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Video: First 'chimera' monkeys created from multiple embryos

Video: First 'chimera' monkeys created from multiple embryos

Posting in Science

The world's first primate chimeras were created in a lab, giving them up to six different parents.

Roku and Hex from OHSU News on Vimeo.

And you thought your family was complicated.

Three cute little rhesus monkeys were born from the cells of three to six different embryos, giving them up to six parents.

And, more importantly, the authors write in a report in the journal Cell, "To our knowledge, these infants are the world's first primate chimeras."

Born in the lab at the Oregon National Primate Research Center, the animals are healthy with no apparent birth defects.

One is a singleton named Chimero and there are twins named Roku and Hex, after the word "six" in Japanese and Greek. All three monkeys are biologically male, but blood tests show that Roku has both male and female cells.

The cells that make up their tissues and organs are made of cells from each of the contributing embryos. "The cells never fuse, but they stay together and work together to form tissues and organs," said Shoukhrat Mitalipov, the lead researcher.

Mitalipov and his team created the monkeys by putting four-day-old embryos together in a culture dish, then letting them grow for a few days into early-stage embryos called blastocysts. As the Guardian explains,

The researchers implanted the chimeric embryos into five female rhesus monkeys, all of which became pregnant. Tests on the foetuses confirmed that all of the animals' organs and tissues contained cells from more than one embryo.

The Guardian writes that the first chimeric animals were created in the 1960s -- first with mouse embryos, and later with rats, rabbits, sheep and cattle. (There are also naturally occurring human chimeras.)

"Stem cell therapies hold great promise for replacing damaged nerve cells in those who have been paralyzed due to a spinal cord injury or for example, in replacing dopamine-producing cells in Parkinson's patients who lose these brain cells resulting in disease," Mitalipov said in a press release.

Watch this video showing how the cells were manipulated:

Cell Manipulation from OHSU News on Vimeo.

via: The Guardian

photo: OHSU News/Flickr

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Laura Shin

Features Editor

Laura Shin has been published in The New York Times, The Wall Street Journal and The Los Angeles Times, and is currently a contributor at Forbes. Previously, she worked at Newsweek, the New York Times, Wall Street Journal and LearnVest. She holds degrees from Stanford University and Columbia University's Graduate School of Journalism. Follow her on Twitter. Disclosure