11/17/2023 0 Comments Download hairworm cricket![]() The two hairworm species produce effective molecules acting directly on the CNS of their orthoptera hosts. This proteomics study on the biochemical pathways altered by hairworms has also allowed us to tackle questions of physiological and molecular convergence in the mechanism(s) causing the alteration of orthoptera behaviour. We also detected proteins for which the function(s) are still unknown. In the head of manipulated cricket, we found differential expression of proteins specifically linked to neurogenesis, circadian rhythm and neurotransmitter activities. We found that the parasite produces molecules from the Wnt family that may act directly on the development of the central nervous system (CNS). A young hairworm finds its way into a cricket or similar insect like a beetle or grasshopper, and once it’s grown into an adult, the parasite takes over its host’s brain to hitch a ride to the water. A baby hairworm hitches a ride inside a cricket, feasting on its fat until the coiled-up parasite is ready to burst out. We characterized host and parasite proteomes during the expression of the water-seeking behaviour. How a hairworm ends up in a puddle, or another water source such as a stream, hot tub or a pet’s water dish, is a complex story. These Hairworms Eat a Cricket Alive and Control Its Mind. Here, we used proteomics tools to identify the biochemical alterations that occur in the head of the cricket Nemobius sylvestris when it is driven to water by the hairworm Paragordius tricuspidatus. ![]() ![]() Despite increasing evidence of host phenotypic manipulation by parasites, the underlying mechanisms causing infected hosts to act in ways that benefit the parasite remain enigmatic in most cases. ![]()
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