Nobel laureate David Baker’s latest foundation model can design proteins that interact to any biomolecule for broad biotech applications.

Enzymes that cut DNA at specific sites are called endonucleases; these enzymes play many roles in genomic replication, fidelity, and defense. The initial discovery of restriction endonucleases in the ...

CRISPR—Clustered Regularly Interspaced Short Palindromic Repeats—is the microbial world’s answer to adaptive immunity. Bacteria don’t generate antibodies when they are invaded by a pathogen and then ...

There are many health problems that can be traced back to errors in the genetic code. There are also many potential benefits to genetic engineering outside of healthcare. Nature has already found ways ...

RNA, widely known from the COVID-19 vaccine, is not actually a "therapeutic agent," but a technology that delivers the ...

Researchers have come one step closer to unlocking the potential of synthetic DNA, which could help scientists develop never-before-seen proteins in the lab. The genetic alphabet contains just four ...

(Inside Science) — An enzyme in the bacterium E. coli made more errors copying synthetic DNA when exposed to zero gravity than the same enzyme did in normal gravity, a recent study finds. The paper ...

The nucleus has historically been considered to be metabolically inert, importing all its needs through supply chains in the cytoplasm. Now, a new study by researchers at the Centre for Genomic ...

In crisis, the nucleus calls antioxidant enzymes to the rescue. The nucleus being metabolically active is a profound paradigm shift with implications for cancer research. In crisis, the nucleus calls ...

Opportunities in the Molecular Biology Enzymes Reagents and Kits market include rising R&D investments and growing demand for ...