Structural Characterisation of the Type IX Secretion System. The Type IX Secretion System present in diverse bacteria of veterinary, agricultural, environmental and industrial importance enables effector proteins to be secreted and attached to the cell surface where they contribute to disease pathogenesis or degrade biopolymers of commercial interest. This project aims to determine the structure and assembly mechanism of this complex secretion nanomachine comprising 15 different proteins using s ....Structural Characterisation of the Type IX Secretion System. The Type IX Secretion System present in diverse bacteria of veterinary, agricultural, environmental and industrial importance enables effector proteins to be secreted and attached to the cell surface where they contribute to disease pathogenesis or degrade biopolymers of commercial interest. This project aims to determine the structure and assembly mechanism of this complex secretion nanomachine comprising 15 different proteins using state of the art microscopy. Knowledge of the structure will greatly enhance our understanding of secretion mechanisms and our ability to both inhibit the system to treat disease in animals or manipulate the system for industrial applications providing future economic and environmental benefits to our nation.Read moreRead less
Bacterial vesicles transport their bioactive cargo to the host nucleus. This project aims to investigate how bacterial membrane vesicles transport their cargo to the nucleus of cells and its impact on host cell functions. Bacteria use membrane vesicles as a means of communication with the host, but the full extent of their effects on host cells has yet to be fully elucidated. This project expects to generate new knowledge in the field using cutting-edge imaging and molecular biology approaches. ....Bacterial vesicles transport their bioactive cargo to the host nucleus. This project aims to investigate how bacterial membrane vesicles transport their cargo to the nucleus of cells and its impact on host cell functions. Bacteria use membrane vesicles as a means of communication with the host, but the full extent of their effects on host cells has yet to be fully elucidated. This project expects to generate new knowledge in the field using cutting-edge imaging and molecular biology approaches. The work should provide significant benefits, particularly towards the development of membrane vesicles in gene therapy, gene editing and other applications. Read moreRead less
Characterising O-linked glycosylation across Burkholderia. Protein glycosylation, the chemical addition of sugars to proteins, enables the augmentation of protein properties. Across the Burkholderia genus we have shown O-linked glycosylation is both conserved as well as essential for bacterial fitness. Yet, we have little understanding of how glycosylation modulates the proteome of this genus. This project aims to characterise the glycoproteomes of Burkholderia species and track the impact of gl ....Characterising O-linked glycosylation across Burkholderia. Protein glycosylation, the chemical addition of sugars to proteins, enables the augmentation of protein properties. Across the Burkholderia genus we have shown O-linked glycosylation is both conserved as well as essential for bacterial fitness. Yet, we have little understanding of how glycosylation modulates the proteome of this genus. This project aims to characterise the glycoproteomes of Burkholderia species and track the impact of glycosylation on both the proteome and protein stability. By understanding how glycosylation shapes the proteome we will gain a greater understanding of the role of bacterial glycosylation in Burkholderia physiology as well as how we may better utilise microbial glycosylation for glycoprotein production.Read moreRead less