With help from computer algorithms, researchers designed proteins from scratch that can trounce the coronavirus in lab animals.
The New York Times, Nov. 21, 2020. The coronavirus might be new, but nature long ago gave humans the tools to recognize it, at least on a microscopic scale: antibodies, Y-shaped immune proteins that can latch onto pathogens and block them from infiltrating cells.
Millions of years of evolution have honed these proteins into the disease-fighting weapons they are today. But in a span of just months, a combination of human and machine intelligence may have beaten Mother Nature at her own game.
Using computational tools, a team of researchers at the University of Washington designed and built from scratch a molecule that, when pitted against the coronavirus in the lab, can attack and sequester it at least as well as an antibody does. When spritzed up the noses of mice and hamsters, it also appears to protect animals from becoming seriously sick.
This molecule, called a mini-binder for its ability to glom onto the coronavirus, is petite and stable enough to be shipped en masse in a freeze-dried state. Bacteria can also be engineered to churn out these mini-binders, potentially making them not only effective but also cheap and convenient.