Tardigrades are microscopic animals that can survive a host of conditions that are too extreme to ever occur on Earth—and scientists want to learn their secrets

Tiny tardigrades have three claims to fame: their charmingly pudgy appearance, delightful common names (water bear and moss piglet) and stunning resilience in the face of threats ranging from the vacuum of space to temperatures near absolute zero.

Now scientists have identified a key mechanism contributing to tardigrades’ resilience—a molecular switch of sorts that triggers a hardy dormant state of being. The researchers hope that the new work, published on January 17 in the journal PLOS ONE, will encourage further exploration of the microscopic creatures’ ability to withstand extreme conditions.

“It’s opened up a whole huge repertoire of experiments we can now pursue,” says Leslie Hicks, a chemist at the University of North Carolina at Chapel Hill and a co-author of the study.

  • @RedAggroBest
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    5111 months ago

    So the importance here is it seems they’ve found a way to trigger the Tun state that make tardigrades tough (and which outside they very much are not) which would allow more consistent experiment design around tuns

    • ivanafterall
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      5511 months ago

      What is the tun state of a tardigrade?

      Tardigrades can survive extreme conditions by going into a “tun” state, in which their body dries out and their metabolism drops to as little as 0.01 percent of its normal rate. When conditions return to normal, the tardigrade revives itself. A tardigrade can stay in a tun state for decades.

      Damn, that’s really cool.

      • @PrincessTardigrade
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        2111 months ago

        Also another fun fact: not all tardigrades are capable of going into the tun state. For example, aquatic tardigrades that live in freshwater streams can form what is called a summer egg, which allows them to survive hot and potentially dry conditions, but I don’t believe much has been studied on this alternative state. IIRC marine tardigrades also cannot achieve the tun state, so this really only applies to terrestrial* tardigrades.

        *Terrestrial tardigrades are also sometimes referred to as aquatic tardigrades as they are only active (not in the tun state) in the presence of water (e.g., after it rains)

      • feinstruktur
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        11 months ago

        Am I the only one who’s reminded of The Three Body Problem?

        Mild spoiler alert:

        Unlike humans, they have evolved the special ability to ‘dehydrate’, turning themselves into a roll of canvas.

      • @CaptainSpaceman
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        511 months ago

        I really appreciate the way you asked and answered your own question

    • @Fapper_McFapper
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      11 months ago

      To add, I think this bit is important as well. I’m just not smart enough to explain why.

      with cysteine unavailable to the free radicals being produced, the tardigrades couldn’t form tuns.

      Edit: I think it means that under stress the tardigrade forms the tun. But they also figured out that if cysteine is absent even under stress the tardigrade couldn’t form the tun.

    • @xantoxis
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      11 months ago

      I think it goes a bit beyond that as well. Other organisms could, in theory, take some of the same measures the tardigrade takes to make itself hardier. It’s possible that we don’t see this all over the place because the chemical signalling is a requirement of the tun state. Without it, they’re basically just dead. Without a signal to return to normal life, they’ll stay like that forever. Furthermore, without the signal, they might have to rely on some other, less reliable mechanism, to enter the tun state to start with.

      A signaling system that provides its cells with reliable information about environmental conditions is critical.

      I think we might even find that the signaling system came first, and that nature selected for tardigrades that had some way to do something with the signal.