Researchers from the University of Copenhagen have mapped the entire nuclear genome of a saber-toothed cat. The genetic study reveals new insights about a socially intelligent pack animal, specialized in endurance-based hunting over long distances.
Along with the woolly mammoth and the giant ground sloth, the saber-toothed cats were probably among the most famous animals that lived during the Pleistocene Epoch and went extinct before the end of the last ice age. Over the years, saber-toothed cats have also been the subject of many research projects.
Now, for the first time, researchers from the University of Copenhagen have succeeded in mapping the entire nuclear genome of a saber-toothed cat, the scimitar-toothed cat “Homotherium latidens.” Their DNA study reveals what genes were highly selected upon and important in the evolution of the species.
“Their genetic makeup hints towards scimitar-toothed cats being highly skilled hunters. They likely had very good daytime vision and displayed complex social behaviors. They had genetic adaptations for strong bones and cardiovascular and respiratory systems, meaning they were well suited for endurance running. Based on this, we think they hunted in a pack until their prey reached exhaustion with an endurance-based hunting-style during the daylight hours,” says co-first author Michael Westbury, Postdoc at the Section for Evolutionary Genomics, GLOBE Institute, University of Copenhagen.
The researchers extracted DNA from a Homotherium fossil recovered from Pleistocene permafrost sediments near Dawson City, Yukon Territory, Canada. This specimen was so old it could not be dated using conventional radio-carbon dating meaning that it was at least 47.5 thousand years old.
Earlier research has postulated that the sabre-teeth may have been useful for hunting.
However, this new research indicates endurance rather than large teeth were key to a successful hunt. The researchers suggest that large teeth may have been used as a mating display rather than in having an actual hunting function.
They then used a variety of modern genomic sequencing techniques to map the entire genome of the fossil. They used complex comparative analyses to modern living cat species such as lions and tigers and showed that this saber-toothed cat was very genetically diverse, relative to modern cat species.
“We know that genetic diversity correlates to how many of a given species that exists. Based on this, our best guess is that there were a lot of these big cats around. This also makes perfect sense given that their fossils have been found on every single continent except Australia and Antarctica,” says Michael Westbury.
Synergies with medical research and bioinformatics
Their analysis also showed that the saber-toothed cat is very distantly related to all modern cats. They diverged from them around least 22.5 million years ago. In comparison, humans and gibbons split between 15 and 20 million years ago.
“This was an extremely successful family of cats. They were present on five continents and roamed the earth for millions of years before going extinct. The current geological period is the first time in 40 million years that earth has lacked sabretooth predators. We just missed them,” says co-first author Ross Barnett.
The researchers also emphasize that their study is an example of how different fields of research can benefit from each other. They hope to see similar bioinformatics methods used on many other extinct animals in the future.
“Modern advancements within medicine and genetic research means that the sequencing methods are a lot better for us now than they were just a few years ago. On top of that, we know what specific genes are associated within animals and humans from medical research. This means that we can infer a lot of things about extinct animals as we have done here. You could say that the fast progression of medical research has made this study possible,” says professor Tom Gilbert.
Reference: “Genomic Adaptations and Evolutionary History of the Extinct Scimitar-Toothed Cat, Homotherium latidens” by Ross Barnett, Michael V. Westbury, Marcela Sandoval-Velasco, Filipe Garrett Vieira, Sungwon Jeon, Grant Zazula, Michael D. Martin, Simon Y.W. Ho, Niklas Mather, Shyam Gopalakrishnan, Jazmín Ramos-Madrigal, Marc de Manuel, M. Lisandra Zepeda-Mendoza, Agostinho Antunes, Aldo Carmona Baez, Binia De Cahsan, Greger Larson, Stephen J. O’Brien, Eduardo Eizirik, Warren E. Johnson, Klaus-Peter Koepfli, Andreas Wilting, Jörns Fickel, Love Dalén, Eline D. Lorenzen, Tomas Marques-Bonet, Anders J. Hansen, Guojie Zhang, Jong Bhak, Nobuyuki Yamaguchi and M. Thomas P. Gilbert, 15 October 2020, Current Biology.
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