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[Michaelangelica]

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The mosquito's elaborate "nose" consists of hundreds of hollow hair-like structures called sensilla attached to its antennae, maxillary palps and proboscis. The tips of these structures are perforated with thousands of tiny holes that let aromatic compounds penetrate to their interior, where they encounter thread-like extensions from neurons which are tuned to detect specific molecules.

Compared to the mosquito's antennae, which are designed to detect hundreds of different compounds, the study found that the maxillary palps are highly specialized. "The amazing thing that we found was that all the sensory hairs that line the bottom of the maxillary palps are identical," says Zwiebel. They are all attached to three neurons: one which is tuned to detect carbon dioxide; one which is tuned to detect octenol; and one which serves to enhance general olfactory reception.

Fighting Malaria By Tricking Mosquito's Sense Of Smell

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The team found that humans and the mosquitoes that carry the malaria parasite share the same complex carbohydrate, heparan sulfate. In both humans and mosquitoes, heparan sulfate is a receptor for the malaria parasite, binding to the parasite and giving it quick and easy transport through the body. The team was led by Robert J. Linhardt, the Ann and John H. Broadbent Jr. ’59 Senior Constellation Professor of Biocatalysis and Metabolic Engineering at Rensselaer.

“The discovery allows us to think differently about preventing the disease,” Linhardt said. “If we can stop heparan sulfate from binding to the parasite in mosquitoes, we will not just be treating the disease, we will be stopping its spread completely.”

Malaria parasites are extremely finicky about their hosts, Linhardt explained. Birds, rodents, humans, and primates all can be infected with malaria, but each species is infected by a different species of mosquito — and each of those mosquitoes is infected by a different malaria parasite. In other words, there needs to be a perfect match at the molecular basis for malaria to spread from one species to another, Linhardt said. Researchers have long understood this deadly partnership, but the molecular basis for the match had never been determined.

“The discovery marks a paradigm shift in stopping malaria,”

Discovery Could Help Stop Malaria At Its Source -- The Mosquito