Sometimes, a small error in the sequence of DNA can lead to a very serious disease. Scientists have identified many mutations ...

Previously, research on controlling gene networks has been carried out based on a single stimulus-response of cells. More recently, studies have been proposed to precisely analyze complex gene ...

A new genetic mapping strategy reveals how entire networks of genes work together to cause disease, filling in the missing links left by traditional genetic studies. The technique could transform how ...

Previously, research on controlling gene networks has been carried out based on a single stimulus-response of cells. More recently, studies have been proposed to precisely analyze complex gene ...

A new genome-wide mapping method finally shows how thousands of genes connect to drive disease. Biomedical researchers are working intensively to identify the genes that contribute to disease, with ...

Northwestern University biophysicists have developed a new computational tool for identifying the gene combinations underlying complex illnesses like diabetes, cancer and asthma. Unlike single-gene ...

Cancer has long been treated as a mass of rogue cells, but the real power lies in the intricate communication networks ...

Northwestern University biophysicists have developed a new computational tool for identifying gene combinations underlying complex illnesses such as diabetes, cancer, and asthma. Unlike single-gene ...

Researchers have developed a powerful tool capable of scanning thousands of biological samples to detect transfer ribonucleic acid (tRNA) modifications—tiny chemical changes to RNA molecules that help ...

Today’s biomedical researchers are relentlessly searching for genes that drive disease, with the goal of creating therapies that target those genes to restore health. When a single gene is the culprit ...