The ability to precisely edit the genomes of bacteria has long been a goal of microbiologists. Such technology would enable ...

The gene editing treatment targets the relatively common 1717-1G>A splicing mutation, which does not respond to many current CF therapies.

This guidance emphasises the potential of NGS methods in mitigating safety risks associated with therapies incorporating ...

A multi-lab team led by Gladstone Institutes has successfully adapted retron-based genome editing—previously limited to E. coli—for use in 14 additional bacterial species across three major branches ...

The Pairwise Fulcrum® platform includes proprietary gene editing tools, enzymes, and trait libraries that enable precise genetic changes, unlocking plants’ inherent potential and significantly ...

The publication, titled “ Comparative characterization of Cas12f orthologs reveals mechanistic features underlying enhanced genome editing efficiency” highlights the potential of MG119-28 (formally ...

A team of scientists from Stellenbosch University and the Agricultural Research Council have, for the first time, successfully edited the DNA of a woody crop plant in Africa by making precise changes ...

A platform approach to gene editing brings together design, manufacturing, validation, analytics, and regulatory considerations right from the start.

Key market opportunities include advancements in research, medicine, diagnostics, and biotechnology through CRISPR. There is potential for innovative solutions and ethical exploration in gene editing, ...

Waking up this morning to news of the much-deserved Nobel Prize win for Emmanuelle Charpentier and Jennifer A. Doudna "for the development of a method for genome editing" confirms the importance of ...

The red coloration of red-leaf lettuce is attributable to anthocyanins. Researchers at University of Tsukuba showed that ...