In recent years, scientists have created a range of new methods based on CRISPR-Cas technology for precisely editing the genetic material of living organisms. One application is in cell therapy ...

Researchers in Lithuania present the molecular structure of a new, more-versatile CRISPR system for gene editing.

The gene editing technology CRISPR has revolutionized biomedical research, with widespread applications from enhancing crop ...

The genome-editing technology can be supercharged by artificial intelligence—and the results are already being felt.

The gene-editing technique known as CRISPR is promising to revolutionize medicine. Some researchers are trying to help make it available for people with very rare genetic disorders.

Finding function for noncoding RNAs using a new kind of CRISPR RNA-targeting CRISPR reveals that hundreds of noncoding RNAs are essential -- not 'junk' -- including in human development and cancer ...

thus effectively establishing a paradigm for next-generation CRISPR screens. The approach has broad applications in identifying novel drug targets or elucidating unknown mechanisms of actions of ...

The gene editing technology CRISPR has revolutionized biomedical research, with widespread applications from enhancing crop production to treating blood disorders by editing the DNA in a person's ...

CRISPR-Cas9 genome editing exploits the CRISPR ... Red light optogenetic systems are in high demand for therapeutic applications. Here, the authors introduce REDLIP, a red-light-inducible system ...

All DNA-binding CRISPR-Cas systems use this structure to ... This discovery opens doors to future applications in genome editing without the risk of DNA cuts, which could lead to more precise ...