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image: Researchers Mine Centipede Toxins for Analgesics

Researchers Mine Centipede Toxins for Analgesics

By Catherine Offord | January 1, 2018

Venomous centipedes may harbor a clue to the creation of a successful pain-killing compound for humans.

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image: Sourcing Painkillers from Scorpions’ Stings

Sourcing Painkillers from Scorpions’ Stings

By Abby Olena | January 1, 2018

Compounds in the arachnids’ venom interact with ion channels to both cause and block pain.

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image: Toxin from a Dangerous Fish Delicacy

Toxin from a Dangerous Fish Delicacy

By Kerry Grens | January 1, 2018

In tiny doses, the pufferfish’s tetrodotoxin can be turned into a pain-relieving ion channel blocker.

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image: Snake Venoms Cause and Block Pain

Snake Venoms Cause and Block Pain

By Kerry Grens | January 1, 2018

Painful snake bites may hold clues to developing analgesic drugs.

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image: Neuroscientist and Champion of Glia Research Dies

Neuroscientist and Champion of Glia Research Dies

By Kerry Grens | December 28, 2017

Ben Barres of Stanford University described glia’s roles in ensuring neurons’ proper synapse formation and in responding to brain injury.

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image: Photos of the Year

Photos of the Year

By Katarina Zimmer | December 25, 2017

From a plastic-munching coral to see-through frogs, here are The Scientist’s favorite images from 2017.

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image: CRISPR Helps Mice Hear

CRISPR Helps Mice Hear

By Abby Olena | December 20, 2017

Researchers reduce the severity of hereditary deafness in mice with the delivery of CRISPR-Cas9 protein-RNA complexes that inactivate a mutant gene in their inner ears. 

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image: Hibernating Rodents Feel Less Cold

Hibernating Rodents Feel Less Cold

By Abby Olena | December 19, 2017

Syrian hamsters and thirteen-lined ground squirrels are tolerant of chilly temperatures, thanks to amino acid changes in a cold-responsive ion channel. 

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Upping a gene’s expression in rat brains made them better learners and normalized the activity of hundreds of other genes to resemble the brains of younger animals.

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Single-cell genome analyses reveal the amount of mutations a human brain cell will collect from its fetal beginnings until death.

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