This 3D-Printer Uses Ink Made From Microbes to Print Blobs That Are Alive

This 3D-Printer Uses Ink Made From Microbes to Print Blobs That Are Alive

This 3D-Printer Uses Ink Made From Microbes to Print Blobs That Are Alive

We’ve seen how 3D-printing can revolutionize certain manufacturing processes – whether on Earth or anywhere else – but there’s a growing field of research looking at ways this can be applied to producing living, biological structures as well.

What makes this approach different from previous bioinks is how it uses genetic programming to control the mechanical properties of the ink itself – leading to better end results in the finished material and more practical uses for the ink (some existing bioinks don’t operate properly at room temperature, for example).

“A tree has cells embedded within it and it goes from a seed to a tree by assimilating resources from its surroundings in order to enact these structure-building programs,” says chemical biologist Neel Joshi from Northeastern University in Massachusetts.

“What we want to do is a similar thing, but where we provide those programs in the form of DNA that we write, and genetic engineering.”

The way it works is by bioengineering the bacterial cells to create living nanofibers. The E. coli cells were combined with other substances to create the fibers, using a chemical process inspired by fibrin – a protein that plays a key part in blood clots in mammals.

So far the technique has been used to make very small objects: a circle, a square, and a cone. But now that the scientists have shown that the microbial ink can be 3D-printed in this way, it opens up more possibilities for the future.

“If you were to take that whole cone and dunk it into some glucose solution, the cells would eat that glucose and they would make more of that fiber and grow the cone into something bigger,” says Joshi.

“There is the option to leverage the fact that there are living cells there. But you can also just kill the cells and use it as an inert material.”

In experiments, the team was able to combine their bioink with other microbes to perform specific tasks: absorbing toxic chemicals, for example, or delivering an anti-cancer drug. In the future, the ink could also be engineered to self-replicate, the researchers say.

This study builds on previous work by the same team, looking at how E. coli cells could be formed into a hydrogel that self-replicates when it comes into contact with a particular tissue – opening up a new and sustainable method of manufacture that could be used on the Moon and Mars as well as here on Earth.

Although the 3D-printable bioink has only been used on a small scale so far, further down the line it could ultimately be used in everything from building self-healing structures to producing bottle caps that are able to remove dangerous chemicals from water.

“Biology is able to do similar things,” says Joshi. “Think about the difference between hair, which is flexible, and horns on a deer or a rhino or something. They’re made of similar materials, but they have very different functions. Biology has figured out how to tune those mechanical properties using a limited set of building blocks.”

Source: Science Alert

3D printing the human heart

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This 3D-Printer Uses Ink Made From Microbes to Print Blobs That Are Alive/This 3D-Printer Uses Ink Made From Microbes to Print Blobs That Are Alive

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