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Science

Frogs Without Legs Regrow Leglike Limbs In New Experiment (nytimes.com) 17

An anonymous reader quotes a report from The New York Times: African clawed frogs are masters of putting themselves back together, handily regenerating lost tails and hind limbs, when they are tadpoles. But these powers dim with maturity. Wait for an adult frog to regrow a lopped-off limb and you'll see only a tapered spike, more like a talon than a leg. Now, a group of scientists have found a way to harness the adult frog's own cells to regrow an imperfect but functional limb. The researchers placed a silicone cap laden with a mixture of regenerative drugs onto an amputation wound for 24 hours. Over the next 18 months, the frogs gradually regrew what was lost, forming a new leglike structure with nerves, muscles, bones and even toelike projections.

The researchers describe this approach, which builds on earlier research, in a paper published Wednesday in the journal Science Advances. The process could guide future research on limb regeneration in humans, but it will be challenging to replicate the results in mammals. "It was a total surprise," Nirosha Murugan, a researcher at Algoma University in Ontario, Canada, and an author of the paper, said of the complexity of the regrown limb. "I didn't think we would get the patterning that we did." "It's not a full limb that's regrown," said Kelly Tseng, a biologist studying regeneration at the University of Nevada, Las Vegas, who was not involved with the research. "But it's certainly a robust response." "It is particularly promising that only a daylong treatment can have such a positive effect on an adult animal," Can Aztekin, a researcher studying limb regeneration at the Swiss Federal Institute of Technology in Lausanne who was not involved with the research, wrote in an email.

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Frogs Without Legs Regrow Leglike Limbs In New Experiment

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  • the film said they used frog DNA to fill in the gene sequence gaps. They mutated the dinosaur genetic code and blended it with that of a frog's. Now, some frogs have been known to spontaneously regrow limbs.
  • Great news (Score:4, Funny)

    by leathered ( 780018 ) on Thursday January 27, 2022 @08:15AM (#62211271)

    ..for the French.

    • by Tx ( 96709 )

      Would it be a plus or a minus for PETA if, instead of killing frogs to eat their legs, you just kept harvesting their legs and re-growing them?

      • Singer (one of the few philosophers to take non-human rights serious), put his focus on whether or not the animal in question suffered. Frame your analysis in those terms and you can probably predict PETA's stance.
  • by 140Mandak262Jamuna ( 970587 ) on Thursday January 27, 2022 @08:33AM (#62211301) Journal
    Just asking for a French chef friend.

    He was saying, Dios mío! Los precios de las ancas de rana están por las nubes! Y estoy tirando el resto de la rana a la basura!

    • Just asking for a French chef friend.

      He was saying, Dios mío! Los precios de las ancas de rana están por las nubes! Y estoy tirando el resto de la rana a la basura!

      Your French chef speaks Spanish. Cool.

  • As I read in "Popular Science" years ago (I miss the rag already), a smart computer programmer did something similar [popsci.com] using light and electricity, reprogramming the cells. Harvard even gave him his own lab.
  • by MDMurphy ( 208495 ) on Thursday January 27, 2022 @09:41AM (#62211429)
    First, I was surprised and amused that there is a standard "frog water" which then lends itself to antibiotic and anesthetic frog water.

    While they point out the regenerated limb wasn't identical to the amputated one, it did have musculature, bones, nerves. If this could be done with a human sometime down the road this partial limp might be a better attachment point for a prosthetic limb. Rather than re-train the injured person to use shoulder muscles to activate a gripping hand, a full set of new nerves might make a more complete set of maneuvers possible. More distinct nerves in the regenerated limp might also be good for sensory feedback from a prosthesis.

    While full regeneration might be the long-term goal, partial regeneration might provide a superior way to mount and operate a prosthetic limb sooner than that.
    • screw the inners medical science. give me a good belter prosthetic arm!
    • An unusually thoughtful contribution. Did you come to the right website?

      If this could be done with a human sometime down the road this partial limp might be a better attachment point for a prosthetic limb.

      Looking at the timescales, 18 months is a significant chunk of the lifetime of a human. But for the frog, it's likely to have been half or a third of it's adult life. Since both are vertebrates, that's likely to give a decent guide to what you can expect from a human treatment.

      I could see how, if this tec

  • "It was a total surprise"

    If this was true, it seems hard to believe that they would have spent the time and effort to place a silicone cap laden with a mixture of regenerative drugs onto an amputation wound for 24 hours and then observe them for 18 months.

    • My bet is that was prompted by the NYT's reporters, not the actual experimental design and analysis protocol.
  • From the article: "It was a total surprise,"

    So ... they partly butchered an animal to see what would happen. There is something deeply wrong with that as follows:

    a) lacking any first principals biology proceeds largely by the destruction of something with little, if any, hypothesizing and/or simulation; and
    b) that is a concern because it requires a mind-set that by and large puts the well-being of whatever they study as secondary to their curiousity. Given the proper context even experimentation on hum

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