Novel approach to engineering complex microbial traits generates tens of millions of gene combinations, enabling gain-of-function traits beyond those ...

Gene drives—a genetic engineering approach that quickly spreads specific genetic changes throughout a population, whether to ...

Researchers have demonstrated a new class of low-cost, scalable sensors that can be used to monitor electrical activity in ...

Stepping away from its billions-of-years-old role as a genetic blueprint, DNA is now embarking on a new journey as an active ...

New Johns Hopkins research shows an AI-driven liquid biopsy analyzing genome-wide cfDNA fragment patterns can detect early ...

A gene called KLF5 may be a key force behind the spread of pancreatic cancer—but not in the way scientists expected. Rather than mutating DNA, it rewires how genes are turned on and off, helping ...

Sexually transmitted infections (STIs) not only impact an individual’s health but also result in multibillion-dollar economic losses worldwide. To study these diseases, a team of researchers has ...

What is the CAMEO organoid sensor? Researchers have created a low-cost, carbon nanotube-based microelectrode array to monitor ...

Researchers at Israel’s Weizmann Institute of Science report engineering a single tobacco plant to produce five ...

The effectiveness of air disinfection devices may now be measured in minutes, rather than hours, with a new technique from University of Michigan Engineering. This is important for researchers ...

What previously required months or years of specialised lab work can now be done in hours or days thanks to its integrated ...

In the search to replace antibiotic growth promoters with effective alternatives in modern swine production, plant-based ...