Scientists and physicians can better assess precision genome editing technology using a new method made public today by St.

CHANGE-seq-BE was developed to enable scientists to better understand base editors, an important class of CRISPR precise genome editors.

CS-101 is Shanghai-based CorrectSequence's lead candidate, which it is developing for treating sickle-cell disease and ...

Find how Circularization for High-throughput Analysis of Nuclease Genome-wide Effects by Sequencing Base Editors ...

Gene-editing technologies show great promise for medical treatments and research, with the potential to cure thousands of ...

A collaboration between scientists at the Institute of Molecular and Clinical Ophthalmology Basel (IOB) and Beam Therapeutics has resulted in a new base editing therapy for Stargardt disease, the most ...

A schematic showing the cytosine base editing intermediate and the various outcomes that can occur when the UNG protein is active. You may have seen it in the news recently: a baby in Pennsylvania ...

Since the development of the base and prime editing technique by David Liu at the Broad Institute, their applications in biomedicine have continued to grow, reaching 17 clinical trials for base ...

In a landscape where precision is paramount, the base editing market is emerging as a cornerstone of modern biotechnology, ...

Researchers at Mass General Brigham in Boston have designed a custom gene editing technique that corrected the mutation behind a rare blood vessel disease in mice, paving the way for further ...

You may have seen it in the news recently: a baby in Pennsylvania with a rare genetic disorder was healed with a personalized treatment that repaired his specific genetic mutation. The treatment was ...

CS-101 is Shanghai-based CorrectSequence's lead candidate, which it is developing for treating sickle-cell disease and ...