Scientists set out to map the genes of Canada's most iconic species - Action News
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Scientists set out to map the genes of Canada's most iconic species

There's an international race on to sequence the genomes of all living organisms, and a team of Canadian researchers is looking to claim some territory.

Lynx, snowshoe hare will be among the first animal species in the country to have their genomes sequenced

A team of scientists has launched an ambitious project to sequence the genomes of 150 species deemed significant to Canada. They're starting with the lynx and its prey, the snowshoe hare. (Jake Paleczny/Alberta Environment and Parks)

They're like co-starring leads in one of North America's best known and researched predator-prey shows.

Nowthe lynx and the snowshoe hare are about to become stars ofan ambitious new project to sequence the genomes of 150 of Canada's most notable and significant species.

They'll be the first two.

"This was just a no-brainer project," said Dr. Stephen Scherer, a molecular scientist and the director of the Centre for Applied Genomics atthe Hospital for Sick Children in Toronto. He's also alead researcher on the CanSeq150project.

The results could help researchers understand why species in Canada have developed the way they have and how they have developed in relation to each other. The lynx and the snowshoe hare are interdependent on each other as predator and prey, Scherer said.

CanSeq150 grew out of an earlier project that saw scientists map the beaver's genome. (CBC)

Scientists have long studiedand tested individual genes, but only in recent years have they beenable to map out the entire genetic code of an individual. As technology improves, it gets cheaper to do so every year.

CanSeq150grew out of another project launched a couple of years ago by the same team of scientists. They became the first to sequence the genome of the beaverand presented their results as a sort of 150th birthday present to Canada.

"We thought it was important to have the genome of our national animal sequenced in our own country," Scherer said. "We wanted to exert our national identityand get it done."

After sequencing the beaver, theywere inspired to do more. The researchers decided to try to map the genetic blueprints for more species"of biological, historical, cultural, [or] economic interest to Canada," according to Scherer.

After the beaver, the lynx and snowshoe hare denizens of Canada'svast boreal forest seemed like worthycandidates.

For the CanSeq150 researchers, it's about planting a flagand claiming some scientific territory for Canada.

Scientists are competitive, Scherersaid, and there's an international race on to sequence the genomes of all living organisms.

'We need to actually sequence the genomes of the animals that are Canadian animals,' said Dr. Stephen Scherer, director of the Centre for Applied Genomics at the Hospital for Sick Children in Toronto. (Robert Teteruck/The Canadian Press)

"We need to actually sequence the genomes of the animals that are Canadian animals," he said. "At the minimum,we can control that that's our wall, if you will."

'Looking back into thehistoryof the world'

A sequenced genome allows researchers to, essentially, read the detailed instruction book for how an animal is put together. For example, it will allow researchers to see which specific genes give a lynxits enormousand highly adaptivesnowshoe-likepaws.

The CanSeq150 scientists collected a genetic sample from this lynx at the Yukon Wildlife Preserve in Whitehorse. Samples were also collected from a snowshoe hare trapped in Yukon. (Jake Paleczny)

"We can do thatspeciesbyspecies,and really start to thinkabouthow this all played out," Scherer said.

"It's amazing it's looking back into the history of the world."

Samples sent from Yukon

To find a genetic sample of a lynx, the researchers looked to Yukon and Rudy Boonstra, a University of Toronto professor who's been studying mammals in Yukon since the 1970s.

Boonstratold them it made little sense to look atthe lynx in isolation.

'The sequencing of both species is the foundation for letting us ask questions on ecology and on evolution,' said University of Toronto Scarborough biologist Rudy Boonstra, who has spent decades studying wildlife in Yukon. (Tim Karels/University of Toronto Scarborough)

"I suggested to them that if you really want to understand the system, it would be really great if you did the gene sequence of the principalprey, as well, ofthe Canada lynx the snowshoe hare," he said over the phone from Kluane Lake, Yukon, where he was spending a day trapping and studying voles.

Boonstra describedthe interdependent relationship between lynx and hare populationsas so basic, and so well established, that it can likely be read in their genetic codes.

"They're tightly linked to each otherin terms of their dynamics," he said."So you can ask if the gene sequences that the prey and the predator the lynx and the snowshoe hare have, how they've evolved to adapt to one another[and] to conditions of deep snow.

"The sequencing of both species is the foundation for letting us ask questions on ecology and on evolution ... I think it's an exciting project."

Boonstracollected blood and tissue samples from a snowshoe hare trapped in Yukon to send to Toronto. The lynx samples came from an animal at the Yukon Wildlife Preserve.

148 genomes to go

The lynx and hare were "perfect" candidates to kickstart the CanSeq150 project, Scherersaid.

"Often, you'll actually get biochemical or hormonal relationships between different species, and we should be able to detect that actually, in the genome."

The full list of 150 species is still in development.The scientists have put out a call to other researchers across the countryto nominate and make a case for other species.

Besides the lynx and the snowshoe hare, the CanSeq150 scientists have already selected a few other species whose genomes will be mapped for the project including the Canada jay. (Preston Utley/Vail Daily via Associated Press)

A few species are already on the final list, including:

  • the Canada jay (formerly known as the grey jay)
  • the maritime shrew
  • the northern flying squirrel
  • the Vancouver Island marmot
  • the Steller sea lion
  • the white-sided dolphin
  • the Northern fur seal

"There's other ones that have been submitted, and we're looking at them," Scherer said. "These are all supposed to be genomes that have not been sequenced before, so it's a unique contribution."

'Gene editing' may follow

He expects the whole CanSeq150 project to take about three years to complete, but hopes its legacy will stand for years primarily by ensuringCanada is known asa world leader in genetic research.

It's a fast-evolving field, he said, with potentially massivereal-world implications. Sequencinggenomes bringsscientists that much closer to the very stuff of life and evolution. "Gene editing"may follow.

"If the human species decided we wanted to engineer some of these animals going forward, we'll be able to do it,"Scherersaid.

"That's a big decision to make, but to do it properly, of course, you're going to have to understand what the consequences are. So you need to have all the different understandings of how these genetic variants will play out."

Canada needs to be in the lead, he said, because "we think the right decisions are usually made in a country like Canada."

"You're not going to be invited to the table unless you're active in the game."