Researchers at Columbia Engineering have for the first time used DNA to help create 3D electronically operational devices ...

Unlike traditional microscopes that use light or lenses, DNA microscopy creates images by calculating interactions among ...

In living organisms, every protein—a type of biological polymer consisting of hundreds of amino acids—carries out specific ...

CRISPR technology has revolutionised genetic engineering, offering unprecedented precision in DNA editing with vast implications for medicine, agriculture and conservation. Yet, its power demands ...

We created novel artificial cells by encapsulating a riboswitch-gene fusion with wheat germ extract in liposomes. These ...

What if you could take a picture of every gene inside a living organism—not with light, but with DNA itself? Scientists at ...

Mutations in BRCA2—a gene known to repair damaged DNA and suppress tumor formation—can predict an individual's predisposition ...

Two oral presentations will highlight the continued potent antiviral activity of ALG-000184 for chronic hepatitis B virus (HBV) infection in both HBeAg-positive and HBeAg-negative subjects, ...

A breakthrough in safely delivering therapeutic DNA to cells could transform treatment for millions suffering from common chronic diseases like heart disease, diabetes, and cancer.

A natural antibacterial molecule shows clinical promise. Its unusual binding site is on an excellent target: ...

A breakthrough in safely delivering therapeutic DNA to cells could transform treatment for millions suffering from common ...

A DNA nanomachine selectively targets skin cancer by detecting microRNA-7, activating phototherapy and releasing chemotherapy ...