Cells all require the transport of materials to maintain their function. In nerve cells, a tiny motor made of protein called ...
12don MSN
Algorithm reveals 'magic sizes' for assembling programmable icosahedral shells at minimal cost
Over the past decade, experts in the field of nanotechnology and materials science have been trying to devise architectures ...
Twisted graphene precisely aligned with gold nanodisks and coupled with CRISPR achieves attomolar detection of cancer ...
News-Medical.Net on MSN
DNA nanosprings enable precise detection of KIF1A mutations in nerve cells
Cells all require the transport of materials to maintain their function. In nerve cells, a tiny motor made of protein called ...
Cells all require the transport of materials to maintain their function. In nerve cells, a tiny motor made of protein called ...
AZoLifeSciences on MSN
Measuring KIF1A Motor Protein Force with DNA Nanosprings
Cells all require the transport of materials to maintain their function. In nerve cells, a tiny motor made of protein called ...
Takeda Pharmaceuticals and Nabla Bio, a start-up focused on designing de novo proteins with artificial intelligence, have ...
ZME Science on MSN
What If Life Is Just Another Kind of Computer?
Alan Turing and John von Neumann saw it early: the logic of life and the logic of code may be one and the same.
Metasurfaces, as 2D artificial electromagnetic materials engineered at subwavelength scales, enable efficient manipulation of ...
Interesting Engineering on MSN
Magnetic ‘muscles’ turn origami into crawling robots that move and heal from within
NC State engineers 3D-print paper-thin magnetic muscles that turn origami robots into moving drug-delivery machines.
Tech Xplore on MSN
Paper-thin magnetic muscles bring origami robots to life for medical use
A new 3D printing technique can create paper-thin "magnetic muscles," which can be applied to origami structures to make them ...
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