Researchers have revealed new details about the CRISPR-Cas5-HNH/Cascade complex, a variant of the type I-E CRISPR-Cas system, ...

The CRISPR-Cas gene scissors offer a wide range of potential applications, from the treatment of genetic diseases to ...

There are numerous potential uses for the CRISPR-Cas gene scissors, ranging from antiviral treatments and diagnostics to the ...

A UCO team has applied the genome editing technique, which garnered a Nobel Prize in Chemistry in 2020, to unravel the ...

“Almost half of all bacteria and the large majority of archaea on planet Earth have an endogenous CRISPR-Cas system in them,” he said. “One of the great things to do is just to repurpose the ...

Gene editing techniques may eventually allow trisomy to be treated at the cellular level, according to an in vitro ...

No doubt 2025 will usher in many more advances in CRISPR therapies, thanks to the FDA’s new Platform Technology Designation ...

CRISPR-Cas9 genome editing exploits the CRISPR-Cas system to modify a genome in a targeted manner. Guided by RNA, the Cas9 endonuclease breaks DNA at a target sequence. Imprecise repair of the ...

5,15 Both technologies are based on the CRISPR-Cas system but utilize different CRISPR-associated proteins, Cas13 for SHERLOCK and Cas12a for DETECTR, to achieve their highly specific diagnostic ...

By Balambal Suryanarayanan CRISPR-Cas9 is a repurposed gene editing tool that allows scientists to cut, replace, and insert pieces of DNA in precise regions along the strand. Courtesy of NIH Image ...

Potent in vivo gene editing in skeletal muscle of non-human primates by a novel, ultracompact CRISPR system delivered via a single AAV vector.

2020年，詹妮弗·杜德纳（Jennifer A. Doudna）教授与埃马纽埃尔·夏彭蒂耶（Emmanuelle Charpentier）共同荣获诺贝尔化学奖，以表彰她们共同开发了基因组编辑方法CRISPR的卓越贡献。 受Frontiers for Young Minds邀请，杜德纳撰文解释了CRISPR的工作原理以及她与合作者是如何发现这一机制的。杜德纳说， ...