Inside a diseased cell, the genes are in chaos. Some are receiving signals to overproduce a protein. Others are reducing ...

Summary: A team of investigators from Dana-Farber Cancer Institute, The Broad Institute of MIT and Harvard, Google, and Columbia University have created an artificial intelligence model that can ...

Living cells are fundamentally nonequilibrium systems, meaning they constantly spend energy through seemingly one-way, ...

Gene therapy that can cross the blood–brain barrier represents a non-invasive way to map gene expression in the brains of ...

A newly developed mouse model enables real-time visualization of RNA Polymerase II (RNAP2) during DNA transcription, as reported by researchers from Science Tokyo. The team engineered mice to produce ...

Inside every cell, thousands of molecular signals collide, overlap, and compensate, obscuring the true drivers of gene expression. Scientists have now developed a way to silence that cellular noise, ...

R-loops are structures that form when a strand of RNA (red) forms a stable structure with double-stranded DNA, causing one strand of the DNA to form a loop. R-loops are associated with gene ...

“Taken together, our findings highlight both brain region-specific vulnerabilities and global molecular perturbations associated with alpha-synuclein biology and provide insights into early ...

Scientists have developed an AI system that analyzes complex gene-expression signatures to estimate the likelihood that a ...

A newly released publication examines how deuterium concentration may influence gene activity in lung cancer cells. The study ...