Scientists identify the first non-coding gene that directly controls cell size, reshaping how biology explains growth and ...

What keeps our cells the right size? Scientists have long puzzled over this fundamental question, since cells that are too ...

A research team at Florida State University's Institute of Molecular Biophysics and Department of Chemistry and Biochemistry ...

DNA–protein cross-links (DPCs) represent a severe form of DNA damage that can disrupt essential chromatin-based processes.

After two decades in the making, scientists have cracked the code on a drug that can repair DNA, setting the scene for a new ...

Inside cells, DNA twists and coils itself into a variety of different secondary structures—including i-motifs (iMs) and ...

Cedars-Sinai scientists have developed an experimental drug that repairs DNA and serves as a prototype for a new class of ...

Cedars-Sinai scientists have developed an experimental drug that repairs DNA and serves as a prototype for a new class of medications that fix tissue damage caused by heart attack, inflammatory ...

This article explores how challenges such as sequence optimization, immune activation and off-target effects are being ...

Fluorogenic DNA aptamers produce light only in the correct structural state, enabling programmable molecular logic, biosensing, DNA origami integrity reporting, and reusable mRNA detection through ...

DNA–protein cross-links (DPCs) represent a severe form of DNA damage that can disrupt essential chromatin-based processes. Among them, DNA–histone ...