This molecular visualization shows how proteins are assembled like building blocks. (UW Illustration)
Researchers have created molecular building blocks that can weave themselves into long threads of protein.
Well, maybe not all that long. Each protein-based building block measures only a nanometer in length, and the self-assembled filaments get about as long as 10,000 nanometers. It’d take more than 2,500 of those filaments, laid end to end, to amount to an inch in total length. Nevertheless, the feat described in this week’s issue of the journal Science demonstrates the power and beauty of protein design.
“Being able to create protein filaments from scratch — or de novo — will help us better understand the structure and mechanics of naturally occurring protein filaments and will also allow us to create entirely novel materials, unlike any found in nature,” senior study author David Baker of the University of Washington said today in a news release.
Baker is a biochemist at the UW School of Medicine and director of UW’s Institute for Protein Design, which has pioneered the protein-folding field for years.
Proteins are complex molecules whose structure typically determines their function. In nature, protein filaments provide the scaffolding for cells and knit together the body’s bones, cartilage, skin and other tissues.
Computer-designed proteins self-assemble like Lego blocks into filaments that are more than 1,000 times thinner than human hair. (UW Illustration)
Researchers like Baker take advantage of the twists and turns of protein molecules to come up with engineered shapes. There’s even a computer program called Rosetta and a video game called Foldit to help protein designers craft virtual amino acids into a desired shape.
Baker’s team used Rosetta to design small proteins with surface amino acids that latched onto each other in a predetermined way. The small molecules assembled themselves, tier by tier, …read more