DNA temporal barcodes encode information through chromatographic readout and reveal encrypted messages only after a molecular ...
Living systems such as cells rely on membrane pores and channels to transport molecules, exchange signals, and organize biochemical reactions. These functions emerge from dynamic interactions between ...
DNA nanotechnology exploits the predictable base-pairing and structural versatility of nucleic acids to engineer nanoscale architectures and dynamic devices. By programming strand sequences, ...
Researchers from UNSW Sydney have built the first artificial protein motor capable of taking controlled, directional steps ...
DNA Moiré Superlattices are the focus of a study now published in Nature Nanotechnology. “Unlike conventional methods that rely on mechanical stacking and twisting of two-dimensional materials, our ...
A new method for recognizing and targeting DNA that dramatically expands the range of genetic sequences scientists can identify has been developed by experts at the University of Portsmouth. Published ...
Artificial DNA letters beyond A, T, G, C break a fundamental pairing rule to produce nanostructures with new shapes, far greater durability, and an unexpected ability to self-sort. But the four-letter ...
Conventional cancer treatments, such as chemotherapy, often lack specificity and can damage both cancerous and healthy cells, leading to severe side effects. With this in mind, researchers at Indian ...
Once used to fold DNA into nanoscale shapes, DNA origami is now emerging as a programmable platform for smarter diagnostics, targeted therapies, and next-generation nano-enabled devices From Blueprint ...
Researchers created a proof-of-concept DNA origami device that encodes messages as nano-Morse patterns and conceals them ...