STOCKHOLM (AFP) – Scientists have for the first time recovered RNA from an extinct species, the Tasmanian tiger, raising hope for the resurrection of animals once thought lost forever, Stockholm University researchers told AFP.
“RNA has never been extracted and sequenced from an extinct species before,” said Stockholm University professor of evolutionary genomics Love Dalen, who co-led the project.
“The ability to recover RNA from extinct species constitutes a small step (toward) maybe being able to resurrect extinct species in the future,” he said.
Dalen and his team were able to sequence RNA molecules from a 130-year-old Tasmanian tiger specimen preserved at room temperature in Sweden’s Museum of Natural History.
With this they were able to reconstruct skin and skeletal muscle RNA.
RNA is a molecule that is used to convey information from the genome to the rest of the cell about what it should do.
“If you’re going to resurrect an extinct animal, then you need to know where the genes are and what they do, and in what tissues they are regulated,” Dalen said, explaining the need for knowledge about both DNA and RNA.
The last known living Tasmanian tiger or thylacine, a carnivorous marsupial, died in captivity in 1936 at the Beaumaris Zoo in Tasmania.
After European colonisation of Australia, the animal was declared a pest and in 1888 a bounty was offered for each full-grown animal killed.
Scientists have focused their de-extinction efforts on the Tasmanian tiger as its natural habitat in Tasmania is largely preserved.
Daniela Kalthoff, in charge of the mammal collection at the Museum of Natural History, said the idea of possibly resurrecting the Tasmanian tiger was an “exciting idea”.
“This is a fantastic animal and I would love to see it live again,” she said, demonstrating the black-and-brown striped skin the researchers used in their study.
Their findings also have implications for studying pandemic RNA viruses.
“Many of the pandemics that have happened in the past have been caused by RNA viruses, most recently the coronavirus but also… the Spanish flu,” Dalen explained.
“We could actually go and look for these viruses in wild animal remains stored in dry museum collections. That might actually help us understand the nature of pandemics and where pandemics come from,” he said.