Tag: cloning (page 1 of 2)

cloning human embryonic stem cells

Image from ScienceNews

Nature reports on the recent success in cloning human embryonic stem cells:

Mitalipov and his group began work on their new study last September, using eggs from young donors recruited through a university advertising campaign. In December, after some false starts, cells from four cloned embryos that Mitalipov had engineered began to grow. “It looks like colonies, it looks like colonies,” he kept thinking. Masahito Tachibana, a fertility specialist from Sendai, Japan, who is finishing a 5-year stint in Mitalipov’s laboratory, nervously sectioned the 1-millimetre-wide clumps of cells and transferred them to new culture plates, where they continued to grow — evidence of success. Mitalipov cancelled his holiday plans. “I was happy to spend Christmas culturing cells,” he says. “My family understood.”

The success came through minor technical tweaks. The researchers used inactivated Sendai virus (known to induce fusion of cells) to unite the egg and body cells, and an electric jolt to activate embryo development. When their first attempts produced six blastocysts but no stable cell lines, they added caffeine, which protects the egg from premature activation.

None of these techniques is new, but the researchers tested them in various combinations in more than 1,000 monkey eggs before moving on to human cells. “They made the right improvements to the protocol,” says Egli. “It’s big news. It’s convincing. I believe it.”

The experiments took only a few months, Mitalipov says. “People say, you did it in monkeys in 2007. Why did it take six years in humans?” Most of the time, he says, was spent navigating US regulations on embryo research.

The researchers carried out a battery of tests to prove that their SCNT cells could form various cell types, including heart cells that are able to contract spontaneously.

Their first cell lines were created using fetal skin cells; others were derived using donor cells from an 8-month-old patient with a rare metabolic disorder called Leigh syndrome, to prove that ESCs could be made from more mature donor cells. The technique does not require prohibitive numbers of eggs: it took 15 from one donor to produce one cell line and 5 from a different donor to make another. “The efficiency was the most impressive thing,” says George Daley, a stem-cell expert at Children’s Hospital Boston in Massachusetts.

coming back from extinction

(Image: Mike Tyler/ANT Photo Library/Science Source)

Researchers are working to bring a frog that gives birth through its mouth back from extinction. The New Scientist reports:

Habitat destruction drove the gastric-brooding frog (Rheobatrachus silus) to extinction in 1983, but researchers have now created an early frog embryo from frozen specimens with the goal of bringing it back to life.

The gastric brooding frog was the only animal known to give birth through its mouth. It swallows its eggs after laying them, lets them grow for about six weeks, and then dribbles out tadpoles.

To clone the frog, Michael Archer and colleagues at the University of New South Wales in Sydney, Australia, isolated the nuclei from the cells of frogs that had been frozen for 40 years. They transferred them into the eggs of a modern frog, Mixophyes fasciolatus, which then divided several times as if to form an early embryo. The research, which has not yet been published, was presented at a TEDx conference on “de-extinction” in Washington DC last week.

 

neanderthals cloning, continued

Tyler Cowen considers reasons why we wouldn’t want to clone neanderthals. There are many ethical questions on how we would deal with the offspring:

Then ask yourself some basic questions about Neanderthals: could they be taught in our schools?  Who would rear the first generation?  Would human parents find this at all rewarding?  Do they have enough impulse control to move freely in human society?  How happy would they be with such a limited number of peers?  What public health issues would be involved and how would we learn about those issues in advance?  What would happen the first time a Neanderthal kills a human child?  Carries and transmits a contagious disease?  By the way, how much resistance would the Neanderthals have to modern diseases?

What kinds of “human rights” would we issue to them?  Would we end up treating them better than lab chimpanzees?  Would they be covered by ACA and have emergency room rights?

We don’t know the answers here, but I would expect to run up against a number of significant fails on these issues and others.

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