Vaccine against leptospirosis. This project will utilise the information from the determination of the complete genome sequence of Leptospira borgpetersenii serovar Hardjobovis at Monash University. Bioinformatics analysis will be used to allow a global approach to identify all putative vaccine antigens which will be cloned, expressed and purified and their protective capacity investigated.
Structural and functional alteration of red blood cells by Babesia parasites. Cattle Tick Fever caused by Babesia parasites causes significant economic loss to the Australian livestock industry. New approaches to prevent this disease are urgently needed but this requires greater knowledge of how the parasites cause disease in cattle. By identifying novel proteins involved in the disease process we will be able to make better vaccines and drugs and save the Australian livestock industry millions ....Structural and functional alteration of red blood cells by Babesia parasites. Cattle Tick Fever caused by Babesia parasites causes significant economic loss to the Australian livestock industry. New approaches to prevent this disease are urgently needed but this requires greater knowledge of how the parasites cause disease in cattle. By identifying novel proteins involved in the disease process we will be able to make better vaccines and drugs and save the Australian livestock industry millions of dollars each year.Read moreRead less
Subspecies distribution and virulence of Streptococcus uberis. Streptococcus uberis is a significant cause of bovine mastitis. Attempts to produce a successful vaccine against S. uberis have been hampered by the lack of knowledge of phylogenetic relationships within the species and virulence mechanisms. It is uncertain whether pathogenic strains are clonal or are acquired opportunistically from a diverse population in the environment. This project aims to examine the phylogenetic structure of ....Subspecies distribution and virulence of Streptococcus uberis. Streptococcus uberis is a significant cause of bovine mastitis. Attempts to produce a successful vaccine against S. uberis have been hampered by the lack of knowledge of phylogenetic relationships within the species and virulence mechanisms. It is uncertain whether pathogenic strains are clonal or are acquired opportunistically from a diverse population in the environment. This project aims to examine the phylogenetic structure of S. uberis by multilocus sequence typing and investigate control of virulence gene expression in S. uberis. The information obtained will be used to improve the formulation of a bovine mastitis vaccine developed by RMIT University and Vet Biosearch.Read moreRead less