Nucleomodulin effectors of the environmental pathogen Legionella. This project aims to examine the evolution of Legionella as an intracellular organism and the mechanisms by which the bacteria evade environmental predation by amoebae. Aside from the advancement of knowledge, expected outcomes of this project include a greater understanding of amoebae. This will provide significant benefits, and this knowledge may be used to develop inhibitors of amoebae growth.
Genetic Variation And Host-parasite Interactions Of Sarcoptes Scabiei
Funder
National Health and Medical Research Council
Funding Amount
$294,536.00
Summary
Scabies is a disease of skin caused by the burrowing of the 'itch' mite Sarcoptes scabiei. Although up to 45 different host species can be infested by this mite, this organism is currently classified as a single species existing as multiple strains or varieties. Previous studies have failed to identify any structural differences between host-associated populations, suggesting a single gene pool. Our recent molecular study of scabies in people and dogs, from Aboriginal communities in the Northern ....Scabies is a disease of skin caused by the burrowing of the 'itch' mite Sarcoptes scabiei. Although up to 45 different host species can be infested by this mite, this organism is currently classified as a single species existing as multiple strains or varieties. Previous studies have failed to identify any structural differences between host-associated populations, suggesting a single gene pool. Our recent molecular study of scabies in people and dogs, from Aboriginal communities in the Northern Territory and the North and South Americas, using DNA fingerprinting techniques, suggested mites cluster by host species with no evidence of cross-transmission. However although this data seems to suggest that these sub-species deserve species status, another molecular study suggests Sarcoptes is a single species, presumably a result of interbreeding. Understanding interbreeding between populations is important in the control of the disease and in controlling resistance to acaricides. We wish to further characterise the genetic separation of different 'strains' or populations of mites by studying the evolutionary gene flow between host-associated populations. We will use a mitochondrial DNA marker that will clarify fine scale transmission processes and more clearly delineate the biological species status of S. scabiei. Recent in vitro data and clinical evidence in a patient with severe crusted scabies indicated resistance to ivermectin, the treatment of choice for these patients. We will investigate the role and genetic mechanisms of ivermectin resistance. This is important for future control programs, as acaricide resistance can spread rapidly in parasite populations.Read moreRead less
Mechanisms of virulence of amphibian chytridiomycosis and factors influencing their evolution. Chytridiomycosis is a fatal fungal disease causing amphibian population declines as it spreads globally. By analysing the genes, proteins and metabolites of the fungus, we will determine how infection leads to death. This will enable surveys for virulent fungal strains and potential enhancement of host resistance.