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15 August 2019

It’s an ancient fruit, but the avocado has been brought into the new millennium with the publication of its draft genome, which may be the key to improvements in future crops.

Õ¬Äе¼º½ Centre for Horticultural Science’s Professor Neena Mitter, along with colleagues and collaborated on the international research led by

Professor Mitter said the avocado had around 25,000 protein-coding genes – roughly the same as humans.

“There is a lot of genetic variation in avocado, and this new genetic information, coupled with advances in big data means there’s huge potential for future crop improvement and breeding that we can now tap into,” Professor Mitter said.

Õ¬Äе¼º½ researchers in the Program will now complete the final assembly of the genome.

“Unlocking the avocado genome will help us better target management practices by understanding the genetic controls for biological processes that influence commercially important traits,” she said.

Hort Innovation’s R&D Manager said having a detailed blueprint of the avocado genome would provide the Australian industry with an important tool to drive future productivity.

“It will give us new insights into improved tree architecture and flowering, and the intensification of orchards, which are priorities of our National Tree Genomics Program,” Dr Rajandran said.

Avocado can be traced back 65 million years to the beginning of the era and was a source of food for giant sloths and other large animals.

Dr Hayward said the genome draft also helped unravel how the fruit evolved.

“Avocado is an ancient flowering tree in the family that also includes cinnamon,” Dr Hayward said.

“The genome data supports the idea that the avocado lineage split from other flowering plants around 150 million years ago.”

As well as being valued for its buttery flavour and health qualities, avocado is an important crop of Mexico which produces around half the world’s supply.

The Õ¬Äе¼º½ team also provided sequence data for Velvick, a disease-tolerant rootstock that is widely sought-after in Australia for grafting new avocado trees.

“Avocados can be highly susceptible to diseases such phytophthora root rot, so having this new understanding of avocado genetics will be important in combatting the disease, and also disease like black spot,” Professor Mitter said.

Avocado is an economically important fruit crop with the global market predicted to reach US$23 billion by 2027.

The Australian component of this work was supported by through a Science and Innovation Award and Minister’s Award from (Australian Government Department of Agriculture).

Image above left: Dr Alice Hayward and Professor Neena Mitter.

Media: Professor Neena Mitter, +61 7 334 66513, n.mitter@uq.edu.au; Margaret Puls, m.puls@uq.edu.au, +61 (0) 419 578 356.