Imagine wanting to use a phage against an antibiotic-resistant bacterial infection. The only thing standing in the way of that phage killing the bacteria and eradicating the infection might be the ...

By spinning bacteria in a controlled flow, scientists produce aligned cellulose sheets with tensile strength over 500 MPa.

Remember "Baby KJ"? Now CRISPR pioneers have partnered with the Chan Zuckerberg Initiative to launch center for curing rare ...

NVIDIA’s Helix lets AI read encyclopedia-sized input and respond instantly, solving major speed and memory issues for large ...

The global CRISPR gene editing market size is calculated at USD 4.77 billion in 2025 and is expected to reach around USD ...

Rare genetic diseases are challenging for patients and their families—made all the more overwhelming because symptoms tend to ...

Gut contains millions of tiny viruses that actually help keep you healthy by controlling harmful bacteria and supporting your ...

The growth of the recombinant proteins market is driven by advancements in biopharmaceutical research, increasing demand for personalized medicin ...

Insects possess a remarkable ability to develop innate immune memory, and the mechanisms underlying this process are becoming a central topic in innate immunity research.

Innovation in biotechnology has reached new heights with the advancement of microbial genome editing services. These services enable researchers and industries to modify the genetic makeup of ...

The Johns Hopkins investigators say bacteria have long been known to use CRISPR-Cas systems to chop up phage DNA, break it down and get rid of it. Crucially, CRISPR systems can only destroy DNA that ...

Once inside their target cells, these phages use the Crispr system to home in on a crucial site in the E. coli genome and start degrading the bacteria’s DNA.