Tardigrades, also known as water bears, are the ultimate survivors. They can handle everything from the vacuum of spaceto 600 times the normal atmospheric pressure. And new research is revealing how they manage one of their party tricks, turning to glass when there is not enough water to maintain normal life processes.
Tardigrades usually live in wet places like ponds or on moss. When things dry out they respond by entering a state of suspended animation, in which they can last for decades without food or water, before restoring themselves when the rains come.
Tardigrades, Boothby said, produce proteins that are disordered when in a liquid solution. However, as water is lost, the proteins form a sort of glass glaze that protects the parts of cells that otherwise would be damaged by the absence of water. The glass dissolves when water returns, allowing the tardigrades to restore their functions.
These proteins are essential to tardigrades’ capacity to survive drying out; reduced concentrations make the tiny creatures vulnerable. However, they are not the sole cause of micro-animals’ exceptional survival skills. Boothby told Science Newsthat lower concentrations do not affect another of tardigrades’ traits, the capacity to survive extreme cold, a capacity that has allowed them to survive even in Antarctica.
Boothby, who was the lead author of a (now disputed)paper last month reporting that almost a sixth of tardigrade DNA comes from other sources,had HeLa tumor cellsproduce the same proteins. When wet, proteins diffused within the cells, but then became concentrated in certain parts of the cell when dried out. Boothby suggested this is to protect those areas. We found in vitro these proteins formed biological glasses when dried, he said, with some irony, since in vitro literallymeans “within glass.”
When the proteins were expressed in bacteria and yeast, which were then dried out, they maintained their capacity, producing glassy materials that protected the single-celled organisms against the effects of water loss. Further research is being done to learn how they do this, and how it can be extended to other circumstances.
Even before this discovery, tardigrade anti-desiccation molecules were inspiring the creation of substances that blend the characteristics of glassand crystals in ways that could be useful for making better solar cells and light-emitting diodes.
Understanding desiccation tolerance promises to contribute to many applications, such as engineering of drought tolerant plants and the stabilization of biomaterials, Boothby noted. Moreover, medicines and vaccines that currently require refrigerationvery expensive in parts of the developing worldmight be preserved using similar methods.
Another reason to wish to be a water bear.