Nature paper reveals platypus and echidna genomes feature mammalian biology and evolution
International researchers join Environment Institute members in solving the mystery of Australia’s most ancient living mammals
The research featured in Nature. includes the first complete genetic code of the echidna and a better quality code for the platypus. Environment Institute member Professor Frank Grutzner said the two genomes would provide new insights into the unique biology of egg-laying mammals called monotremes and their place in evolution.
The information will also enable scientists to develop tools to assess population genetics and diversity. “With fires, floods and droughts, both platypus and echidna numbers will continue to decline and there is a lot of discussion about updating their conservation status, but this requires scientific backing,” Prof Grutzner said, noting the Kangaroo Island echidna was already listed as endangered.
Knowledge of monotreme reproduction was also relevant for conservation and captive-breeding programs, he said. A joint co-author of the study, University of Adelaide’s Dr Linda Shearwin-Whyatt, said the genetic code of the monotremes contained more than a few surprises.
The international effort involved Australian scientists from the universities of Adelaide, Sydney, Melbourne and LaTrobe University, as well as researchers from China, Japan, the US and Denmark. LaTrobe University’s Professor Jenny Graves said: “We last shared a common ancestor with the platypus and echidna about 180 million years ago.” Comparing the genomes would explain “our common ancestor” and what has changed in humans over that time period, she said.
Original article featured in The Advertiser.
The research featured in Nature. includes the first complete genetic code of the echidna and a better quality code for the platypus. Environment Institute member Professor Frank Grutzner said the two genomes would provide new insights into the unique biology of egg-laying mammals called monotremes and their place in evolution.
The information will also enable scientists to develop tools to assess population genetics and diversity. “With fires, floods and droughts, both platypus and echidna numbers will continue to decline and there is a lot of discussion about updating their conservation status, but this requires scientific backing,” Prof Grutzner said, noting the Kangaroo Island echidna was already listed as endangered.
Knowledge of monotreme reproduction was also relevant for conservation and captive-breeding programs, he said. A joint co-author of the study, University of Adelaide’s Dr Linda Shearwin-Whyatt, said the genetic code of the monotremes contained more than a few surprises.
“The system for safe removal of the oxygen carrier, haemoglobin, from blood was thought to be common to all mammals,” she said. “We were surprised when we discovered the system was missing from monotremes, implying that it arose quite recently in the ancestry of all other mammals.”
The international effort involved Australian scientists from the universities of Adelaide, Sydney, Melbourne and LaTrobe University, as well as researchers from China, Japan, the US and Denmark. LaTrobe University’s Professor Jenny Graves said: “We last shared a common ancestor with the platypus and echidna about 180 million years ago.” Comparing the genomes would explain “our common ancestor” and what has changed in humans over that time period, she said.
Original article featured in The Advertiser.
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