Creating mini mitochondria factories helped recharge damaged cells in a dish, providing proof-of-concept work that could pave ...

Professor Yohan Kim of Sungkyunkwan University and the Max Planck Institute research team recreated the structure and ...

New 3D genome maps reveal how DNA folding controls gene activity, offering fresh clues into disease and cell function.

A Cedars-Sinai study has identified a previously unknown role for astrocyte cells in how the brain responds to damage and ...

Many biological processes are regulated by electricity—from nerve impulses to heartbeats to the movement of molecules in and ...

Scientists depicted the four-dimensional genome model to reveal how DNA folding regulates genes. The discovery helps ...

This article explores how single-cell multiomics and spatial transcriptomics are illuminating early pregnancy, uncovering ...

A new study in the lab of Jason Stein, Ph.D., modeled brain development in a dish to identify cells and genes that influence ...

Using high-speed atomic force microscopy (HS-AFM), the Kanazawa University team led by Mikihiro Shibata filmed the dynamic movements of CaMKII at the single-molecule level. The images revealed that a ...

A small tweak to mitochondrial energy production led to big gains in health and longevity. Mice engineered to boost a protein that helps mitochondria work more efficiently lived longer and showed ...

Symptoms of stage 3 RCC vary; some patients experience blood in the urine, flank pain, fatigue, weight loss, or a palpable ...

A designer version of the tau protein, developed by a team led by UT Southwestern Medical Center researchers, maintains its ...