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Single-celled predator extends its ‘neck’ with the help of origami

The mystery of how a single-celled predator extends its "neck" by more than 30 times its overall length has finally been solved
The cell being held via two micropipettes to elongate the neck
The organism being held via two micropipettes to elongate the 鈥渘eck鈥
Elliot Flaum and Manu Prakash/Stanford University

Imagine if your neck was so extendible that your head could reach your local shop while you sat on the sofa. That would be the human equivalent of what one single-celled predator can do 鈥 and now the long-standing mystery of how it can extend its 鈥渘eck鈥 more than 30 times the length of its 鈥渂ody鈥 has been solved.

The cell membrane of this organism is folded up into a series of pleats that can only unfold and refold in one way, at Stanford University and her colleague have discovered, allowing it to extend and refold without ending up in a tangled mess. 鈥淲e figured most of this out by playing with a piece of paper,鈥 says Prakash.

Lacrymaria olor is a single-celled organism, or protist, that lives in fresh water and hunts its prey with its extraordinarily extendible neck-like protrusion. Its name means 鈥渢ear of a swan鈥, after its swan-like neck and tear-shaped body.

While cell membranes are highly flexible, they aren鈥檛 elastic and cannot stretch. So how L. olor extends its neck to such a great length has been a mystery since it was first seen under a microscope in the 16th century. 鈥淲e compared this to many other organisms, and it鈥檚 orders of magnitude larger in this extension,鈥 says Prakash. 鈥淭hat鈥檚 the puzzle.鈥

He and Flaum became intrigued when they saw L. olor in samples they collected from a swamp six or seven years ago, and they set out to solve the mystery. Flaum used a number of different techniques to image the outer structure of L. olor and its inner cytoskeleton, made of structures called microtubules. 鈥淲e tried many different ways of looking at it to understand what was happening,鈥 she says.

This revealed that the cell membrane of L. olor is folded into 15 pleats, and each pleat spirals around the cell, forming a helical structure. Prakash calls this folding pattern 鈥渃urved crease origami鈥, or 鈥淟acrigami鈥.

But how does L. olor unfold and refold this huge area of cell membrane without getting into a tangle? What Prakash and Flaum worked out is that because of the way the pleats are stabilised by bands of microtubules connected to them, an entire crease cannot unfold all at once. Instead, only one point of a crease can unfold or refold at any time.

As these points move in parallel up each of the 15 creases, the cell membrane unfolds in an orderly manner, extending the neck. Reversing the process shortens the neck.

鈥淚nstead of randomly folding, like if you were to crumple paper, it has a guiding rail for it to fold back in the same way every time,鈥 says Flaum.

The folding and unfolding is powered by the beating hairs, or cilia, that cover the entire surface of the cell, says Prakash. It requires energy to unfold as well as refold, unlike a spring, but needs very little because cell membranes bend easily.

As far as he knows, no one has discovered this folding pattern before. 鈥淲hen we figured this out, I鈥檇 always thought that somebody playing with paper would have discovered this origami,鈥 says Prakash. 鈥淚t鈥檚 quite simple.鈥 Anyone can make it with a piece of paper and bit of tape, he says.

鈥淭he clever origami design of its neck makes cilia effective for high-speed, long-range hunting,鈥 write and at the University of Santiago in Chile . 鈥淭he origami-like protrusion mechanism identified by Flaum and Prakash has the potential to inspire new strategies in soft-matter engineering.鈥

Indeed, Prakash and Flaum are now working on developing medical robots based on 鈥淟acrigami鈥. 鈥淚f you had a small micro-robot in a very small space, and it could suddenly extend, that would be hugely useful in microsurgeries,鈥 he says. 鈥淏ut we did this work because it鈥檚 just beautiful and a mystery to solve. We had no thought of it being useful in any way.鈥

Journal reference:

Science

Topics: Biology