A fundamental study of the role of signal transduction pathways in the regulation of Chlamydia's complex developmental cycle. Chlamydia are unique organisms in the microbial world. They are among the smallest bacteria and yet have a complex two-stage developmental cycle. In addition they are major causes of disease in animals and humans with no vaccines available. We have used the recent flood of full genome sequence data to identify over 30 new cell signalling proteins. By understanding how the ....A fundamental study of the role of signal transduction pathways in the regulation of Chlamydia's complex developmental cycle. Chlamydia are unique organisms in the microbial world. They are among the smallest bacteria and yet have a complex two-stage developmental cycle. In addition they are major causes of disease in animals and humans with no vaccines available. We have used the recent flood of full genome sequence data to identify over 30 new cell signalling proteins. By understanding how these cell signaling proteins are organized into pathways and how this microorganism controls its complex growth and developmental cycle, we will be able to develop novel methods of control. We are at the fore front of international research and therefore uniquely placed to conduct this project.Read moreRead less
Formation of the Chlamydial Inclusion Requires Host Trafficking Pathways. Using cellular and biochemical approaches this project aims to examine the membrane trafficking pathways hijacked by the pathogen Chlamydia and to define the key components of these pathways. Chlamydia are obligate intracellular pathogens responsible for a range of human and animal diseases. In order to survive within the host cell, the pathogen hijacks the host's membrane trafficking pathways to engineer an intracellular ....Formation of the Chlamydial Inclusion Requires Host Trafficking Pathways. Using cellular and biochemical approaches this project aims to examine the membrane trafficking pathways hijacked by the pathogen Chlamydia and to define the key components of these pathways. Chlamydia are obligate intracellular pathogens responsible for a range of human and animal diseases. In order to survive within the host cell, the pathogen hijacks the host's membrane trafficking pathways to engineer an intracellular niche called an inclusion. In addition to providing a permissive environment, this strategy also shields the pathogen from the host's immune system.Read moreRead less
Slipping out unnoticed: a new bacterial lipoprotein transport system. Worldwide markets for biotechnology-derived products are projected to grow to at least $50 billion per year for the next 10 years. The cornerstone of biotechnology is the production of proteins. The applicant has discovered a new pathway for protein production in bacteria. The primary objective of this project is to use a diverse array of biochemical and biophysical techniques to understand how this new protein production pl ....Slipping out unnoticed: a new bacterial lipoprotein transport system. Worldwide markets for biotechnology-derived products are projected to grow to at least $50 billion per year for the next 10 years. The cornerstone of biotechnology is the production of proteins. The applicant has discovered a new pathway for protein production in bacteria. The primary objective of this project is to use a diverse array of biochemical and biophysical techniques to understand how this new protein production platform works. We will also assess this new pathway for the production of proteins of interest to the biotechnology sector. This project expects to determine how this system can be exploited for use in the growing Australian bioeconomy.Read moreRead less