Marine flatworm parasites of elasmobranchs: a unique model for experiments exploring invasion strategies, biology and specificity to help understand parasitism. Primitive parasites with simple life cycles from ancient hosts emphasise adaptations to parasitism. Experimental studies on live eggs and infective stages of different monogenean (flatworm) parasite species from the skin, gills and cloaca of southern fiddler rays will identify critical interactions early in parasite-host relationships t ....Marine flatworm parasites of elasmobranchs: a unique model for experiments exploring invasion strategies, biology and specificity to help understand parasitism. Primitive parasites with simple life cycles from ancient hosts emphasise adaptations to parasitism. Experimental studies on live eggs and infective stages of different monogenean (flatworm) parasite species from the skin, gills and cloaca of southern fiddler rays will identify critical interactions early in parasite-host relationships that determine whether or not parasitism occurs. Basic and applied benefits include: development of a tractable experimental system for studying parasite-host relationships; strategies to control parasites in public aquaria and aquaculture; profitable and exportable expertise; excellence and research training in basic parasitology; contributions to Australia's natural heritage collections.Read moreRead less
Three-dimensional structures, substrate specificities and catalytic mechanisms of polysaccharide synthases. Plant wall polysaccharides are extensively used for food and fibre, and are important dietary components in human nutrition. A precise knowledge of mechanisms used by plants to synthesize these polysaccharides is unavailable, but would reveal potential routes to manipulate their biosynthesis in important crop species. For example, the levels or structures of polysaccharides might be modif ....Three-dimensional structures, substrate specificities and catalytic mechanisms of polysaccharide synthases. Plant wall polysaccharides are extensively used for food and fibre, and are important dietary components in human nutrition. A precise knowledge of mechanisms used by plants to synthesize these polysaccharides is unavailable, but would reveal potential routes to manipulate their biosynthesis in important crop species. For example, the levels or structures of polysaccharides might be modified to improve their efficacy as anti-cancer agents in human diets, to enhance digestibility of animal stock feeds, or to synthesise pharmologically valuable compounds. Thus, economic, social and environmental benefits will flow to both producers and consumers. Read moreRead less