This webinar will highlight how circular RNA overcomes key challenges in in vivo CAR-T therapy, with case examples from YXgene’s circRNA platform. In vivo CAR-T therapy is emerging as a transformative ...

Circular RNA (circRNA) is a unique type of non-coding RNA produced by back splicing of mRNA to form the covalent junction without 3’-5’ polarity and poly(A) tail. CircRNA was first discovered about 30 ...

University of Delaware’s Mona Batish is a molecular biologist. She studies circular RNAs formed as a result of so-called molecular mistakes that occur when a strand of RNA — the ribonucleic acid that ...

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 ...

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 ...

Study reveals how an RNA enzyme drives the postnatal switch from glucose to fatty acids in heart cells, highlighting ketogenesis as essential for metabolism. Study: The tRNA methyltransferase Mettl1 ...

Diagnosing heart failure in women can be particularly challenging. New research on biomarkers may lead to more accurate diagnoses for heart failure, in both women and men. Subscribe to our newsletter ...

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.