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How Cells Resist the Stress of the Deep Sea


To check the cell membranes of deep-sea animals, the biochemist Itay Budin (heart) joined forces with marine biologists Steve Haddock (proper) and Jacob Winnikoff (left).

Images: From left: Tamrynn Clegg; Geoffroy Tobe; John Lee

“They’re wanting into an space that, to a big diploma, has not been explored,” mentioned Sol Gruner, who researches molecular biophysics at Cornell College; he was consulted for the examine however was not a co-author.

Plasmalogen lipids are additionally discovered within the human mind, and their position in deep-sea membranes might assist clarify elements of cell signaling. Extra instantly, the analysis unveils a brand new manner that life has tailored to probably the most excessive situations of the deep ocean.

Insane within the Membrane

The cells of all life on Earth are encircled by fatty molecules generally known as lipids. In the event you put some lipids in a check tube and add water, they robotically line themselves up again to again: The lipids’ greasy, water-hating tails commingle to kind an interior layer, and their water-loving heads organize collectively to kind the outer parts of a skinny membrane. “It’s similar to oil and water separating in a dish,” Winnikoff mentioned. “It’s common to lipids, and it’s what makes them work.”

For a cell, an outer lipid membrane serves as a bodily barrier that, just like the exterior wall of a home, gives construction and retains a cell’s insides in. However the barrier can’t be too stable: It’s studded with proteins, which want some wiggle room to hold out their varied mobile jobs, comparable to ferrying molecules throughout the membrane. And generally a cell membrane pinches off to launch chemical compounds into the atmosphere after which fuses again collectively once more.

For a membrane to be wholesome and purposeful, it should subsequently be sturdy, fluid, and dynamic on the similar time. “The membranes are balancing proper on the sting of stability,” Winnikoff mentioned. “Although it has this actually well-defined construction, all the person molecules that make up the sheets on both facet—they’re flowing round one another on a regular basis. It’s truly a liquid crystal.”

One of many emergent properties of this construction, he mentioned, is that the center of the membrane is extremely delicate to each temperature and stress—way more so than different organic molecules comparable to proteins, DNA or RNA. In the event you calm down a lipid membrane, for instance, the molecules transfer extra slowly, “after which ultimately they’ll simply lock collectively,” Winnikoff mentioned, as while you put olive oil within the fridge. “Biologically, that’s typically a nasty factor.” Metabolic processes halt; the membrane may even crack and leak its contents.

To keep away from this, many cold-adapted animals have membranes composed of a mix of lipid molecules with barely totally different buildings to maintain the liquid crystal flowing, even at low temperatures. As a result of excessive stress additionally slows a membrane’s circulate, many biologists assumed that deep-sea membranes had been constructed the identical manner.



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