One of the most revolutionary tools in cutting-edge medicine is a molecular scalpel so precise that it can modify defective DNA and fix genetic diseases like sickle cell anemia, and chronic disorders ...

Some conservation groups are calling for an effective ban on genetic modification, but others say these technologies are ...

Traditional breeding and genetic modification methods have struggled to keep pace with the rapid evolution of plant viruses. CRISPR/Cas systems, originally derived from bacterial immune responses, ...

On June 28, 2012, the most significant scientific breakthrough of the first quarter of the 21st century was announced to the ...

Despite setbacks and funding cuts — and a quieting of the hype blaring its arrival — multiple CRISPR-based trials are underway, and life-saving treatments have been developed.

St. Jude researchers advance CASTs, enhancing precision and activity for next-generation genome-editing therapies.

Advances in cancer immunotherapy from immune checkpoint modulation to adoptive cell transfer of tumour-infiltrating ...

Explore opportunities in protein engineering to innovate therapeutic and industrial applications. Enhance your skills in molecular biology and protein chemistry to develop cutting-edge protein-based ...

Stanford researchers and their collaborators have revealed a new device that could change the way scientists conduct gene-editing experiments. The device, CRISPR-GPT, is an artificial intelligence lab ...

We are now in the second great wave of the genetic revolution, not defined by reading the human code of life, but by rewriting it.

The mice model technologies market offers significant opportunities driven by advancements in genetic engineering, particularly CRISPR/Cas9, fueling drug discovery in oncology, neurobiology, and ...