Hebrew University researchers developed MAgeNet, an AI tool that uses two DNA regions to predict age within 1.36 years.

Using customized DNA arrays to assess the activity of 4,500 different genes in a particular form of cancer, researchers have identified 385 genes that may play a role in the disease. The findings ...

DNA arrays have become prominent because they are easier to use, do not require large-scale DNA sequencing, and allow the parallel quantification of thousands of genes from multiple samples.

Biomedical engineers have built simple machines out of DNA, consisting of arrays whose units switch reversibly between two different shapes. The arrays' inventors say they could be harnessed to ...

Using scaffolds of folded DNA, engineers assembled arrays of quantum rods with desirable photonic properties that could enable them to be used as highly efficient micro-LEDs for televisions or ...

DNA origami gets large: A double-layer DNA-origami tile with two orthogonal domains underwent self-assembly into well-ordered 2D DNA arrays with edge dimensions of 2–3 μm (see schematic representation ...

How can DNA from a cheek swab determine if someone is closely related to you? When you purchase through links on our site, we may earn an affiliate commission. Here’s how it works. DNA tests can ...

In recent years, interest in hitherto-unexplored regions of DNA derided as "junk" has spurred the development of a new class of microarrays called "tiling arrays," in which probes are not designed to ...

Most DNA research on controlled self-assembly deals with two-dimensional, i.e. flat, patterns and an expansion of these arrays into the third dimension has been challenging. New research coming out of ...

Toyohashi University of Technology research team led by Prof. Rika Numano and Prof. Takeshi Kawano showed DNA stamper injections can be performed delivering biomolecules into live neuronal cells ...

Columbia University and Brookhaven National Laboratory researchers have unveiled a groundbreaking method to engineer intricate three‑dimensional nanostructures entirely through DNA self‑assembly in ...