A new way to create synthetic proteins could lead to more flexible designs
Building up proteins from scratch, rather than piecing together fragments of existing proteins, could make designing new nanomaterials easier.
Building up proteins from scratch, rather than piecing together fragments of existing proteins, could make designing new nanomaterials easier.
Biotechnology
Aug 30, 2016
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(Phys.org)—A team of researchers with Tufts University has developed a new way to store blood samples taken at remote locations—using a silk protein to stabilize blood samples without the need for cooling. In their paper ...
A squid has more in common with a spider than you may think. The razor-sharp 'teeth' that ring the suckers found on some squid tentacles are made up entirely of proteins remarkably similar—and in some ways superior—to ...
Materials Science
Feb 29, 2016
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While working to improve a tool that measures the pushes and pulls sensed by proteins in living cells, biophysicists at Johns Hopkins say they've discovered one reason spiders' silk is so elastic: Pieces of the silk's protein ...
Nanomaterials
Feb 15, 2016
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320
Synthetic spider silk holds promise as a leading biomaterial of the future with its unrivaled combination of strength and elasticity. Utah State University researchers, guided by USTAR Biology Professor Randy Lewis, have ...
Materials Science
Apr 6, 2015
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While stuck in a hotel room I got sucked into watching the 2002 Spiderman movie. And it struck me that Peter Parker must have an enormously high-protein diet to generate all that spider silk he goes through. So being the ...
Materials Science
Jan 29, 2015
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Nature has many examples of self-assembly, and bioengineers are interested in copying or manipulating these systems to create useful new materials or devices. Amyloid proteins, for example, can self-assemble into the tangled ...
Bio & Medicine
Jan 26, 2015
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Researchers at Tufts University, in collaboration with a team at the University of Illinois at Champaign-Urbana, have demonstrated a resorbable electronic implant that eliminated bacterial infection in mice by delivering ...
Engineering
Nov 24, 2014
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(Phys.org) —When most people think of silk, the idea of a shimmering, silk scarf, or luxurious gown comes to mind. But few realize, in its raw form, this seemingly delicate fiber is actually one of the strongest natural ...
Materials Science
May 13, 2014
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The human body has limited ability to self-repair damage to cartilage or bone. Implantable 'bioscaffold' materials that can be seeded with cells can potentially be used to regenerate these critical tissues. One such biomaterial ...
Materials Science
Apr 25, 2014
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