{"id":391571,"date":"2021-04-30T17:22:49","date_gmt":"2021-04-30T20:22:49","guid":{"rendered":"https:\/\/revistapesquisa.fapesp.br\/?p=391571"},"modified":"2021-04-30T17:23:39","modified_gmt":"2021-04-30T20:23:39","slug":"among-venoms-not-just-from-snakes","status":"publish","type":"post","link":"https:\/\/revistapesquisa.fapesp.br\/en\/among-venoms-not-just-from-snakes\/","title":{"rendered":"Among venoms, not just from snakes"},"content":{"rendered":"

On a Saturday afternoon in 1978, in front of a group of Swiss tourists, in a fenced area that is today used by the admissions booth for the Butantan Institute museums, biologist Carlos Jared extracted venom from the glands of a rattlesnake (Crotalus<\/em> durissus <\/em>spp.). After he finished his work, which was normally done in closed rooms during the week, the snake attacked him and embedded its teeth into one of his feet, which was covered with a newly purchased boot that was supposed to protect from any bite. Jared remained calm and put the snake back in its box. He then started screaming as he ran toward the Vital Brazil Hospital, about 100 meters away, where he received an anticrotalic serum. For two weeks, the effects of the venom caused him blurred vision and droopy eyelids, but he made a full recovery. Today, visitors can see the snakes in a serpentarium and in the Biological Museum; public venom extractions were suspended in the 1990s and today they are only done in laboratory.<\/p>\n

Jared has been associated with the institute since his childhood\u2014he was the son of an employee and he grew up there, learning how to work with snakes when he was in high school. He later studied biology and was contracted in 1972 as a production assistant. Working there as a herpetologist, he studied the blood cells of snakes in laboratory using an electronic microscope, before moving six years later to his current area of focus: comparative biology. \u201cWith the theory of evolution, I began to see a new world and to look for adaptation mechanisms that would explain why amphibians had venomous glands in their skin and snakes in their mouths,\u201d he says.<\/p>\n

Initially working alone and later with biologist Marta Antoniazzi, he examined the cell structures of venom production in snakes, toads, tree frogs, other frogs, stingrays, and centipedes\u2014and how other animals resist them. Toads, for example, resist the venom of scorpions, which they feed on, as described in the April 2020 edition of the magazine Toxicon<\/em>, indicating that the scarcity of the former could lead to the proliferation of the latter. Biologist Pedro Mailho-Fontana, from Jared\u2019s team, identified venom glands near the teeth of caecilians (blind snakes), which form a group of amphibians. Detailed in a July 2020 article in iScience<\/em>, this work showed that caecilians developed the dental venom glands before snakes did, which appeared independently 150 million years later.<\/p>\n<\/div>

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