Scientists have uncovered evidence supporting a mechanism in which transposable elements (TEs), once considered ...

A new study reveals how transposable elements (TEs) expanded gene regulation during brain evolution, shaping modern neural ...

A new AI framework estimates how cells change over time and infers the gene regulatory networks controlling those changes.

From operon prediction to visualizing DNA tangles, AI is transforming how we study and teach genetics. Students, researchers, and educators now have access to interactive simulations, adaptive tutors, ...

Plant molecular evolution offers key insights into how coding and regulatory changes shape the diversity of form and function across the plant kingdom. The ...

A Hiroshima-University-led research team has discovered a key gene responsible for the initiation of gemma development, ...

Backed by new research findings, researchers at the UNC School of Medicine have developed a new reporting system that will ...

Researchers describe minimal versatile genetic perturbation technology (mvGPT). Capable of precisely editing genes, activating gene expression and repressing genes all at the same time, the technology ...

Scientists at The University of Texas at Austin have developed a revolutionary gene-editing method using bacterial retrons that can correct multiple disease-causing mutations at once. Unlike ...

The treatment, the first of its kind, was approved by the Food and Drug Administration on Thursday. “Our baby was born deaf, and now he can hear,” said one parent. By Gina Kolata The Food and Drug ...