KAIST researchers have created a DNA-based molecular computer that integrates computation and memory at sub-2-nanometer scales, overcoming the one-time-use limitation of traditional DNA circuits. In ...

DNA stores the instructions for life and, along with enzymes and other molecules, computes everything from hair color to risk of developing diseases. Harnessing that prowess and immense storage ...

In a remarkable fusion of biology and technology, a DNA-based computer that performs effectively has been created by scientists. This innovative breakthrough promises to redefine the boundaries of ...

The team created a DNA-based bio-transistor that mimics the switching function of semiconductor transistors at the molecular level. The new circuit operates without a reset step, enabling continuous ...

A label-free nanopore platform uses programmable DNA circuits to build versatile molecular logic gates, forming a universal basis for scalable DNA computing and advanced biosensing applications.

On the left side, in vitro preassembled DNA circuits are delivered into living cells. Alternatively, on the right side, RNA pregates are autonomously transcribed from the chromosome or plasmids to be ...

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Folded, origami-like DNA attached to a glass surface, as shown in this illustration, store data for fast, rewritable DNA-based computation. DNA stores the instructions for life and, along with enzymes ...