5 July 2018

University of Canberra scientists help crack genetic code of koalas

| Ian Bushnell
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Koala in the Mumbulla Flora Reserve. Genome breakthrough is important for the survival of the species. Photo Dave Gallen OEH

Koala in the Mumbulla Flora Reserve. Genome breakthrough is important for the survival of the species. Photo: Dave Gallen OEH.

Three University of Canberra scientists have helped complete the full sequencing of the koala’s genome, which could reduce its risk of extinction.

Professor of Genomics Janine Deakin and Professor Arthur Georges, an expert in ecology and herpetology, from the University’s Institute for Applied Ecology (IAE) contributed to the work of the Koala Genome Consortium.

The University said that the major breakthrough, which has been published in Nature Genetics, had given scientists unprecedented insights into the animal’s unique biology as they work to preserve it.

Koalas are not listed as endangered, but the animal is under threat from diseases such as chlamydia and koala retrovirus, and the findings could help researchers develop treatments for these devastating diseases.

Dr Deakin said it was a significant step toward ensuring the species’ long-term survival.

“Koalas are one of Australia’s most iconic animals and this important research will go a long way to ensuring we don’t lose them,” said Dr Deakin, who is the Director of the IAE.

“Not only did we find out interesting facts about the koala, but it represents a new generation of science-based conservation policy.

“Our work will be an important pillar in the NSW Koala Strategy 2018 and our discoveries have been deposited into a public database for scientists around the world to access.”

Researchers analysed over 3.4 billion base pairs and more than 26,000 genes in what is the most complete marsupial genome sequence to date. At 95.1 per cent accuracy, it is comparable to that of the human genome.

The genetic blueprint not only unearthed a wealth of information about the koala’s unusual and highly specialised diet of eucalyptus leaves, but it also provides important insights into their immune system, population diversity and their evolution.

“We helped assemble fragments of DNA in the right order,” Dr Deakin said.

“Think of DNA fragments as lots of different words in no particular order. We put these words in the right sequence, so we can now read the koala’s story. It was a huge task, but it represents a significant step forward in the fight to protect this iconic animal.”

The animal’s ability to survive on eucalyptus leaves that are toxic to other animals is due to two large expansions in a gene family known to be integral to detoxification.

Researchers found these genes are expressed in many koala tissues, particularly in the liver, indicating they have a very important function in detoxification and likely allowed koalas to survive on eucalyptus leaves.

The team also discovered that koalas can potentially fine-tune milk protein composition across different stages of lactation to meet the changing needs of their young.

The project, led by Director of the Australian Museum Research Institute, Dr Rebecca Johnson, was first launched in 2013.

“The Koala Genome Consortium has been a monumental journey into understanding our koala – one of the world’s most charismatic and iconic mammals,” Dr Johnson said.

“Sequencing the koala genome was a pioneering venture with risks and uncertainties, but its success has started a revolution with conservation at its core.”

The University hosted the annual Genetics Society of AustralAsia conference this week (1-4 July).

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