA binding protein in response to specific cues (signals). Using state-of-the-art genetic techniques and a synthetic biology approach, this research aims to reveal for the first time how these complex bacterial TCSS networks interact. The outcomes will be a fundamental, new understanding of ho ....Dissecting bacterial signal transduction. Bacteria have feelings. They sense and respond to changes using proteins called two-component signalling systems (TCSS). These comprise a sensor which activates a DNA binding protein in response to specific cues (signals). Using state-of-the-art genetic techniques and a synthetic biology approach, this research aims to reveal for the first time how these complex bacterial TCSS networks interact. The outcomes will be a fundamental, new understanding of how bacteria sense and respond to environmental signals; a deep dive into how bacteria feel. This knowledge will be the basis for innovative approaches to harness bacteria in biotech such as vaccine production, biofuels, or clever therapeutic interventions to stop bacterial infections.Read moreRead less