The CRISPR gene editing system holds tremendous promise. It has already revolutionized biomedical research by making gene editing a straightforward process. It involves using a guide RNA molecule that ...

Like base editing, prime editing offers a safer way to genome editing by relying on a nickase enzyme that “nicks” one DNA strand at a time, rather than cutting both simultaneously. Then, with the ...

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

CRISPR gene editing revolutionized the cell and gene therapy (CGT) industry this past decade, but the industry still faces significant bottlenecks and gaps between development and manufacturing that ...

Genetic disorders occur due to alterations in the primary genetic material—deoxyribonucleic acid (DNA)—of an organism.

Prime Medicine has surged over 130% in three months, driven by pipeline progress and visibility from recent scientific presentations. PRME's Prime Editing platform targets multi-billion-dollar markets ...

CRISPR has taken the bioengineering world by storm since its first introduction. From treating sickle cell diseases to creating disease-resistant crops, the technology continues to boast success on ...

This figure illustrates the evolution of CRISPR technology from 1987 to 2019, presented in a horizontal timeline format and categorized into four generations, each denoted by a distinct color: The ...