RNA interference (RNAi) therapeutics have garnered significant attention in clinical research due to their potential for treating various diseases, including genetic disorders, viral infections and ...

A structured pathway supports individualized RNA-based and genome-editing therapeutics when ultra-rare prevalence precludes ...

Researchers have discovered RNA mechanisms that may lead to more effective, durable and targeted treatments for conditions like high cholesterol, liver diseases and cancers. RNA interference (RNAi) ...

The discovery of RNAi dates back to the 1990s when researchers observed unexpected gene silencing in plants and fungi. In 1998, Andrew Fire and Craig Mello published a groundbreaking study ...

RNA interference (RNAi) therapy offers groundbreaking potential to revolutionize disease treatment by targeting gene silencing. Opportunities lie in developing alternative treatments for conditions ...

Discover six RNAi biotech companies helping to drive momentum in a field that can precisely target disease at its genetic root.

By Hugo Francisco de Souza Emerging research suggests reversible RNA editing mechanisms may influence heart disease biology while opening new avenues for biomarkers and next-generation cardiovascular ...

Neurons have a "hibernation mode." Scientists discover how brain cells use RNA tentacles to lock their protein factories together to survive when energy is low.

New research from scientists at the University of Washington (UW) School of Medicine and Duke University describes how cellular RNA helps regulate antiviral signaling as part of the immune response ...