Cells in our bodies produce RNA based on genetic information stored in DNA, and RNA serves as a blueprint for making proteins. Researchers at KAIST have discovered a new phenomenon: Removing "circular ...

Platform combines proprietary AI sequence optimization, novel genetic parts, and lab validation in application-relevant cell models to improve expression and half-life, delivering top candidates in ...

A study finds that removing accumulated circular RNA slows aging and extends lifespan, with an enzyme preventing toxic RNA buildup, and supporting healthy cellular function across organisms.

New research identifies a critical RNA recycling system that prevents cellular "clogging," offering a new path for anti-aging therapies.

Researchers have gained new insights into largely overlooked circular RNAs in brain cells and the crucial role they play in diseases like Alzheimer’s and Parkinson’s. In addition to providing valuable ...

For decades, scientists have recognized that human immunodeficiency virus (HIV) is a formidable viral pathogen. After years of probing work and extensive experimentation, a Yale research team has ...

A new review article highlights the transformative role of circular RNA (circRNA) in cancer, revealing its potential as both a key player in tumor biology and a promising avenue for future therapies.

It's no secret that we need new ways to treat and detect disease, including cancer. Specifically, we need better biomarkers that can be used for diagnosis and better ways to selectively get medicine ...